master thesis topics in structural engineering

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Structural Engineering Dissertation Topics For Prodigious Dissertation

The most important thing in a dissertation is making a great first impression. You might think that a great first impression can be made through a good abstract or even a good introduction, but the thing that actually compels a reader to pick up and read your dissertation is your dissertation topic. This is the reason majority of the supervisor’s advice students to work extensively on their dissertation topic.

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Latest Structural Engineering Dissertation Topics for 2023-2024

To make sure that you make the best possible first impression, our industry leading senior professional writers have prepared a list of the best free structural engineering dissertation topics and structural engineering dissertation ideas, specifically for your guidance and help.

The research aim to analyse high durability Materials for Earth Quake Proof Structures and their Integration with Existing System

Objectives :

• To design high quality earthquake proof material that can resists high shocks without compromising structural integrity.
• To identify the challenges related to introducing advanced shock proof material into existing system and the ways to overcome it.
• To evaluate the environmental impact of the new materials and the ways to minimize them to acceptable levels.

The study aims for the design and Testing of Military grade blast resistant structural designs for highly sensitive environment

• To design the blast resistant material for hostile environments.
• To analyse the minimum time to build blast resistant structures.
• To determine the point of failure for blast resistant structures.
• To provide economic analysis of new material design in comparison with existing blast resistant materials in sensitive environment.

The study is aimed to evaluate the recycling process of plastic waste for the manufacturing of brick and the associated economic factors

• To analyse the challenges related to the use of plastic material for the production of brick.
• To evaluate the economic challenges related to the manufacturing process and the ways to overcome them
• To find the structural integrity of plastic bricks as compared to regular bricks.
• To analyse the environmental benefits of the process.

The study aims To Evaluate the use of Graphene in Manufacturing High Quality cost-effective Steel and Their Use In offshore Design

• To find the elastic, plastic and tensile strength of graphene coated steel and their effectiveness in offshore oil rigs.
• To evaluate corrosion resistance and effective life of the material in offshore rig environment.
• To analyse the cost-effective ways to build the graphene coated material on industrial scale.
• To evaluate the material integration with concrete and its behavior under compressional, tensile and shear strength.

The research aim to design Cost-effective Dams to Address Seasonal Flooding Problems to minimize their Environmental Impacts

• To find the cost effective methods for dam design that can be used to counter seasonal flooding and minimise their impacts.
• To evaluate the structural integrity of these dams and their effectiveness in natural environment.
• To analyse the positive and negative environmental aspects of the dams.
• To evaluate the cost of build of these dams and the ways to minimize it.

The research aims to examine different techniques to evaluate and determine the asphalt content and road deterioration.

• To analyse different models for pavement deterioration.
• To identify the main indicators of pavement deterioration.
• To identify different condition responsible for pavement deterioration.
• To compare modern and conventional techniques to address deterioration.

The research aims to analyse the structural challenges related to underground intra-city train network for London city and implementation of spatial stress analysis to overcome them.

• To analyse the structural challenges related to development of underground train network.
• To evaluate the process and techniques involved in the development of the underground train network using spatial stress analysis.
• To design the process addressing the structural challenges of the project.
• To analyse the implementation of design process on existing system of train network.

The study aims to develop advanced risk assessment tools to determine structural integrity of dynamic and complex structure using simulation modelling.

• To develop a risk assessment tool for dynamic and complex structures.
• To determine the accuracy of simulation modelling in comparison to real time analysis.
• To analyse the structural integrity of different structure and evaluate their point of failure.
• To evaluate the efficiency of the simulation tool in comparison to existing software.

The research aims to analyse the necessary arrangements required to build mega structures in coastal areas using the case study of Patimban Seaport, Indonesia.

• To analyse the challenges related in building mega structures in coastal areas using the example of Patimban Seaport, Indonesia.
• To evaluate the ways to address the challenges related in building mega structures in coastal areas.
• To design the cost-effective methods for the reinforcing the coastal areas to sustain mega structures.
• To analyse the environmental and economic impacts of the project.

The research aims to evaluate the use of Oobleck along with concrete for the development of high resistance structures and its economic impact.

• To design the process for the development of Oobleck based concrete.
• To evaluate the economic impact of Oobleck based concrete compared to regular concrete.
• To determine the expected life and point of failure for Oobleck based concrete.

The aim of the study is to conduct an explorative analysis to identify and analyze traditional techniques that are utilized for the determination of road and asphalt deterioration. The research aims to analyze to compare modern resources and old techniques. The aim of the study is to identify are these conventional techniques outdated?

Objectives:

The primary objective of the study is to achieve the aim of the study. However, the aim of the study can be achieved through secondary objectives. Therefore, the secondary objectives of the study are the following:

• To study the model of pavement deterioration.
• To identify the main conditions of pavement indicators.
• To analyze the conventional methods of road and asphalt deterioration.
• To conduct a comparative, analyze the modern and conventional techniques of deterioration.

The aim of the study is to conduct a novel analysis of the changes in structural engineering over time. The research aims to study that will these modern and new hardware and software will certainly provide more accurate solutions. Therefore, the aim of the study is to analyze and characterize the change and modification that have been occurred in the structural engineering processes because of the computer. The research thereby aims to offer direction for the additional development in structural engineering by utilizing computers in structural design.

The primary objectives of the study are to achieve the aim of the study. However, the aim of the study can be achieved through secondary objectives. Therefore, the secondary objectives of the study are the following:

• To study the concept of structural engineering.
• To evaluate the changes, occur in structural engineering over time.
• To study the future of structural engineering and build an understanding of the past of structural engineering.
• To study the change process of structural engineering.
• To evaluate the development and history of structural engineering.
• To analyze the role of technology in modifying structural engineering.
• To study how these modern and new hardware and software will offer accurate solutions.
• To offer a suggestion for more development in structural engineering.

The aim of the study is to conduct a systematic analysis of the role played by a structural engineer in advancing the medical procedures and technologies. The research aims to analyze the growing significance of the structural engineer. The aim of the study is to evaluate the growing need for specialization in the engineering field.

• To analyze the role of structural engineers.
• To evaluate the structural engineer role in medical procedure and technologies.
• To study the growing significance of structural engineers.
• To evaluate the growing need of specializing in the field of structural engineers.
• To analyze the transformation of a structural engineer over time.

The aim of the study is to conduct an evaluative study on the third zone engineering networking principal. The research aims to analyze the effectiveness of the third zone engineering in evaluating the structures of building and for the revolution of the overall industry.

The primary objective of the study is to achieve the aim of the study. However, the aim of the study can be achieved through various secondary objectives. Therefore, the secondary objectives of the study are the following:

• To study the concept of third zone engineering.
• To analyze the role of third zone engineering.
• To evaluate the significance of third zone engineering.
• To determine the efficacy of third zone technique in structural building.
• To analyze the third zone engineering networking principal.
• To evaluate the impact of third zone engineering in the evaluation of structure building.

The aim of the study is to examine the use of modelling geo-mechanical in structural engineering. The research aims to analyze the role of uncertainty quantification regarding the model of geo-mechanical inverse in structural engineering. The aim of the study is to enable the practitioner engineer to understand the factors of uncertainty and its consequences related to geo-mechanic inverse deeply. Moreover, the research aims to analyze the benefits of reducing uncertainty consequences.

• To evaluate the concept of the geo-mechanical inverse.
• To analyze the use of the geo-mechanical inverse model in general.
• To evaluate the use of the geo-mechanical inverse model in structural engineering.
• To analyze the uncertainties related to the geo-mechanical inverse model.
• To analyze the possible consequences of the geo-mechanical inverse model.
• To determine the role of the geomechanical model in structural engineering.
• To evaluate how the geomechanical model can overcome the uncertainties in structural engineering.

The aim of the study is to conduct a novel study on the measurement of shock transmission by the geologic material. The research aims to identify and determine the materials for the structure of the building that are anti-earthquake.

• To study the concept of geological material.
• To measure the impact of geological material in shock transmission.
• To evaluate the anti-earthquake materials.
• To investigate which type of structure or material can be earthquake resistant.
• To evaluate the concept and designing of earthquake-resistant material.
• To analyze the feature that helps the material and structure to be earthquake resistant.
• To analyze the current practice and knowledge in designing, construction and planning of the concrete building that is earthquake resistant.

The aim of the study is to conduct a critical analysis of the utilization of hybrid construction material like timber steel for the construction of the advanced multi-storey structure of the building. The research aims to study the construction of building in the municipal cities besides the fault line. Furthermore, the research aims to conduct a case study in Tokyo with this regard.

• To evaluate the use of timber steel.
• To analyze the use of timber steel in the construction of the multi-storey building.
• To evaluate the advantage of using timber steel.
• To investigate the economic advantage of using timber steel.
• To study the advantage of timber steel with the aspect to fire resistance.
• To analyze the application of timber steel in multi-storey buildings.
• To analyze the implication of timber steel in a multi-storey building.
• To evaluate the efficacy of timber steel in structural engineering.

The aim of the study is to analyze factors for enhancing the steel trusses structural efficacy for making strong and durable skyscrapers. The research aims to conduct a case regarding Dubai buildings. The aim of the study is to design the serviceability, strength and stability structure. Additionally, the structure must be aesthetic and economical. The aim of the study is to develop a structure which will be thereby able to manage the load without any failure of implication throughout the intended life of the building. Therefore, the study aims to examine and analyze some of the accessible measures, by utilizing those measures for a good cause and certainly provide the theoretical background for the measure on the basis of the concept of structure.

• Examine the factors for enhancing the structural efficacy in the steel trusses.
• Analyze different materials uses roof truss 2D and develop an inert structure and examine the distortion and the corresponding stress.
• To develop an inert structure of 2D roof truss through the steel model and explore the deformation and the corresponding stress as well.
• To compare and contrast the different type of steel efficacy such as structural steel, alloy steel and mild steel.
• To identify which steel, possess more efficacy among all the three types.

The aim of the study is to analyze the computer-aid design (CAD) limitations that are certainly being applied in the engineering project of today. The research aims to evaluate how CAD limitation will lead the new country toward the environmental and economical problem. For this aspect, the research aims to evaluate the effectiveness as well as the challenges and implication of the CAD in modern engineering projects.

• To study the concept of CAD in engineering projects.
• To evaluate the effectiveness of CAD in the project of engineering.
• To analyze the advantages and disadvantages of CAD in modern engineering.
• To determine the limitations and implication of CAD in modern engineering.
• To examine the CAD challenges in modern engineering.
• To evaluate the significant impact of CAD.

The aim of the study is to evaluate the concreate elastic and strength behaviour in the filled tubular steel sector. The research aims to analyze the structure effectiveness for the oil rigs which are offshore. The general aim of the study is to study different literature that has been previously studied regarding the tubular filled sections, the different shapes that are adopted and the adopted methodologies as well.

• To study the elastic behaviour and strength of concrete in the filled tubular.
• To study the elastic properties as well as the strength properties of these kinds of beams.
• To study the concrete-filled tubular behaviour under the flexure, shear and compression.
• To conduct a theoretical analysis of filled tubular through the analysis method of finite element.

The aim of the study is to conduct a novel study regarding the usage of waste plastic in bricks manufacturing as well as with them-sand and quarry dust. The research aims to analyze the effectiveness of the method in recycling waste plastic rather than just throwing it in conventional areas of land. Therefore, the major aim of the study is to develop and build an effective way for efficiently using the waste plastic which can certainly pose sustainment threat in the ecological balance, along with the waste of quarry to establish a substitute building material through which the waste plastic scientific disposal, as well as the conventional building material scarcity, can be certainly answered.

• To analyze the ways for effective utilization of waste plastic.
• To evaluate the effectiveness of recycling waste plastic for bricks manufacturing.

The aim of the study is conducting novel research on how Iron Nanoparticle (INP) can be used for the Arsenic (iii) removal and treatment from the groundwater. The research aims to analyze the technique effectiveness for making the water of the ground safe and clean for the purpose of agriculture and irrigation.

• To evaluate the concept of Iron Nanoparticles (INP).
• To analyze how INP can be used for the removal and treatment of Arsenic (iii).

To evaluate the effectiveness of INP.

The aim of the study is conducting a novel evaluation on the usage of fabricated nanomaterial of graphene for the treatment of water. The study aims to conduct a comparative analysis of the advantage vs the cost-effectiveness of graphene techniques.  Furthermore, the research aims to represent an evaluation of the graphene nanomaterial contribution to the treatment of water. The study aims to discuss and explore various future and upcoming perspective of these materials in the treatment of water. Additionally, the research has made attempt to explore the hazards and nanotoxicity of the graphene materials. Moreover, the study will also provide suggestion and recommendation to discover the overall potential and effectiveness of these materials alongside the nanotoxicity precaution and their hazards as well.

• To evaluate the usage of graphene for the treatment of water.
• To determine the advantage vs the cost-effectiveness of the graphene for the treatment of water.

The aim of the study is to conduct a critical analysis of the replacement of river sand by the foundry sand waste in the paver block as an efficient way of reducing the erosion of soil. The research aims to study the alternate material usage in the concrete which involves future changes in the technology of concrete that certainly pave the way to use few of the substitute material that can be thereby used as the structure to the concrete ingredient that can be completely or partially be replaced with one or more than one material. The research also aims to study the waster foundry sand application in concrete. The research also aims to study a different aspect of utilizing waste material in the concrete.

The following are the objective of the study.

• To find how the replacement of river sand can be an effective way for soil erosion reduction.
• To analyze the significance of replacing river sand.

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Structural engineering dissertation topics can be used only once. Whereas on the other hand structural engineering dissertation ideas can be moulded and shaped into multiple structural engineering dissertation topics that suits your needs and availability of resources. For this reason our team of sensational professional writers have produced a list of some of the best dissertation ideas that you can use to custom make structural engineering dissertation topics for yourselves.

Structural Engineering Dissertation Ideas For Striking Dissertation

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Some tips and tricks to follow in order to make sure that your dissertation topics are great, are to firstly keep your dissertation topic simple yet focused, the choice of words should be so clever that it should pique your reader’s interest.

A large part of a great dissertation topic lies on the fact that whether your dissertation is pursuable or not. If you have an idea, then explore multiple topics first, then go with the one that is the most attractive.

There are multiple areas from where you can find samples related to your dissertation, for example academic search engines, freelance websites, from your university’s library or local library, from your seniors or recent graduates and even from writing service providing websites.

You may come across many great dissertation ideas and topics but not all of them are pursuable. Some things that you can do to make sure that your dissertations are pursuable or not are to do a small scaled qualitative/quantitative study first. Along with it do semiotic analysis, textual analysis and secondary research.

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40 seminar/project topics in structural engineering.

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The specification of final year project's topics may have some influence on the future job or career of students. It, therefore, becomes very crucial to select an apt topic since students are going to do great and extensive research about it, it is possible that such a topic may open doors to different horizons in the field.

In this article, forty topics about structural engineering are presented which can be used for both seminars and graduation projects. There are lots of topic out there, but these are selected from literature and efforts made to specify most novel topics.

These topics deal with various aspects of structures such as improving certain aspects of design, repair damaged structures, study properties of structures under various modes of loading including static and dynamic like seismic forces. These project topics may need numerical modelling, experimental works, or combination thereof.

• Pushover analysis – cyclic loading, deterioration effect in RC Moment Frames in pushover analysis
• Rehabilitation – Evaluation of drift distribution
• Analysis of large dynamic structure in environment industry
• Theoretical study on High frequency fatigue behavior of concrete
• Seismic analysis of interlocking blocks in walls
• Estimation of marine salts behavior around the bridge structures
• A comparative study on durability of concrete tunnels undertaken in AP irrigation projects
• Prefabricated multistory structure, exposure to engineering seismicity
• Shape optimization of Reinforced underground tunnels
• Properties of Fiber Cement Boards for building partitions
• Behavior of RC Structures subjected to blasting
• The use of green materials in the construction of buildings
• Finite element model for double composite beam
• A new composite element for FRP Reinforced Concrete Slab
• Effect of shear lag on anchor bolt tension in a base plate
• Elastic plastic bending, load carrying capacity of steel members
• FE Analysis of lateral buckling of a plate curved in nature
• Green energy and indoor technologies for smart buildings
• Building environmental assessment methodology
• Numerical study on strengthening of composite bridges
• Strengthening effect for RC member under negative bending
• Effect of negative Poisson’s ratio on  bending of RC member
• Macroeconomic cause within the life cycle of bridges
• Long term deflections of long-span bridges
• Structural damage detection in plates using wavelet theories (transforms)
• Hybrid Simulations: Theory and Applications
• Engineered Wood in Cold Climate
• Mechanical Properties and Engineering Application of Modern Timber
• Hybrid Structural Systems and Innovation Design Method
• Design of Reinforced Concrete Block Masonry Basement
• Nonlinear Analysis of a New 3D Skip-Floor Staggered Shear Wall Structure
• Advances in Civil Infrastructure Engineering
• Mechanical Performance of an Irregular Kiewitt Dome Structure
• Shear Distribution Coefficient Study under Horizontal Force
• Structural Damage Identification Method and Program Designing Based on Statistical Analysis
• Prescriptive or Performance Design for Fire?
• Deflection Control by Design
• New Code Provisions for Long Term Deflection Calculations
• Retrofitting and Repairing with composite materials
• Epoxy Coated Reinforcement and Crack Control

Madeh Izat Hamakareem

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List Of Winning Dissertation Topics In Structural Engineering

The study of structural engineering involves learning about building structures as well as non-building structures where structural integrity affects whether an object can function correctly and safely (e.g., vehicles, medical equipment, machinery, etc.). In working towards a graduate or doctoral degree in structural engineering you will have to complete a dissertation. Choosing a great topic is essential, so we’ve come up with this list of ideas to help get you started:

• Discussing the importance of structural engineering in today’s world. Engineers from different specialty areas must work together to create designs that function properly, efficiently, and safely. Why is communication so important in this field?
• The important of multi-disciplinary engineering work. Provide a case study for the Tower in Dubai as an example of multi-disciplinary cooperation and the accomplishments it is as a result of professionals from around the world working together.
• Describe the important function that structural engineering has on space exploration and why companies like SpaceX are at the forefront of the revitalization of this industry because of innovations in structural engineering.
• Examine techniques used for determining asphalt and road deterioration and provide an argument as to whether the techniques are outdated or if they still provide the necessary information for accurate analysis and evaluation.
• What role do structural engineers have in a lot of the low cost but mass produced development machinery being used in third world and poor countries from around the globe? Are these short term solutions or that will need replacing in a matter of years?
• How has the structural engineering discipline changed in the computer age? Are software and hardware that can provide more precise equations and solutions eventually replacing the need for humans to make evaluations on an object’s integrity?
• What role do structural engineers play in furthering medical technologies such as cross-country machines used for intricate and precise surgeries and procedures? Does this open up the door for an even greater need of engineers specializing in this field?
• The challenges of oversea investment: How have larger companies’ investment in oversea production affected the U.S. ability to retain structural engineers to work on local projects rather than those that generate greater revenue and a higher pay from companies?
• The networking principal in third-zone engineering: How is this recent technique for evaluating building structures revolutionizing the entire industry?
• Discuss the limitations of CAD principles being applied to today’s engineering projects and how it can be a recipe for economic and environmental troubles in the new century?

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Top 25+ Best Project Topics In Structural Engineering

Structural engineering is a critical field in the design and analysis of various structures, such as buildings, bridges, tunnels, and dams. It involves the application of mathematical and scientific principles to understand and predict the behavior of structures under different loading conditions.

Structural engineers are responsible for ensuring the stability, safety, and reliability of structures, as well as minimizing their environmental impact. They must consider various factors, including the materials used, the loads and stresses the structure will bear, the effects of natural disasters like earthquakes and hurricanes, and the impact of environmental factors such as wind and water.

The importance of structural engineering cannot be overstated, as it plays a vital role in the construction and maintenance of infrastructure around the world. A poorly designed or constructed structure can have disastrous consequences, leading to property damage, injury, and loss of life. Conversely, a well-designed and properly constructed structure can withstand even the most severe conditions and stand the test of time.

Projects in structural engineering provide students and professionals with the opportunity to apply their theoretical knowledge to real-world problems. These projects can take many forms, such as designing a building or bridge, conducting structural analysis, or developing new materials or construction techniques.

By working on projects, students and professionals can gain practical experience and develop skills that are essential for success in the field. They can also learn how to work collaboratively, communicate effectively, and solve complex problems.

In addition to providing valuable learning experiences, projects in structural engineering can also lead to new discoveries and innovations in the field. For example, a student might develop a new structural design that is more efficient and cost-effective than existing designs, or a team of professionals might discover a new material that is stronger and more durable than traditional building materials.

Moreover, projects can help identify gaps in current knowledge and areas that require further research. This can lead to new research projects and funding opportunities, which can drive innovation and advance the field.

Projects in structural engineering offer students and professionals the opportunity to apply their theoretical knowledge to real-world problems, develop practical skills, and drive innovation in the field. By working on projects, individuals can deepen their understanding of key concepts, discover new solutions, and contribute to the development and improvement of infrastructure around the world.

PROJECT TOPICS IN STRUCTURAL ENGINEERING

The aim of this article is to provide inspiration and guidance for students and professionals seeking project ideas in the field of structural engineering. The article will highlight the importance of projects in this field, including their role in applying theoretical knowledge to real-world problems, developing practical skills, and driving innovation.

The article will also provide a range of project ideas, from simple to complex, for students and professionals to consider. These ideas will cover different areas of structural engineering, such as building design, bridge construction, and structural analysis.

Additionally, the article will provide resources for finding additional information and support for those who wish to pursue a project in structural engineering. These resources will include academic journals, professional associations, and online communities where individuals can connect with others in the field and share their project ideas and experiences.

Overall, the aim of this article is to inspire and guide students and professionals in structural engineering by providing a range of project ideas and resources for further exploration and development. By encouraging individuals to pursue projects in this field, the article seeks to contribute to the development and improvement of infrastructure worldwide.

Proceeding to the Main Important Question,  How do I choose a project topic for structural engineering ?

General Topics in Structural Engineering

• Bridge design and analysis: Discuss the unique challenges of designing and analyzing bridges, such as accounting for various loads and stresses, choosing appropriate materials, and ensuring safety for all users.
• Building design and analysis: Discuss the considerations involved in designing and analyzing buildings, including factors such as load-bearing capacity, durability, aesthetics, and environmental impact.
• Seismic analysis and design: Explain the importance of seismic analysis and design, including predicting and mitigating the effects of earthquakes on buildings and other structures.
• Wind analysis and design: Discuss the challenges of designing buildings and bridges that can withstand high winds and wind loads, and how wind tunnel testing can aid in this process.
• Structural materials and construction techniques: Introduce the different materials and techniques used in structural engineering, including concrete, steel, timber, and composites, and how these choices impact the design and analysis of structures.

Specific Project Ideas

• Investigating the effects of different materials on structural strength: Discuss how students or professionals could test and compare the strength and durability of different materials in structural applications, and how this knowledge could inform future designs.
• Designing a bridge that can withstand extreme weather conditions: Challenge students or professionals to design a bridge that can withstand high winds, heavy snow loads, or other extreme weather events, and explain the considerations involved in such a project.
• Creating a model of a building that can resist seismic activity: Encourage students or professionals to design and test a building model that can withstand earthquakes or other seismic events, and explain the importance of seismic analysis in structural engineering.
• Evaluating the impact of vibrations on building structures: Explain the challenges involved in designing buildings that can resist vibrations from sources such as earthquakes, wind, or machinery, and challenge students or professionals to investigate the effects of different types of vibrations on building structures.
• Analyzing the effects of different construction techniques on building durability: Encourage students or professionals to investigate how different construction techniques, such as modular construction or prefabrication, impact the durability and stability of buildings and other structures.

It’s a seemingly tough question before you start on your project work, one approach to narrow your choices down is to decide your future objectives.

By that I mean, you want to get a technical/non-technical job after that or pursue your career in the academic world.

A topic which is more relevant to industry requirement (stress analysis, crack propagation, health monitoring, optimization, material modelling) can get you jobs in mechanical fields.

However, if you are planning long term research on some topic, then you can check research areas of professors at technical institutes.

Some will ring a bell and you will associate yourself with them, check how many research papers are being published in that area by google scholar search.

If it is a hot topic, it will have some value and scope for future work.

Some Major Topics For Structural Projects

• Theoretical study on High-frequency fatigue behaviour of concrete
• Shape optimisation of Reinforced underground tunnels
• Pushover analysis – cyclic loading, deterioration effect in RC Moment Frames in pushover analysis
• Prefabricated multistory structure, exposure to engineering seismicity
• Properties of Fiber Cement Boards for building partitions
• Seismic analysis of interlocking blocks in walls
• Rehabilitation – Evaluation of drift distribution
• A comparative study on durability of concrete tunnels undertaken in AP irrigation projects
• Analysis of large dynamic structure in the environment industry
• Estimation of marine salts behaviour around the bridge structures

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Steel and Composite Structures

Thesis & project topics.

Currently available topics for Master Theses, Master Projects and Bachelor Theses at the Chair of Steel and Composite Structures can be accessed by opening the tabs below.

Descriptions of the different topics, the tasks and the objectives as well as the respective supervisors can be found by clicking on the links.

Autumn Semester 2024

In case you are interested in one of the topics, please contact the responsible supervisor.

Spring Semester 2024

Topics will be announced before mid of May 2024.  

Topics will be announced before mid of November 2023.

The assignment of the different topics is done via our Chair! If interested in one of the topics please contact the respective supervisor.

Topics will be announced before mid of November 2023. For content-related questions on these topics, please contact the respective supervisor.

The registration for the different topics as well as the assignment of the topics is done via the Study Administrative Office!

Structural design projects and further topics with practical focus can be discussed and agreed on with the supervisors at the Chair of Steel and Composite Structures.

The completed master theses at the Chair of Steel and Composite Structures can be found under the following link:

Completed Master Theses

Home > Engineering > Civil and Construction Engineering > Master's Theses

Civil and Construction Engineering Master's Theses

All master’s theses completed through the Graduate College of Western Michigan University since 2012 have been entered into ScholarWorks. Some may be embargoed or restricted by the authors and may be only available from on-campus computers. Print copies from earlier years are available through interlibrary loan. We have a few digital copies of earlier years. If you have any questions, please contact [email protected].

Theses/Dissertations from 2023 2023

Investigating Disparities and Safety Equity in Pedestrian Nighttime Crashes in Michigan , Sia Isaria Mwende

Theses/Dissertations from 2020 2020

Evaluating the Impacts of Building Information Modeling on Construction Change Orders in Iraq , Nehad Alshebbany

Numerical Performance Evaluation of the Wooden Frame Structures with Adhesive Applied Connection under Wind and Seismic Loading , Sharthak Bhandary

Theses/Dissertations from 2018 2018

Establishing Delay-Based Criteria for Installing Traffic Signals at Two-Lane Roundabouts , Oluwaseun Ayomide Adegbaju

From Architectural Design to Structural Analysis: A Data-Driven Approach to Study Building Information Modeling (BIM) Interoperability , Mohammed Aldegeily

Evaluation of Bike Boxes and Protected Intersections with Bicycle Signal Treatments for Improving Safety and Multimodal Mobility at Urban Signalized Intersections , Odai Al Houz

Enabling Robust Distributed Real-Time Hybrid Simulation Method and Expanding Its Applications in Floating Wind Turbine Systems , Mehmet Cinar

Maintaining Deck Profile in Steel I-Girder Bridges During Deck Placement , Ali Naif Inceefe

Theses/Dissertations from 2017 2017

Enhancing Intersection Safety for the Blind and Visually Impaired (BVI) Pedestrian Using Device-to-Infrastructure Communication , Mohammad Sayyah Al-Akash

Visualizing the Constructability of a Steel Structure Using Building Information Modeling and Game Simulation , Mohammed Al Dafaay

Evaluation of Swarm Nodes for Proximity Sensing on Construction Sites , Mohamed Ahmed Madi Binalhaj

Implementing Online Updating to Complex Hysteresis Models in Real- Time Hybrid Simulation Using Constrained Unscented Kalman Filter , Bilal Ahmed Mohammed

Economic Impact Analysis of Bridge Construction , Funda Yavuz

Theses/Dissertations from 2016 2016

Analysis of Pedestrian and Bicycle Crashes in Michigan , Ahmed Abbas Ghubin Al-zubaidi

Comparison of Safety and Operational Performances for Three Engineering Countermeasures , Ali Hamzah Hussein Alzuhairi

Comprehensive Evaluation of the Effectiveness of Pedestrian Countdown Signals on Road Users in Michigan , Richard Atta Boateng

Safety Benefit Analysis of Alternative Delineation Practices in Michigan , Brenda C. Burdick

Verifying Automated Prestressed Concrete Design Software for MDOT Bridge Design Standards , Hussein Kadhim Abood Khalaf

Improved Methodology for Developing Non-Motorized Safety Perfomance Functions , Keneth Morgan Kwayu

Application of Wavelet Transform in Structural Health Monitoring , Yashodhya Swarna Sri Dhanapala Liyana Kankanamge

Analysis of Transit Accessibility for People with Disabilities , Rostam Khalid Mohammed Ameen Qatra

Developing Standard Procedures for Structural Aspects of Slide-in Bridges in Accelerated Bridge Construction (ABC) , Ozan Utku Ridvanoglu

An Equivalent Plate Model with Orthotropic Material Properties for Adjacent Box-Beam Bridge Superstructure , Timothy Alexander Schnell

Transportation System and Its Association with Human Health – A Review and Modeling Approach , Fnu Zahed

Theses/Dissertations from 2015 2015

Evaluation of the Safety Effectiveness of Clearview Font and Fluorescent Yellow Sheeting on Michigan Freeways and Non-Freeways , Lusanni Mercedes Acosta Rodrieuez

Analysis of Mobility Impact for Implementing Complete Streets , Marino Esteban Calderón Díaz

A Microscopic Simulation Approach to Performance Evaluation of Intelligent Transportation System Corridors: A Case in Michigan , Matthew Levi Clark

Fragility Assessment of High-Rise Reinforced Concrete Buildings , Hezha Sadraddin

Theses/Dissertations from 2014 2014

An Integral Framework for Sustainable Building Design , Bushra Asfari

Economic Analysis of Michigan Commercial Vehicle Enforcement Strategies , Randy José Jorge Díaz

Development of Safety Performance Functions for Non-Motorized Traffic Safety , Hamidreza Ahady Dolatsara

Real-Time Hybrid Simulation with Online Model Updating , Adam Mueller

Overtime Traffic Enforcement Evaluation: A Methodology for Selecting Agencies and Enforcement Periods , Dario Enrique Romero Santana

Virtual Analysis and Evaluation of Roundabout Safety and Operational Features , Elisha Jackson Wankogere

Theses/Dissertations from 2013 2013

Spatial Factors Impacting Non-Motorized Exposures and Crash Risks , Farhad Abasahl

Standardized Longitudinal Connection Detail for Decked Precast Prestressed Concrete Girders , Ramzi Muftah Ali Abduallah

Investigating Crash Frequency and Injury Severity at Freeway Fixed Weigh Stations in Michigan , Fathi Salam Mo. Alkhatni

Safety Benefits of Adaptive Traffic Control Systems: A Case Study of Oakland County, MI , Joshua Adam Fink

Evaluation of Point Cloud Data Dispersion with Relation to Point Cloud Density under Field Conditions , Ling Kit Kong

An Automated Approach to Dynamic Site Layout Planning , Duy Huu Nguyen

Cyber-Adaptive Physical Systems for Automated Construction Progress Monitoring and Asset Tracking , Syed Hammad Rasheed

Theses/Dissertations from 2012 2012

The Implementation of a Versatile Pseudodynamic Hybrid Simulation for Seismic Evaluation of Structural Systems , Chelsea Griffith

Regression-Based Prioritization and Data Modeling for Customized Civil Engineering Data Collection , Omar Kanaan

Statistical and Numerical Integrated Approach for Detecting Onset of Prefabricated Bridge Component Connection Deterioration , Cem Mansiz

Structural Health Monitoring of a Bridge Structure Using Wireless Sensor Network , CheeKian Teng

Theses/Dissertations from 2011 2011

Sensor Modeling and Cost Benefit of Using Laser Scanning Technology in AEC , Fahd Saleh Alaswad

Statistical and Visualization Approach for Ranking Factors Affecting NBI Bridge Rating , Saad Aoun Alqahtani

Solar Modeling and Cost-Benefit Analysis of Energy Efficiency Window Arrangements , Wael Muqhim Alruqi

A Comparative Analysis of the Sense of Construction Delays of Experienced and Inexperienced Engineers , Salahedeen A. El Kadeki

Development of a Versatile Hybrid Testing System for Seismic Evaluation of Structural Systems , Griffin Enyart

Selecting an Optimal Construction Alternative through Informed Decision-Making Highway Bridges , Abdul Wahed Mohammed

Theses/Dissertations from 2010 2010

A Computer Model for Sustainable for Life-Cycle Cost Analysis , Sami Ghurmullah Al Ghamdi

Sustainable Universal Design and Zero Energy for Buildings , Ahmad Mohammad Alotaibi

Integration of Sustainability Measure into Highways , Krishna Prasad Dhakal

Investigation of Damage Detection Methods with a Wireless Sensor Network , Mark Joseph Humiecki

Application of Building Information Modeling (BIM) toward Zero Energy High Rise Office Buildings , Moutaz Mohammed Msawealfi

Design Recommendations for High Skew Link Slabs , Michael A. Romkema

Theses/Dissertations from 2009 2009

Optimization Computer Model for Heavy Equipment Selection , Naif Albelwi

Optimal Placement of Traffic Sensors for Traffic Operation and Management , Nahedh M. Alhubail

An Integrated Database Management System and Building Information Modeling for Sustainable Design , Sultan Althobaiti

The Design and Implementation of a Sensor Network System for Concrete Bridge Health Monitoring , Joseph John Barbera

Barrier-Based Evacuation Plan for University Campuses , Asadur Rahman

Highway Construction Staging and Intelligent Traffic Routing: A Cost Optimization Strategy , Richard C. Rhodes

Theses/Dissertations from 2008 2008

Incorporation of Space Syntax Theory in Determining Safe and Efficient Construction Site Layout , Minsuck Cho

Cathodic Protection of Reinforced Concrete Bridge Decks , Joshua Thomas Host

Theses/Dissertations from 2007 2007

Data Fusion Technique for Measuring Intersection Delay Using GPS-Enabled Probe Vehicles , Byung-Hee Han

Development of Knowledge Base of Concrete Bridge Maintenance System , Bahre Karam

Health Monitoring of Concrete Bridges Utilizing Sensor Technology , Ammar Zalt

Theses/Dissertations from 2006 2006

Repair, Inspection and Maintenance Methods of Steel Bridges , Deepak Koirala

Computer Model to Select Leed Certification for Building Projects , Ruba Mirghani Mohammed

Simulation Based Evaluation of Parking Facilities , Niru Tiwari

Theses/Dissertations from 2005 2005

Alkali Silica Reaction in Virgin and Recycles Aggregates: State of the Art and Experimental Investigation using ASTM C 1260 and the Staining Method , Shadi Sami Bajjali

Evaluation of Mechanical Properties of Self-Consolidating Concrete , Bhusan Basnet

Decision Support System for Bridge Maintenance , Imran Fazal

Evaluation of Mechanical Properties of Recycled Aggregate Concrete , Sajjad Ali Khan

The Detection of Common Concrete Bridge Deck Defects Using the Thermography, Impact Echo, and Ground Penetrating Radar , Saleh Z. Nabulsi

Theses/Dissertations from 2004 2004

Oxidation of Titanium in Alpha-Calf Serum Solution , Ali Stait Ismailoglu

Theses/Dissertations from 2003 2003

Mechanical Properties and Corrosion Resistance of NI-SIC NANO Composite Coatings on 2024-T3 Aluminum , Amit Jain

Development of a Redesign Plan for Moore Hall using Architectural Principles of Green Building and Sustainable Design , Alkhaziam Saad

Future Housing in the United States: Senior’s Housing Demand , Sandeep Singh

Innovative Contracting Prequalification/Selecion Model using Analytical Hierarchy Process (AHP) , Saad J. Zidan

Theses/Dissertations from 2002 2002

An Imaging System for Concrete Bridge Inspection , Mohammed Talal Al-Bataineh

A Model for Optimizing the Selection of Project Delivery Systems Using Analytic Hierarchy Process (AHP) , Arosha De Silva

Metastable Phases of Mgo-TiO 2 Solid Solutions , Liang-Chieh Ma

Building Deconstruction Guidelines: Tools for Recovering Building Materials , Ali Ayedh Merzen

Management Commitment to Construction Safety , Areen M. Shaar

Adaptation of Project Finance to Small Contractor Financing , Ragunathan Venkateswaran

Theses/Dissertations from 2001 2001

Structural Studies of Metastable Nanocrystalline Magnesium Titanate Ceramics , Renmei Xu

Theses/Dissertations from 2000 2000

Texture and Young’s Modulus of Nickel/Gamma-Alumina Composites , Abdulaziz Alamr

CFMMS – Computerized Facilities Maintenance Management System , Prawit Rotsawatsuk

Learning Reinforced Concreyte Design Principles Using a Java-VRML based Design Studio , Amarneethi Vamadevan

Theses/Dissertations from 1999 1999

Quantitative, Non-Destructive Calibration of Scanned Probe Microscope Cantilevers , John Hazel

Development of Mechanical Properties Micromapping for Composite Polymer Systems , Zheng Huang

Intellicrances – A Neural Network-Based Crane Selection System , André T. Mund

Conform- A Computerized Job-Built Concrete Construction Formwork Design , Kajpong Pongponrat

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Top 10 Structural Engineering Dissertation Topics

Introduction.

Nowadays, the world has reached the peak of modernization. How was that achieved? Through civil engineering. From simple road structures to skyscrapers, the human brain has made everything possible. But what makes them reliable? Or any structure reliable? A good strong skeleton! And how are they constructed? Every concrete bone and muscle is put together with precision by structural engineers.

Are you enrolled in a structural engineering program?  Are you striving to become one of the masterminds behind famously known buildings such as Burj Khalifa?

Then you are exactly on the right path. This program will build you a good foundation for transforming into an exceptional future structural engineer.

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What Duties Structural Engineers Perform??

Before you let a structural engineering dissertation dim your spark. Put a stop on it by reminding yourself of the ultimate goal.

The goal is to remember how you’ll be getting your hands dirty in the field of structural engineering. Don’t worry you won’t be actually dirtying your hands. As a structural engineer, you will be responsible for designing and analyzing various structures.

Now imagine how much fun it would be to witness your imagination coming alive! But the job of a structural engineer is more than that. The safety and strength of a structure also fall under the job responsibility of a structural engineer. By calculating the effect of wind, snow, rain, and other environmental factors, they make sure that the structure can withstand every hurdle nature throws at it.

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What Are Some Good Structural Engineering Dissertation Topics?

Structural engineering is recognised as the backbone and heart of all structures either small or large structure. In all these stages related to the design, construction and implementation there is a great role of structural engineers where they support to guarantee that the structure can be erected with stability and durability. Thus, the design involves creative endeavours along with critical evaluation.

Within the context and brief of the built environment, the structure denotes anything that is built, designed or constructed from the various interlinked parts with the appropriate location on the ground. Structural engineering is a speciality within the area of civil engineering having an emphasis on the framework of the structures and on manipulating those designed and structures to withstand the pressures and stresses of their environment that remain stable, secure and safe throughout their use.

Topics 1: Role of Structural Engineering in Design Construction Integration: A case of Construction Projects of UK

Aims and Objectives

The aim of this research is to provide the role of structural engineering in the design of construction engineering projects that are processed in consideration to the construction projects of the UK. To accomplish this aim the objectives are given as under:

• To provide the concept of structural engineering in relation to the construction projects.
• To evaluate the significance of structural engineering in designing construction projects.
• To assess the role of structural engineering in the design construction engineering projects of the UK.
• To provide the recommendations that support dealing with the issues related to structural engineering and improve the design of construction projects.

Topic 2: Effect of Structural Engineering on the Performance Based Engineering used in the Civil Engineering Projects

This study aimed to examine the effect of structural engineering on the performance-based engineering used in civil engineering projects. Here, the major focus is on the implementation of performance based engineering used in the construction projects following the effect of structural engineering. The related objectives are given as under:

• To conceptualise the role of structural engineering in relation to performance based engineering.
• To provide the importance of structural engineering concerning performance based engineering used on the engineering projects.
• To identify the effect of structural engineering on the performance based engineering used in civil engineering projects.
• To suggest the better applications and integrations of structural engineering in consideration to the progress of performance based engineering.

Topic 3: Critical Examination of Challenges and Opportunities for structural engineering in the design of construction projects

This study aimed to critically examine the challenges and opportunities for structural engineering in the design of construction projects. Construction engineering entails a huge investment therefore the initial steps like the structure and designing is most important therefore the identification of challenges and opportunities are most important before the final integration. To accomplish the aim the objectives are proposed as under:

• To address the importance of structural engineering in the design of construction projects.
• To highlight the applications of structural engineering in the design of construction projects following the customisation and specification of different projects.
• To provide the critical assessment of challenges and opportunists for structural engineering in the design of construction projects.
• To give recommendations about the attainment of opportunities and provide the strategies to deal with the challenges related to structural engineering.

Topic 4: Critical Assessment about the Background Information and Applications of Deep Learning Related to the Structural Engineering

The aim of this research is to provide a critical assessment of the background information and applications of deep learning concerning structural engineering. In relation to the process of this aim the objectives are given as under:

• To study the background information and applications of deep learning used in structural engineering.
• To provide the significance of applications of deep learning in relation to structural engineering.
• To give a critical assessment of the background information and applications of deep learning concerning structural engineering.
• To provide recommendations about better usage of deep learning that support improving the integration of deep learning in structural engineering.

Topic 5: Effect of Similitude Technique for the Structural Engineering: A case of Construction Industry

Aims and Objectives of the study

This research aimed to recognise the effect of similitude technique for the structural engineering that is undertaken in consideration to the case of the construction industry. This technique supports to offer the situations to design the scaled model used in the construction projects followed by the usage of structural engineering.

The objectives related to this study are given as under:

• To conceptualise the similitude technique in relation to the structural engineering used in the construction industry.
• To provide the importance of similitude technique employed for structural engineering and construction projects.
• To evaluate the effect of similitude technique for the structural engineering that is undertaken in consideration to the case of the construction industry.
• To suggest the better implications and improved strategies used to address the issues of similitude technique related to structural engineering.

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Topic 6: The Role of Technological Development on the Applications of Structural Engineering

This research aimed to identify the role of technological development on the applications of structural engineering where the technological aspects are recognised that have an impact on structural engineering. The objectives to fulfil this aim are designed which are given as under:

• To conceptualise the applications of structural engineering and technological development.
• To provide the importance of technological development concerning the applications of structural engineering.
• To critically evaluate the role of technological development on the applications of structural engineering.
• To give recommendations about the better technological approaches and related advances to integrate the effective applications of the structural engineering.

Topic 7: A critical examination of substituting the river sand by left-over foundry sand in paver blocks as a useful technique for reduction of soil erosion.

The study aims to conduct an in-depth analysis on the substitution of river sand by the foundry sand waste in the paver block and aims to prove it as a resourceful method for reduction of soil erosion. The following are the objective of the study.

• To study and explore how the substitution of river sand can be an efficient way for the reduction of soil erosion.
• To assess the significance of substitution of river sand by left over foundry sand in paver blocks.
• To study the factors that result in the barriers and challenges of substitution of river sand by left over foundry sand in paver blocks.
• To provide recommendations on how to resolve the challenges and barriers occurring in the procedure of soil reduction technique.

Topic 8: A systematic analysis of the role that structural engineers play in furthering medical technologies and procedures.

The researched aim of the study is to conduct a systematic analysis about the role executed by a structural engineer in progressing the medical procedures and technologies. The following objectives are created to achieve this aim:

• To examine the role of structural engineer in the domain of medical field.
• To assess the role of structural engineer in medical procedure and technologies.
• To evaluate regarding the emerging significance of structural engineer in this field.
• To evaluate the increasing need of specializing in structural engineers’ field.
• To provide recommendations and solutions for the growth of structural engineers in relation with new medical techniques.

Topic 9: An innovative investigation on how the structural engineering discipline has transformed in the recent computer era. Can precise solutions be provided by recent software and hardware?

The aim of the study is to conduct an innovative research regarding the variations that have taken place in structural engineering over time and in what way recent hardware and software will be able to provide accurate solutions. Moreover, the research aims to discuss the modifications that have taken place in the domain of structural engineering processes due to computer.

The primary objectives of the study are to achieve the aim of the study which is as follows:

• To provide more knowledge regarding the concept of structural engineering in relation with computer era.
• To measure the modifications that have occurred overtime in structural engineering due to technology.
• To assess the significance of development in the domain of structural engineering due to recent era of computer hardware and software.
• To provide recommendations and solutions for effective structural engineering developments by making use of technology in the future.

Topic 10: An insight investigation in order to improve the structural efficiency of steel trusses for constructing stronger skyscrapers. A case study of buildings in Dubai.

The aim of the study is to analyse factors for enhancing the steel trusses structural efficacy inorder to make durable and long-lasting skyscrapers.The study aims to conduct a case concerning the skyscrapers of Dubai. To achieve the aim of the study, following are the objectives:

• To study and observe the aspects used in order to enhance the structural efficacy in the domain of steel trusses.
• To evaluate the significance of steel trusses in relation with structural engineering.
• To assess the role of steel efficacy in the case of Dubai.
• To have insight knowledge regarding the strong building structures of Dubai.
• To provide recommendations regarding enhancement of steel trusses and resolve barriers for future development of skyscrapers.

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The dissertation help is known as the ultimate best friend for many students. We promise to deliver quality with the help of expert writers. One of our structural engineering dissertation topic is George Waltham . She is a retired structural engineer, worked in this field for 35+ years. He has constructed many remarkable buildings and monumental structures. His work experience has enabled him to deeply understand the subject and its branches. This rewarding profession allows him to dig deep into different research areas and help civil engineering students with their dissertations. Some of his  recommended Structural Engineering Dissertation Topics are as follows.

Latest 2021 & 2022 Structural Engineering Dissertation Topics

• Assessing cost and construction of Multi-story timber building.
• Development of numerical model to study the movement of rotor of wave energy convertor.
• Opportunities and challenges of structural identification.
• Structural Engineering for Multi-disciplinary freshman projects
• Risk assessment frameworks in structural engineering projects.

Structural Engineering and Mechanics

UW CEE structural engineers perform innovative research across a wide range of topics using experimental, numerical and analytical techniques. The diverse expertise of the structural engineering research group provides unique opportunities for research. Current research projects are aimed at improving the resiliency of structures against earthquake, tsunami and wind hazards; creating more durable materials; modeling, evaluation and design of reinforced concrete, prestressed concrete, steel, timber and composite structures; improving the sustainability of structures and designs for rapidly constructed structures; enhanced structural systems for marine and aerospace environments; and developing computational mechanics tools for numerical modeling of complex physical phenomena, including the structural behavior of turbine blades as they interact with the surrounding fluid media. Faculty are closely engaged with the professional engineering community and their research is consequently implemented in practice.

The structural research laboratories   provide capabilities for multi-scale experimental studies of component or system response to complex loading scenarios. Advanced computing capabilities enable the development of state-of-the-art models of seismic structural response, large-scale fluid-structure and soil-structure interactions, and complex computational mechanics, among other topics.

Research topics

• Reinforced and prestressed concrete structures Faculty involved: Paolo Calvi , Marc Eberhard , Dawn Lehman , Laura Lowes , Travis Thonstad
• Concrete engineering using advanced or recycled materials including use of 3D printing Faculty involved: Paolo Calvi , Dawn Lehman , John Stanton , Travis Thornstad
• Steel and composite structures Faculty involved: Jeff Berman , Dawn Lehman , Charles Roeder
• Earthquake engineering Faculty involved: Jeff Berman , Paolo Calvi , Marc Eberhard , Dawn Lehman , Laura Lowes , Charles Roeder , John Stanton , Travis Thonstad
• Tsunami engineering Faculty involved: Marc Eberhard , Dawn Lehman ,  Michael Motley
• Accelerated bridge construction Faculty involved: Paolo Calvi , Marc Eberhard , Dawn Lehman , Charles Roeder , John Stanton , Travis Thonstad
• Advanced numerical simulation and computational mechanics Faculty involved: Laura Lowes , Peter Mackenzie-Helnwein , Gregory Miller , Michael Motley , Richard Wiebe
• Aerospace structures Faculty involved: Richard Wiebe

Student research

Attaching light rail to a floating bridge.

Light rail will cross a floating bridge for the first time in the world when construction is completed on Sound Transit’s East Link Extension Project in 2023. The engineering feat is possible thanks to a team of researchers, including master’s student Kristina Tsvetanova (shown here), and former students Travis Thonstad and Matthew Sisley, who are collaborating with consultants to test various features of the system, which has never before been implemented. Since not a single hole is allowed on the bridge deck, engineers developed a solution to connect light rail tracks to the bridge without the use of traditional methods such as bolts. Tsvetanova is leading the team conducting tests on the final prototype, which consists of a complex “sandwich” of different materials to connect the rails to the bridge deck.

Sustainable Earthquake Resilient Buildings

Building high-rises that are both earthquake resilient and sustainable is the goal of a team of researchers from across the country, including master’s student Sarah Wichman. The researchers paired a new type of sustainable building material with a rocking wall system, which allows walls to rock back and forth during an earthquake. The rocking wall concept, now quite widely copied throughout the industry, was originally developed at the UW in the 1990s. During a large-scale test of the system, Wichman oversaw the installation and testing of the rocking walls. The researchers found no significant damage to a two-story prototype after 14 earthquake simulations. The research may one day inform the next generation of buildings constructed in earthquake zones.

Excellence in teaching

The Structural Engineering faculty members hold teaching to be an important part of their work, and have a long record of excellence in teaching. Two faculty hold University Distinguished Teaching Awards, another has won the Departmental Teaching Award more frequently than anyone else, and two more have recently achieved “perfect” teaching ratings from their classes.

Laboratories

The following laboratories feature equipment that structural engineers utilize to conduct research:

• Large-scale Structural Research Laboratory
• Structural Creep Laboratory
• Structural Vibrations Laboratory
• X-ray Computed Tomography Laboratory
• Construction Materials Laboratory

Centers headquarter research on specific themes and act as hubs connecting faculty and students with resources to support research, education and outreach activities. Researchers are affiliated with the following centers:

• NHERI RAPID Post-Disaster Rapid Response Research Facility  (led by UW CEE)
• Pacific Northwest Transportation Consortium (led by UW CEE)
• FHWA Accelerated Bridge Construction Center (led by Florida International University)

Degree programs

• Structural Engineering & Mechanics Master’s Program
• Structural Engineering & Mechanics Ph.D. Program 

Latest news

A timber triumph: seismically resilient and sustainable.

CEE researchers including Professor Jeffrey Berman and Ph.D. student Sarah Wichman test a sustainable and seismically resilient 10-story mass timber building designed to withstand Seattle earthquakes.

Capstone collaborations

Learn about a capstone project undertaken by CEE students to design an evacuation structure for lahar and tsunami events in the City of Fife.

Op-ed: Prepare wisely for earthquakes

Co-authors and professors Jeffrey Berman and Marc Eberhard point out that Seattle area faults are not unlike those in Turkey — and thousands of older buildings are still vulnerable. 

Experts discuss earthquake in Turkey and Syria

Three UW experts, including CEE Professor Dawn Lehman, have provided quotes in response to the magnitude 7.8 earthquake that struck Turkey and Syria on February 6.

Structural Engineering

Aerospace ∙ Biological ∙ Civil ∙ Geotechnical ∙ Mechanical

M.S. in Structural Engineering SE75

Master students must complete forty-eight units of courses for graduation. For the M.S. Comprehensive Examination Plan all forty-eight units of credit must consist of regular courses (twelve courses). For the M.S. Thesis Plan, thirty-six units (nine courses) from regular courses are required, in addition to twelve units of graduate research for the master's thesis. For both M.S. plans, students are required to complete a minimum of two sequences from the focus areas .

A focus sequence is composed of three regular courses from the same focus area. The courses comprising the focus sequences are listed in the table in this section. To allow for greater flexibility in the program, the remaining credits required from courses may be earned by completing additional focus sequences, parts of focus sequences, or other appropriate courses. Students may elect to take other appropriate technical electives (with the approval of their advisor and the SE Graduate Affairs Committee). 

In addition to the 48 units, students must complete three quarters of SE 290 to meet graduation requirements, but they do not have to be taken consecutively. Students are strongly recommended to take SE 290 every quarter. Units obtained in SE 290 and SE 298 may not be applied towards course work requirements. No more than four units of SE 296 may be applied toward course work requirements and only with prior approval of the SE Graduate Affairs Committee.

For both M.S. plans, students are required to complete a minimum of two sequences from the following focus areas .

All students are assigned an academic advisor to help with formulating a course/academic plan. It's highly recommended that students interested in the thesis option to take a course by the faculty they want to work with before they ask to work on research.

The M.S. Comprehensive Plan:  The amount of courses for the M.S. Comprehensive Plan is 12: 3 in 1 focus area, 3 in 2nd focus area, 4 Technical Electives, and 2 Core Courses.  Download the M.S. SE COMP Plan Fillable Form

Core Courses: MS students will be required to complete two out of seven core course electives. The courses are SE 201A, SE 202, SE 203A, SE 241, SE 271, and SE 233 (or SE 276A)*. A core course can be counted towards a Focus Sequence or a Technical Elective. 

*Can only count either SE233 or SE276A as a core course, but not both. 

In the core courses instructor selects one problem on the midterm or final exam (could be project/long HW) to be the “comprehensive exam” problem.  A separate Pass/Fail score is assigned to this problem. (Problem may still count toward the total exam score.) Minimum passing score is 60/100.  Any two courses from “Core Electives” may be selected for the MS Comprehensive Plan. A passing score must be obtained in both courses. 

If you are using a core course for a focus area too then you need to list a 5th Technical Elective. It needs to be 12 courses total. If you use both core courses for two focus areas then 6 Technical Electives are needed. 

Technical Electives: Technical Electives can be any Science, Mathematics, or Engineering graduate course or approved SE undergraduate courses. 

The M.S. Thesis Plan is designed for those students with an interest in research prior to entering the structural engineering profession or prior to entering a doctoral degree program. The M.S. Thesis Plan involves course work leading to the completion and defense of a master's thesis.

This program requires the student to be accepted by a SE Faculty Member  (Research Advisor).  Please contact the Graduate Academic Advisor once you have written approval from a SE Faculty member stating they will be your research advisor.

The thesis defense is the final examination for students enrolled in the M.S. Thesis Plan and must be conducted after completion of all course work. Upon completion of the research project, the student writes a thesis that must be successfully defended in an oral examination and public presentation conducted by a committee composed of three faculty members. A complete copy of the student's thesis must be submitted to each committee member two weeks before the defense. The committee consists of three faculty committee members.

Download the M.S. SE Thesis Plan Fillable Form

Download the M.S. SE Thesis Exam Guide

• Khaje Nasir Toosi University of Technology

What are the most in-demand topics in the Structural Engineering research?

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• . Vitaly S. Borovik, Vitaly V. Borovik. Visualization of strategy of production management on the basis of digital model. International Scientific Conference "Far East Con" (ISCFEC 2019). Far Eastern Federal University, Vladivostok. Jan 2020. WoS. DOI: 10.1007/978-981-15-2244-4_3

• Performance of concrete buildings against fire
• Improvement and retrofitting of existing buildings
• Mesoscopic analysis of concrete

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Digital Commons @ USF > College of Engineering > Civil and Environmental Engineering > Theses and Dissertations

Civil and Environmental Engineering Theses and Dissertations

Theses/dissertations from 2024 2024.

Advancing Depth-Storage-Discharge Modeling in Regional Hydrology , Fahad Alshehri

An Analysis of Driven Pile Relaxation in Florida Soils , Dalton E. Knowles

Nutrient Removal of Biochar Amended Modified Bioretention Systems Treating Nursery Runoff , Nicholas Richardson

Dissolved Nitrogen Removal in Biochar Amended, High Permeability Media for Urban Stormwater Treatment , Mark Vicciardo

Theses/Dissertations from 2023 2023

The Influence of Corrosion Mitigating Fluids on Post Tensioned Tendon Grout Properties and Steel to Grout Bond Strength , Sarita Ale Magar

Exploring Alternative Electron Donors for Heterotrophic Denitrification at a Water Reclamation Facility in Tampa Bay , Tejas Athavale

Mechanisms Contributing to Hydrogen-Influenced Early Failure of Bridge Tendons , David Dukeman

The Influence of Bipolar Electrochemical Cell Geometry on the Studies of Pitting Corrosion , Amin Kazem Ghamsari

Peak and Differential Temperature Determination of Drilled Shafts , Amanda A. Lewis

Field-Base Exploratory Study of Microbial Activity in Eight Potable Water Storage Tanks in Barbados , Katelyn M. Long

Land Use/Land Cover Uncertainty Analysis Using Hydrological Modeling in the Northern Watershed of Lake Okeechobee , Andres Lora Santos

Modeling Leachate Treatment Processes in Adsorbent-amended Hybrid Constructed Wetland , Ishfaqun Nisa

Effects of Downdrag on Pile Performance , Ruthvik Pendyala

Anaerobic Digestion of Brewery Waste Including Spent Yeast and Hops , Dhanashree Rawalgaonkar

Characteristics and Hydraulic Behavior of Adsorptive Media for Use in Permeable Reactive Barriers , Shelby Rocha

Exploratory Data-Driven Models for Water Quality: A Case Study for Tampa Bay Water , Sandra Sekyere

Interdependency between Water and Road Infrastructures: Cases and Impacts , Shihab Uddin

Hurricanes and Tropical Storms’ Impact on Water Quality in Lake Okeechobee, Florida , Daniela Vasquez Diaz

Exploration of Shared Passenger Urban Air Mobility – Integrated Network Design, Operation Scheduling and System Configuration , Zhiqiang Wu

Rehabilitation Technologies to Abate Infiltration in Sanitary Sewers , Steve Youssef

Adsorption of Long and Short Per- and Polyfluoroalkyl Substances (PFAS) onto Granular Activated Carbon and Porous Organic Polymers , Yan Zhang

Adiabatic Temperature Rise and Durability Performance of Slag Blended Concrete , Hai Zhu

Theses/Dissertations from 2022 2022

Statistical Models of Traffic Injury Severities: The Effects of Driver Nationality and the Time-of-Day on Pedestrian Injuries , Asim Alogaili

Effects of Downdrag on Pile Performance , Malaak Omelia Araujo

Quantifying a 21-year Surface Water and Groundwater Interaction in a Ridge and Valley Lake Environment Using a Highly Constrained Modeling Approach , Richard T. Bowers Jr.

A Convergent Approach to Aqueous Lead (Pb) Mitigation of a Supplemental Self-Supply Shallow Groundwater Source Accessed by Handpumps in Madagascar , Adaline Marie Buerck

Identifying Significant Factors Affecting the Likelihood and Severity Level of Shared E-scooter Crashes , Recep Can Cakici

Evaluation of Aluminum Dissolution, Current Density, and Pitting Patterns During Electrocoagulation , Monica Castro Carias

Carbon Diversion, Partial Nitritation/Anammox Enrichment, and Ammonium Capture as Initial Stages for Mainstream Ion Exchange-Deammonification Process , Sheyla Chero-Osorio

Elemental Sulfur and Metal Sulfide Minerals for Autotrophic Denitrification: Applications to Aquaculture, Groundwater Treatment, and Domestic Wastewater Treatment , Erica Amah Dasi

A Physically Constrained Wavelet-Aided Statistical Model (PCWASM) for Multidecadal Groundwater Dynamics Predictions and Climate Change Evaluation , Fatih Gordu

Data Driven Approaches for Understanding and Improving Urban Mobility , Yujie Guo

Onsite Water Reuse: Fate of Indicator Bacteria, Antibiotic Resistant Genes, Environmental Impacts, and User Perceptions , Michelle B. Henderson

Assessment of Scoured Bridges Subjected to Vessel Impact Using Nonlinear Dynamic Analysis , Amir S. Irhayyim

Assessment and Prevention of Bacterial Regrowth in Stored Household Water in Eastern Coastal Madagascar , Lauren Judah

Development of Membrane Assisted Recovery of Solids (MARS) Technology for Nutrient Management in Decentralized Wastewater Treatment Systems , Itzé Alejandra Kenney

Evaluation of Hydrodynamic Effects of Waterway Restoration on an Estuarine Ecosystem , Megan Kramer

The Impact of Land Use Change on Hydrology Using Hydrologic Modelling and Geographical Information System (GIS) , Nattachan Luesaksiriwattana

Simulating Flood Control in Progress Village, Florida Using Storm Water Management Model (SWMM) , Azize Minaz

Chlorine Taste Threshold and Acceptability as a Water Disinfectant Among Indigenous Ngäbe and Non-Indigenous in Rural Panama , Ashley Osler

Coral Reef Restoration Monitoring Through an Environmental Engineering and Social-Ecological Lens , Michelle C. Platz

Effects of Slurry Type on Drilled Shaft Strength , Cesar Quesada Garcia

Designing Control Strategies for Connected and Automated Vehicles (CAVs) at Transportation Conflict Areas , Saeid Soleimaniamiri

Comparison Study of Consumer’s Perception toward Urban Air Mobility in the United States and Rest of the World Using Social Media Information , S M Toki Tahmid

Airspace Design and Strategic Deconfliction for Urban Air Mobility , Hualong Tang

Optimizing Lake Okeechobee Watershed Management and Reservoir Operations for Water Quality Improvement , Osama Mahrous Mossad Tarabih

Advanced Methods for Railroad Station Operation Decisions: Data Analytics, Optimization, Automation , Yuan Wang

High-Risk Traffic Crash Pattern Recognition and Identification Using Econometric Models and Machine Learning Models , Runan Yang

Biochar Amended Biological Systems for Enhanced Landfill Leachate and Lignocellulosic Banana Waste Treatment , Xia Yang

Passive Radiative Cooling by Spectrally Selective Nanoparticles in Thick Film Nanocomposites , David Allen Young

Theses/Dissertations from 2021 2021

A System Architecture for Water Distribution Networks , Noha Abdel-Mottaleb

Sustainability Assessment of a Pressure Retarded Osmosis System , Samar Al Mashrafi

Health Risk Assessment of Local Populations Ingesting Water with Naturally Occurring Arsenic and Fecal Related Contaminants in Lake Atitlan, Guatemala , Marisol Alvarez

Influence of Coating Defects Within the Lock Seams on the Corrosion Performance of Aluminized Steel Drainage Pipes , Mohammed Al Yaarubi

Longitudinal Trajectory Tracking Analysis for Autonomous Electric Vehicles Based on PID Control , Hossein Amiri

An Assessment and Exploration of Recent Methodological Advances in Safety Data Analysis , Suryaprasanna Kumar Balusu

Pressure Retarded Osmosis: A Potential Technology for Seawater Desalination Energy Recovery and Concentrate Management , Joshua Benjamin

Assessing the Feasibility of Microbially Managed Biological Filtration in U.S. Drinking Water Systems for Removal of Contaminants of Emerging Concern , Andrew J. Black

The Effect of Cement and Blast Furnace Slag Characteristics on Expansion of Heat-Cured Mortar Specimens , Jair G. Burgos

A Systems Approach for Improving the Performance of Rural Community-Managed Water Systems Using SIASAR: Case Studies in Bolivia and Colombia , Rachel A. Cannon

Passive Nitrifying Biofilters for Onsite Treatment of Saline Domestic Wastewater , Daniel Arnulfo Delgado

Plastic Pollution in Urban Rivers: Spatial and Temporal Patterns of Plastic Release and Transport , Charlotte Juliane Haberstroh

Effects of Nitrate on Arsenic Mobilization during Aquifer Storage and Recovery , Hania Hawasli

Prediction of the Effects of Turbulence on Vehicle Hydroplaning using a Numerical Model , Thathsarani Dilini Herath Herath Mudiyanselage

Shortcut Nitrogen Removal in Photo-sequencing Batch Reactor, Experiments, Dynamic Model and Full-scale Design , Sahand Iman Shayan

Chorine Conversion: Biological and Water Quality Impact on Activated Carbon Block Point of Use Filters , Horace S. Jakpa

Efficient Management of Nitrogen and Phosphorus at Centralized Water Reclamation Facilities , Helene Kassouf

Building and Characterizing a Lab-Scaled Aquifer Storage and Recovery System , Murat Can Kayabas

Corrosion Rate Prediction in FRP-Concrete Repair , Mohammad A. Khawaja

Use of Biochar and Zeolite for Landfill Leachate Treatment: Experimental Studies and Reuse Potential Assessment , Thanh Thieu Lam

Feasibility of Epoxy Bond Enhancement on High-Strength Concrete , Amanda A. Lewis

Trajectory Optimization for Connected and Autonomous Vehicle Platooning and Split Operations: Modeling and Experiments , Qianwen Li

Leaf Cutter Ant Nest Soil Cement Stabilized Earthen Bricks: Materials and Methods for Engineering Field Applications , Faith Malay

Minimum Cut-Sets for the Identification of Critical Water Distribution Network Segments , Xiliang Mao

An Assessment of Nutrient Improvement in Surface Water Due to the Conversion of Onsite Sewage Treatment and Disposal Systems to Sewerage , Jenelle A. Mohammed

Development of a Numerical Process Model for Adsorbent-amended Constructed Wetlands , Lillian Mulligan

Corrosion Propagation of Stainless Steel Reinforced Concrete , Nelly Sofía Orozco Martínez

Corrosion Durability Service Life of Calcium Silicate-Based Reinforced Concrete , Carolina Páez Jiménez

Assessment of the Environmental Sustainability of a Small Water Production Facility in Madagascar , Jesal Patel

Computational Fluid Dynamics (CFD) Analysis of the Hydraulic Performance and Bio-kinetics in a Full-Scale Oxidation Ditch , Kiesha C. Pierre

Biochar Amended Bioretention Systems for Nutrient and Fecal Indicator Bacteria Removal from Urban and Agricultural Runoffs , Md Yeasir Arif Rahman

Understanding the Leaching Mechanism for Lead (Pb) Found in Components of Locally Manufactured Handpumps in Eastern Madagascar , Nidhi Shah

Impacts of Automated Vehicle Technologies on Future Traffic , Xiaowei Shi

Community Assessment of Water Perceptions and Household Point-of-Use Treatment Methods in Madagascar , Isabella Rose Silverman

Laboratory Examination of Lead Weights Harvested from Pitcher Pumps in Eastern Madagascar , Madelyn Wilson

Impact of grain morphology on the temporal evolution of interfacial area during multi-phase flow in porous media , Fizza Zahid

EAV Fleet Management in Transportation and Power Systems , Dongfang Zhao

Theses/Dissertations from 2020 2020

A Framework for Assessing the Reliability, Availability, Maintainability, and Safety (RAMS) of Decentralized Sanitation , Adefunké Adeosun

Development of an Organic Processor Assembly (OPA) for Sustainable Resource Recovery to Enable Long-Duration, Deep-Space Human Exploration (LoDDSHE) , Talon James Bullard

Black Lives Matter in Engineering, Too! An Environmental Justice Approach towards Equitable Decision-Making for Stormwater Management in African American Communities , Maya Elizabeth Carrasquillo

Coral Reef Restoration in the Tropical West Atlantic Amid the COVID-19 Pandemic , Linden Cheek

Designing Next-generation Transportation Systems with Emerging Vehicle Technologies , Zhiwei Chen

Strength Restoration of Corrosion Damaged Piles Repaired with Carbon Fiber Reinforced Polymer Systems , Jethro Clarke

Water Quality and Sustainability Assessment of Rural Water Systems in the Comarca Ngäbe-Buglé, Panama , Corbyn Cools

Rapid Cross-Section Imaging with Magnetic and Impedance Sensors for Grout Anomaly Detection in External Post-Tensioned Tendons , Hani Freij

Enhanced Nitrogen, Organic Matter and Color Removal from Landfill Leachate by Biological Treatment Processes with Biochar and Zeolite , Bisheng Gao

Bond Life of Structural Epoxy-Concrete Systems Under Accelerated Hygrothermal Aging , Philip W. Hopkins

Socio-Technical Transitions in the Water Sector: Emerging Boundaries for Utility Resilience in Barbados , Wainella N. Isaacs

Structural and Agricultural Value at Risk in Florida from Flooding during Hurricane Irma , Alexander J. Miller

An Inferential Study of the Potential Consumer Value of Free Charging for Users of Public Electric Vehicle Charging Infrastructure , Divyamitra Mishra

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School of Engineering

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SCHOOL OF ENGINEERING

Structural Engineering & Mechanics

Structural Engineering is about employing scientific principles and methodologies tempered by engineering pragmatism and judgement to conceive, analyse, design, construct, maintain, rehabilitate and decommission civil infrastructure components and systems, ensuring the safety of users and occupants over their design life, especially during times of extreme demand (fire, blast, earthquake, impact, storms, etc.).

Quantification of structural resistance (capacity), or capacity of a structure under a broad range of loading conditions (structural demands) is a challenging problem, given the diversity of construction materials, structural systems and loading patterns a structure may have to experience over its lifetime.

Modern structural engineering benefits from an expanding array of established and emerging technologies offering unprecedented opportunities for creativity and innovation under the increasingly generic label of "performance-based engineering".

Research Topics

• Structural Mechanics Structural stability and buckling, inelastic analysis, fatigue, plates and shells, numerical simulation, finite element modelling and analysis.
• Steel Structures Cold-formed thin-walled members (tubular, open-section, perforated), advanced steel materials (stainless steel, high-strength steel), steel materials at elevated temperatures and post-fire condition, tubular structures and welded connections.
• Concrete Structures Reinforcing systems for regular/high-performance concrete structures, sustainable concrete materials, reinforcement corrosion, concrete structures under dynamic loading, condition assessment (NDT) and structural health monitoring, forensic engineering.
• Dynamic Loading on Structures Impact dynamics, blast loading, armour and protection systems (metals, concrete, composites, cellular materials), earthquake analysis and design, structural robustness against extreme conditions.
• Energy Infrastructure Analysis and integrity of critical components (tanks, vessels, piping, pipelines), offshore structures and pipelines, offshore platforms for renewable energy, condition assessment of “aging infrastructure”.
• Structural Applications of Composite Materials Advanced composite materials (e.g. FRP, textile reinforced mortars) for strengthening/rehabilitation of damaged or deficient structural elements, and for new construction applications: FRP reinforcement of concrete, all-FRP structures, and polymer composite structures for renewable energy (e.g. tidal and wind turbines); polymer adhesive joints; structures made of hybrid and innovative materials.
• Fire Effects on Structures and Materials Structural analysis and design accounting for thermal/mechanical fire effects on construction materials and structures (steel, concrete, timber, FRP, and composite construction); experimental and computational work; multi-scale approach: from micro scale to full structural frame.
• Prof Luke Bisby
• Dr Hwa Kian Chai
• Dr Yuner Huang
• Prof Spyros Karamanos
• Dr Angus Law
• Prof Yong Lu
• Dr David Rush
• Dr Tim Stratford
• Prof Filipe Teixeira-Dias
• Dr Ruben Van Coile

Further information

• Institute for Infrastructure and Environment
• Institute for Bioengineering (IBioE)

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Projects and Theses

Interested students have the opportunity to have a planned project or final thesis supervised by the professorship Intelligent Technical Design in German or English. You are always welcome to present your project idea. If you have not found a topic yet, we will help to assist you in finding a topic. On this page you can already find suggestions from the project "Digital ITD Twin" or research our teaching and research content.

Topics of the chair

Bachelor's theses, Master's theses or project work that falls into the areas listed below can be supervised by our chair. The exact content of each thesis is defined with regard to the academic assessment. Details on individual topic suggestions can be found on the Moodle. The password for registration is  ITD-2017 .

https://moodle.uni-weimar.de/course/view.php?id=21164

• Structuring of building data
• Project management
• Workflow development
• Model-checking
• Modeling damage data
• Damage visualization
• Data driven assessment
• Virtual learning environments
• Application of learning theory concepts in connection with AR/VR
• Development of learning scenarios
• Digitaler twins of buildings
• Visualization of building information
• Visualization of information
• Application in teaching
• AR/VR supported processes

Completed theses

Identification of a workflow to integrate non-destructive evaluations results into building information modeling.

David Oghenekaro Ovie, Master's Thesis, WiSe 2023/2024

The role of Non-Destructive Evaluations is vital to the serviceability of buildings and infrastructure as they allow for the integrity and viability of such structures to be confirmed without affecting the utilization and lifespan of those structures. However, there exists significant gaps in the integration of this techniques with modern infrastructure design and management techniques such as Building Information Modelling (BIM), hence the need for this study. Key to this issue is the lack of a standard procedure for the chosen Non-Destructive Evaluation technique namely the Pulse-Echo ultrasonic technique. This combined with the subjective nature of the analysis methods implemented for Pulse-Echo testing makes integration challenging. This study has the goal of resolving a part of the integration problem by proposing an incremental workflow based on previous research for the integration of the Pulse-Echo testing results into BIM. Proposed phases from previous research were then simplified into sequential procedures in each phase and then verified by performing each step using a sample Beam. The actors for each phase of this workflow were also identified as well as the constraints and limitations with regards to the automation of the workflow. The verification of the workflow was shown to be successful, although the automation of the workflow given the present techniques and equipment would be challenging as most processes are currently Semi-Automated or manual in nature.

Supervisors & Examiners: Prof. Dr.-Ing. Christian Koch, M.Sc. Mathias Artus.

Digitization of Structural Bridge Information from Forms

Anas Asif, Master's Thesis, WiSe 2023/2024

The digitization of infrastructure, particularly bridges, has gained significant attention in recent years due to its potential to enhance design, construction, maintenance, and performance evaluation. In the realm of civil engineering and infrastructure maintenance, the management and assessment of critical components like bridge tendons have always been of paramount importance. The condition of these vital elements can significantly impact the safety and longevity of bridges, making their precise evaluation essential. One out of several methods is taking drill cores from the structure and analyze them. These results may be available in a tabular format. This thesis outlines a method to digitize printed and handwritten forms into a structured digital format, e.g., relational databases.

Object Recognition in 2D Plans in the Railway Domain

Khaled Essam Abdelsamie Elahadary, Master's Thesis, SuSe 2023

Engineering drawings include significant knowledge, and unravelling the information they contain requires expertise and time. Developing a learning-based approach that saves time and effort holds the potential to utilize this knowledge effectively in the future. In pursuit of this objective, computer vision techniques have made remarkable progress, driven by the integration of machine learning across various fields. Traditionally, domain-specific engineers were responsible for component detection in engineering drawings. However, the need for efficient extraction of meaningful information within tight timeframes has led to the automation of this process. This automation allows for the seamless integration of different technologies when data is standardized. This paper presents an exploration and implementation of a comprehensive pipeline for extracting railway-specific information from engineering drawings. By employing deep learning approaches, the aim is to successfully extract relevant data.

Supervisors & Examiners: Prof. Dr.-Ing. Christian Koch, M.Sc. Judith Krischler.

Optimizing CT Scans’ Instance Segmentation of Air Pockets in Asphalt Mix Samples via Deep Neural Network

Tehaseen Mujawar, Master's Thesis, WiSe 2022/2023

The assessment and inspection of structures such as paving roads, bridges, parking lots, and driveways are typically performed by a combination of engineers, inspectors, and other professionals. The process involves a comprehensive evaluation of the structure, materials, and condition, including visual inspections, non-destructive testing, and laboratory testing of samples taken from the structure. Some structures use asphalt mix on their deck which can deteriorate over time. This study focuses on the development of a technique to visually recognize air voids in asphalt mixtures using state-of-the-art techniques for instance segmentation of tomographic images. The data considered in this study was obtained from tomographic scans of asphalt mixtures. An automated process was used for data annotation, which reduced the efforts of annotation and did not negatively affect the performance of the model. The annotated data was used to train a deep learning model, optimized using a grid search approach to detect air voids in tomographic images. The evaluation metrics from various trained models were compared against each other to arrive to the optimal combination of hyper-parameters.

This study presents a novel approach for detecting air voids in asphalt mixtures using state-of-the-art techniques for instance segmentation of tomographic images. The proposed technique can automate the detection of air voids in asphalt mixtures, reduce the efforts of manual annotation, and increase the quality of asphalt mixtures produced. The significance of this study lies in the potential for automated quality checks and early detection of asphalt structure deterioration. The results demonstrate that the technique of semantic segmentation with post-processing was feasible for detecting air voids in asphalt mixtures. The trained model was able to differentiate between instances of the same class, which is necessary for detecting air voids. The use of automated quality checks for asphalt mixtures can lead to an increase in the quality of asphalt mixtures produced and early detection of deterioration of asphalt structures.

Supervisors & Examiners: Prof. Dr.-Ing. Christian Koch, M.Sc. Mohamed Said Helmy Alabassy.

Semantic Segmentation of Point Clouds for Open Surface Damages to Concrete Structures via PointNet++

Paul-Christian Prange, Master's Thesis, WiSe 2022/2023

The task of Structural Health Monitoring (SHM) is essential for the maintenance and longevity of infrastructure systems and buildings. The process of assessing buildings is typically resource- intensive, costly, and time-consuming. Therefore, researchers are exploring ways to simplify and support this process.

This study proposes two novel methods for automatically detecting and segmenting spalling on concrete structures in three dimensions, as a step towards the development of a more efficient and automated SHM system. The proposed methods use Machine Learning Algorithm (MLA) to process 2D and 3D data. The 2D MLA processes the image data directly, while the 3D MLA processes point clouds generated from the image data using the Structure from Motion (SfM) algorithm. The performance of both methods is evaluated, and while they yield equivalent results, there are advantages and disadvantages in the training and usage of the models. In particular, the 2D method requires less memory than the 3D method both in terms of the data required and during the training of the machine learning models. Both methods can achieve good results, and there is potential for optimizing the data pipeline further through the addition of new algorithms or modules. Overall, this study offers a promising approach to improving the assessment of building structures and highlights the potential for further research in this area.

BIM and GIS Integration for Infrastructure Planning

Rogerio Antonio Mota Santos, Master's Thesis, WiSe 2022/2023

Building Information Modeling (BIM) and Geospatial Information System (GIS) concepts and their software have been widely used in different engineering fields, albeit often separately from one another. With the advancement of software tools in the last decade, bidirectional integration between these two different types of information, be it when converted, linked, or merged from one to another, has been quite challenging. This thesis developes an integrated workflow for conversion of a railway alignment from GeoJSON into a BIM model in Industry Foundation Classes (IFC) format. The implementation is mainly undertaken in Python programming language to deliver the resulting IFC model that represents an alignment to be used in the early stage of a railway project in order to build a bridge between both worlds of BIM and GIS.

Supervisors & Examiners: Prof. Dr.-Ing. Christian Koch, M.Sc. Judith Krischler.

Integration of a BIM-based Workflow in Construction Planning for a Quality Gate before the Construction of Modular Buildings

Robin Graf, Master's Thesis, SuSe 2022

This thesis deals with the creation of quality gates prior to the construction of modular buildings. A concept is presented, which milestones have to be set and which tasks have to be completed in the individual phases. From the beginning of a project, various policies and procedures need to be explained that work towards the goal of a clash-free building model during the project. The components that are important to achieve this goal are analysed.

The highest priority is to check the conformity of the model with legal requirements such as standards and guidelines for the construction industry. The conformity assessment is currently tedious and error-prone, as it is usually carried out manually and iteratively by the responsible designer for each modification to the design. Automating this process with digital methods has the potential to reduce the workload and thus the costs, to free the engineer from monotonous, iterative work.

Therefore, one of the most important components is the automatic detection of clashes. This happens at various defined milestones in the project. Single or multiple specialist models are checked for clashes. For the individual checks, certain prerequisites must be fulfilled. The definition of rule sets is necessary for each quality gate. For this reason, the created sets are closely examined for their usefulness and applicability. The goal is that it should be possible to check the models automatically with the rule sets created and that the previously exclusively manual clash detection is no longer necessary.

There are many programmes on the market for this purpose. Three software applications from the leading manufacturers, namely KUBUS, Solibri and Autodesk, were selected and evaluated on the basis of various features. These include user-friendliness, applicability and practicality for the purpose of clash detection at specific milestones in the project. After evaluating specific scenarios, an evaluation matrix is used to determine which software is most suitable.

The clashes found in the selected software are not the final goal, because they must also be communicated to the responsible user. For this reason, one possibility of communication via a Common Data Environment (CDE) is examined in more detail, the workflow is analysed and the most effective approach explained. The identified workflow with all quality gates will be tested and evaluated in detail at the end of the work on a pilot project. The potential and the possibilities for improvement as well as future developments are shown.

Assembly of Mechanical Components under Robot Vision System

Yamini Konka, Master's Thesis, WiSe 2021/2022

Industry 4.0 is making revolutionary improvements in Robotics and Automation. Research institutions and manufacturing companies are working together to bring intelligent machineries in production lines, construction sites, medical surgeries, and home appliances, etc. Manipulation of objects is a common task performed by robots in manufacturing industries. With the help of the pre-programmed motion plans of a robot, the machines or robots are automatised to perform mundane jobs in factory. In addition to the automatic movements of the robot, vision sensor integration, developing path trajectories and grasping strategies based on extracted features from the gathered images like human cortex processing system while manipulating the objects, provide a way to make today's machines intelligent. Based on aforementioned concept, this thesis work proposes clear description on methods to implement the robot vision system and utilization of image processing and machine learning algorithms to assemble the two mating parts in semi-unstructured environment.

A video with an example use case can be seen at  https://www.youtube.com/watch?v=YoWhDDJ8-NU&ab_channel=MissionMINT

Supervisors: Prof. Dr.-Ing. Christian Koch, Prof. Dr.-Ing. Frank Schrödel, M.Sc. Mohamed Said Helmy Alabassy. Examiners: Prof. Dr.-Ing. Christian Koch, Prof. Dr.-Ing. Frank Schrödel.

Integration and Visualization of Material Data in BIM - Inspection Information Modeling with IFC Approach

Jason Lai Poh Hwa, Master's Thesis, SuSe 2021

Building Information Modeling (BIM) is a virtual representation of physical asset. A digital BIM model is intended to cover a facility’s entire life cycle from planning, construction, maintenance and finally destruction. According to the current state of art, BIM editor software tools are available to create BIM as-designed model. Nowadays, the application of BIM as-built model with the point cloud Three-Dimension (3D) model reconstruction is actively researched and developed. While for as-damaged model, Damage Information Modeling (DIM) is yet to be fully defined and finalised in order to be align with existing BIM technology. The data from regular and period inspection activities on the facility structure is obliged to be systematically archived. The massive data amount is a challenge to be reviewed and evaluated. Hence, it is vital for the incorporation of raw material data to a coherent model of building information. Integration of such data into BIM environment requires necessary file parsing and rendering software tool. The goal is to have a tool which allows users to make material condition assessment, defect detection, and quality assurance in BIM environment. The core of the tool is built around a data entry system for documenting material diagnosis information from Non-Destructive Evaluation (NDE) in relation to the respective inspected element in asset’s BIM model. The implementation will create the tie of raw material data with BIM which connects NDT material data to the corresponding measured building element. The measurement information and the association is then visualized either graphically or non-graphically in the view port. A follow-up discussion will be on which representations are suitable for material information when is presented to users. The prototype application allows rendering of different measured material data along with its spatial relationship with BIM geometry in terms of position, orientation, and scale. The inspection information modelling product can be stored and exchanged as as-inspected BIM model while complying Industry Foundation Classes (IFC). Feasibility of concept in modelling material data enriched BIM will be evaluated with the prototype. The relativity of material data representation with BIM model will be further discussed in the thesis.

BIM-basiertes Facility Management (BIM-to-FM)

Markus Friedrich Boden, Bacherlorarbeit, SoSe 2021

In den Projekten der Drees & Sommer SE geht der Trend in Richtung Building Information Modeling (BIM). Dabei werden die Vorteile der Methodik besonders in der Planungs- und Errichtungsphase der Gebäude genutzt. Bei einem Blick auf die Lebenszykluskosten eines Gebäudes wird jedoch deutlich, dass rund 80% der Gesamtkosten auf die Nutzungsphase fallen. In dem Gebäudebetrieb ist die integrale Nutzung der Daten jedoch noch nicht ver-breitet.Es besteht in diesem Bereich ein beträchtliches Potential, Prozesse zu optimieren und Kosten einzusparen. Durch die Analyse der Vorteile von BIM im Facility Management (FM) soll für Bauherren ein zusätzlicher Anreiz geschaffen werden, Gebäude mit BIM zu planen und zu betreiben.Bei mit BIM geplanten Bauwerken sind die Voraussetzungen, für eine Bewirtschaftungsphase mit einem modellbasierten Computer-Aided-Facility-Management (CAFM), zu erfüllen. Es stellt sich hierbei die Frage, welche Funktionen ein derartiges CAFM-System bieten kann und welche Prozesse für dessen Herstellung von Nöten sind.In der Bachelorarbeit wird dafür die Schnittstelle BIM-To-FM anhand eines Beispielprojektes betrachtet. Mithilfe der erlangten Erfahrungen im Prozess BIM-To-FM sollen Anforderungen an ein BIM-Modell für die Eingliederung in ein BIM-basiertes CAFM festgehalten werden.

Betreut durch: Prof. Dr.-Ing. Christian Koch, M.Eng. Anna Nast.

BIM-basiertes Risikomanagement

Viet Linh Nguyen, Masterarbeit, SoSe 2021

Risikomanagement spielt in der Baubranche eine wichtige Rolle. Gefahren sollen minimiert und Sicherheit sowie Qualität im Lebenszyklus eines Bauwerkes verbessert werden. Risikomanagement ist zumeist ein erfahrungsbasiertes, manuelles Verfahren, welches auf multidisziplinärem Wissen beruht. Die Verwendung von Building Information Modeling (BIM) zur Unterstützung des Risikomanagements von Bauprojekten ist zu einem anwachsenden Forschungstrend geworden. Es wurde jedoch auch festgestellt, dass das auf BIM-basierende Risikomanagement in der Praxis noch nicht so weit verbreitet ist.

Das Ziel dieser Masterarbeit ist die Erarbeitung eines Konzepts für eine Umsetzung von modellbasiertem Risikomanagement. Zu Beginn eines Bauvorhabens werden Kosten, Termine und Qualitäten festgelegt, die es während des gesamten Bauprozesses, bis zur Fertigstellung, einzuhalten gilt. Eine zuverlässige Termin- und Kostenprognose über die gesamte Projektdauer ist es insbesondere interessant für Bauherren. Es wird der Risikomanagementprozess während Planungs- und Bauphasen unter Anwendung der Methode BIM aufgestellt und die Potenziale durch die entstehende Informationsverknüpfung herausgearbeitet. Hier erfolgt eine detailliertere BIM-basierte Betrachtung der Risiken bis auf Bauteilebene im 4D/5D-Modell. Das BIM-basierte Risikomanagement ermöglicht durch die digitale Erfassung von Informationen zu Risiken am Gebäudedatenmodell eine qualifizierte und aktuell gehaltene Risikobetrachtung. Zum Abschluss dient die Arbeit der Validierung und Verifizierung der Ergebnisse in der Praxis, sodass ermöglicht ein vorgeschlagenes Tool die Visualisierung verschiedener Zeit- und Kostenrisiken während Planung- und Bauphasen, indem eine Farbkarte basierend auf den Auswirkungen der Risiken in Bezug auf Bauteilebene des BIM-Modells präsentiert wird. Die verschiedenen Bauaufgaben können hinsichtlich ihres Risikos analysiert werden, indem sie eine Fuzzy-Fehlermöglichkeits-Einfluss-Analyse in einer Schnittstelle anwenden, wo sie eine Risikofarbe erhalten, die sie nach ihrer Beurteilung kategorisiert. Diese Farben werden dann in ein 3D-BIM-Modell und ein 4D-Modell übertragen, wo sie einfach analysiert, dokumentiert und mit allen relevanten Stakeholdern aufklare und effiziente Weise diskutiert werden können. Danach wird das 4D-Modell mit dieser Informationsverknüpfung in 5D-Modell importiert, um die Visualisierung der Kosten zu erstellen.

Betreut durch: Prof. Dr.-Ing. Christian Koch, M.Sc. Judith Krischler.

Charakterisierung von Streckenabschnitten der Verkehrsinfrastruktur auf Grundlage von Deskriptoren

Eric Czerwonka, Studienarbeit, WiSe 2020/2021

Die Verkehrsinfrastruktur spielt in Deutschland eine elementare Rolle zur Sicherung des Wohlstands. Die Planung von Straßen (die sich im Bundesbesitz befinden) nimmt dabei eine besonders große Bedeutung ein, da sie beispielsweise überregionale Mobilität ermöglichen und Transportwege schnell miteinander verknüpfen. Eine möglichst effiziente und fehlerfreie Verkehrswegeplanung ist somit unerlässlich.

Diese Masterthesis befasst sich mit dem Ziel Deskriptoren zu identifizieren, um Streckenabschnitte der Verkehrsinfrastruktur bereits in sehr frühen Planungs- und Projektphasen, zum Beispiel während der Bedarfsfeststellung im Rahmen der Bedarfsplanung, charakterisieren zu können. Die methodische Vorgehensweise sieht zunächst einen theoretischen Teil vor, der den Leser:innen den Einstieg in die Bundesverkehrswegeplanung und die Phase der Bedarfsplanung, erleichtern soll. Im Konzeptionellen Teil werden die jeweiligen Deskriptoren identifiziert und beschrieben. In einem Fallbeispiel, das entsprechend der Aufgabenstellung durch den Einsatz der Trassierungssoftware ProVI durchgeführt werden soll, werden die Deskriptoren hinsichtlich ihres praktischen Nutzen evaluiert.

Ein zentrales Ergebnis dieser Arbeit war, dass sich die beschriebenen Deskriptoren grundsätzlich dazu eignen, Streckenabschnitte zu charakterisieren. Eine digitale Umsetzung mit der Trassierungssoftware ProVI war jedoch nicht möglich. Bereits auf dem Markt existierende CAD- und GIS-Infrastrukturprogramme (wie z.B. AutoCAD Map 3D und QGIS) zeigen jedoch, dass eine Umsetzung theoretisch möglich ist. Wird eine Trasse hinsichtlich der identifizierten Deskriptoren beschrieben, besteht das Potenzial, die Bedarfsfeststellung effizienter zu gestalten.

Automated Approach for Building Information Modelling of Crack Damages via Image Segmentation and Image-based 3D Reconstruction

Mohamed Said Helmy Alabassy, Master's Thesis, WiSe 2020/2021

As machine vision-based inspection methods in the field of Structural Health Monitoring (SHM) continue to advance, the need for integrating resulting inspection and maintenance data into a centralised building information model for structures notably grows. Consequently, the modelling of found damages based on those images in a streamlined automated manner becomes increasingly important, not just for saving time and money spent on updating the model to include the latest information gathered through each inspection, but also to easily visualise them, provide all stakeholders involved with a comprehensive digital representation containing all the necessary information to fully understand the structure’s current condition, keep track of any progressing deterioration, estimate the reduced load bearing capacity of the damaged element in the model or simulate the propagation of cracks to make well-informed decisions interactively and facilitate maintenance actions that optimally extend the service life of the structure. Though significant progress has been recently made in information modelling of damages, the current devised methods for the geometrical modelling approach are cumbersome and time consuming to implement in a full-scale model. For crack damages, an approach for a feasible automated image-based modelling is proposed utilising neural networks, classical computer vision and computational geometry techniques with the aim of creating valid shapes to be introduced into the information model, including related semantic properties and attributes from inspection data (e.g., width, depth, length, date, etc.). The creation of such models opens the door for further possible uses ranging from more accurate structural analysis possibilities to simulation of damage propagation in model elements, estimating deterioration rates and allows for better documentation, data sharing, and realistic visualisation of damages in a 3D model.

DOI:  10.25643/bauhaus-universitaet.6416

Supervisors: Prof. Dr.-Ing. Christian Koch, Univ.-Prof. Dr.-Ing. habil. Volker Rodehorst. Examiners: Prof. Dr.-Ing. Christian Koch, M.Sc. Mathias Artus.

Generatives Design - Multikriterielle Optimierung von Skeletttragwerken auf Basis evolutionärer Algorithmen

Marvin Reisener, Masterarbeit, SoSe 2020

Das interdisziplinäre Zusammenspiel von Planungsbeteiligten, ausführenden Gewerken und Entscheidungsträgern ist für den Erfolg einer Baumaßnahme entscheidend. In konventionellen Planungsprozessen ist die Erstellung, Anpassung und Leistungsfähigkeitsuntersuchung einer einzigen Entwurfsvariante mit einem erheblichen Arbeitsaufwand verbunden. Vor dem Hintergrund der Tragweite von Entscheidungen in frühen Projektphasen mangelt es häufig an alternativen Entwurfsvarianten, Flexibilität sowie objektiven Entscheidungsparametern.

Generatives Design (GD) ist der Prozess, in dem Ziele und Einschränkungen definiert werden, um mit Hilfe von automatischen Berechnungen eine Reihe von Lösungsvarianten zu untersuchen, die den gewünschten Anforderungen entsprechen.

In Bezug zu Building Information Modeling (BIM) und der Digitalisierung der Baubranche im Allgemeinen dienen Generative Prozesse der Beschleunigung früher Entwurfsphasen und erhöhen die Anpassungsflexibilität durch parametrisches Modellieren.

Gegenstand der zugrundeliegenden Arbeit ist es, in Grasshopper ein Skript zu entwickeln, das unter Verwendung von Einschränkungen wie Gebäudespezifika, Lastannahmen und Vorbemessung eine Vielzahlan Lösungsvarianten für ein Tragwerk in Skelettbauweise generiert und anhand gegebener Zieldefinitionen analysiert. Die Ziele können beispielsweise ein minimaler Verbrauch an Ressourcen, eine minimale Anzahl an Tragwerkselementen oder minimale Kosten sein. Die Ergebnisse sollen für eine multikriterielle Entscheidungsanalyse herangezogen und CAD-Modelle entsprechend der BIM-Methodik ausgetauscht werden.

Die Machbarkeit sowie praktische Anwendungsmöglichkeiten generativer Designprozesse in der Baubranchesollen in der vorliegenden Arbeit nachgewiesen werden.

Betreut durch: Prof. Dr.-Ing. Christian Koch, M.Sc. Judith Krischler.

Linking parametric design and structural analysis for the optimization of bridge cross sections

Juan Gonzales Cavero, Master's Thesis, SuSe 2020

In the early steps of the current digital era, software solutions, which are continuously being created and developed, make new strategies possible to significantly affect the efficiency of almost any process. Building Information Modeling (BIM) represents this philosophy for the construction industry. Despite BIM has yield to huge developments regarding vertical building structures for the last decade, the growth for the civil infrastructure domain has been rather scarce. In this thesis the link of parametric design and structural analysis regarding bridges is investigated and different potential workflows are evaluated. In consequence, a bidirectional framework to exchange models between BIM modelers and a structural analysis application is presented. Furthermore, taking advantage of the flexibility parametric design provides an optimizer tool for for bridge cross sections based on genetic algorithms. In order to present the workflow, a real-word railway bridge is used as an example.

Mixed Reality Interface Prototype for Smart Home Systems

Liselot Ramirez, Master's Thesis, WiSe 2019/2020

Smart Homes are living spaces equipped with lighting, heating, and electronic devices that can be remotely controlled by digital devices. The Chair of Intelligent Technical Design in the Faculty of Civil Engineering has a model project installed in their office. This document reviews the convergence of MR technologies in Building Information Modeling (BIM), and how users benefit from the usability experience during the construction process. Thereafter, usability guidelines for interface design are followed to create a design concept for an interface in Mixed Reality (MR) to interact with the aforementioned Smart Home system. The challenge relies on four user cases: Visualizing Consumption,Comparing Rooms, Automation of Tasks, and Maintenance and Repair. The design proposal is based on the Atomic Design Methodology, in which the components were rendered and exported to a Microsoft HoloLens. The design process for MR is more challenging to implement in the HoloLens than in a mobile application, nevertheless, the result is a design system suited for immersive and mobile applications.

Supervisors & Examiners: Prof. Dr.-Ing. Eva Hornecker, Prof. Dr.-Ing. Christian Koch.

On systematic approaches for interpreted information transfer of inspection data from bridge models to structural analysis

Jan Fröhlich, Master's Thesis, WiSe 2019/2020

In conjunction with the improved methods of monitoring damage and degradation processes, the interest in reliability assessment of reinforced concrete bridges is increasing in recent years. Automated image based inspections of the structural surface provide valuable data to extract quantitative information about deteriorations, such as crack patterns. However, the knowledge gain results from processing this information in a structural context, i.e. relating the damage artifacts to building components. This way, transformation to structural analysis is enabled. This approach sets two further requirements: availability of structural bridge information and a standardized storage for interoperability with subsequent analysis tools. Since the involved large datasets are only efficiently processed in an automated manner, the implementation of the complete workflow from damage and building data to structural analysis is targeted in this work. First, domain concepts are derived from the back-end tasks: structural analysis, damage modeling, and life-cycle assessment. The common interoperability format, the Industry Foundation Class (IFC), and processes in these domains are further assessed. The need for user controlled interpretation steps is identified and the developed prototype thus allows interaction at subsequent model stages. The latter has the advantage that interpretation steps can be individually separated into either a structural analysis or a damage information model or a combination of both. This approach to damage information processing from the perspective of structural analysis is then validated in different case studies.

Supervisors & Examiners: Prof. Dr.-Ing. Guido Morgenthal, Prof. Dr.-Ing. Christian Koch.

BIM-based Framework for Bridge Design and Analysis

Uma Shankar Bharathala, Master's Thesis, WiSe 2019/2020 Enormous engineering work is required to design and construct bridges. Hence, several engineering companies are included in the bridge design workflow from conceptual design to the construction phase. However, many engineering companies are still using traditional design methods to design bridge structures. The initial design phase is crucial in the bridge design phase to avoid problems during the later construction phase. To deliver the project within the required time and budget, massive coordination among the involved teams is necessary. Traditional workflows lack adequate interfaces for such coordination tasks. Building Information Modeling (BIM) is a possible solution to overcome this issue. This study aims to apply a BIM-based framework to design a bridge from the conceptual design phase up to construction plans. The focus is mainly on the bridge design workflow, and on how the traditional methods and BIM methods perform in the stages of conceptual design, preliminary design and main design.

Supervisors & Examiners: Prof. Dr.-Ing. Christian Koch, Univ.-Prof. Dr. Dipl.-Ing. Guido Morgenthal.

Virtual Reality Interfaces for 3D Modeling

Anil Chandra Kavi, Master's Thesis, WiSe 2019/2020 This project focuses on the interfaces for modeling of a classroom in a virtual environment. The Interfaces refers to different mediums through which interactions are possible. Three main interfaces available in the virtual environment are 2D menu, speech recognition, and gesture recognition. In a speech recognition based interface, Microsoft speech application is used, and in gesture recognition based interface, convolutional neural network (CNN) based recognition from 2D drawing to 3D objects. These three interfaces are compared individually and also verified after the integration of three interfaces.

Technologien der automatisierten Erzeugung und Verarbeitung von Punktwolken zu as-built-Bauwerksinformationsmodellen im Hochbau

Martin Lindner, Bachelorarbeit, SoSe 2019

Im Zuge der Weiterentwicklung der BIM-Methode und einer steigenden Anzahl von Anwendungsfällen, deren Fokus auf der Betriebsphase eines Gebäudes liegt, ist die Modellierung des Gebäudebestands von immer größerer Bedeutung. Der erstrebenswerte Workflow besteht dabei in einem weitestgehend automatischen digitalen Aufmaß und anschließender softwaregestützter Verarbeitung der Daten zu einem "intelligenten" Bauwerksmodell.

BIM-basierte Energiebedarfsberechnung von Gebäuden

Wei Zhao, Bachelorarbeit, SoSe 2019

In der Thesis wird eine Energieanalyse auf Basis eines gegebenen BIM-Modells mittels Autodesk Insight erstellt, mit der Prämisse einen möglichst ressourcenschonenden und -effizienten Einsatz von Energie während der Betriebsphase eines Gebäudes unter Berücksichtigung des Komforts zu erreichen.

Betreut durch: Prof. Dr.-Ing. Christian Koch, M.Sc. Thomas Behnke.

Evaluation of Sensor-Based Registration Accuracy using Head Mounted Augmented Reality Devices

Felix Kremp, Master's Thesis, SuSe 2019

This thesis will propose different use cases for registration of virtual content in real space. The implemented use cases split up in a 2Dmarker, a user placed and a 3D marker based on a BIM model approach. Furthermore, an evaluation of registration accuracy within the context of head mounted augmented reality is realized.

Supervisors & examiners: Prof. Dr.-Ing. Christian Koch, M.Sc. Mathias Artus.

Utilizing BIM-Based Model Checking (BMC) in the early stages of design to examine the vulnerability of masonry structures to earthquakes

Mohamed Matook, Master's Thesis, SuSe 2019

The aim of this thesis is to check the possibility of utilizing the concept of BIM-based model checking (BMC) to automatically check the compliance of masonry structures with the design standards. The rules, implemented using Revit and Dynamo, concerning masonry structures from EN 1996-1-1 and EN 1998-1 are assessed and analyzed. 

Supervisors & Examiners: Prof. Dr.-Ing. Christian Koch, Dr.-Ing. Lars Abrahamczyk.

BIM-based Facility Management using COBie

Yuzhe Wu, Master's Thesis, SoSe 2019

Based on the theory of facilities management and BIM technology, this article first analyzes the research status of building facilities management and BIM thorough literature research method. Then sets forth the disadvantages of traditional facility management workflow and what BIM brings to facility management as well as BIM-COBie based facility management software. At last this article evaluates three pieces of facility software through comparative study method and makes a relevant case study to prove the feasibility and superiority of BIM-COBie based facility management, meanwhile provides references for the use of BIM-COBie according to this.

Supervisors & Examiners: Prof. Dr.-Ing. Christian Koch, M.Sc. Thomas Behnke.

Digitaler ITD Zwilling - Design und Implementierung eines Webinterface für nutzerorientierte Datenvisualisierung und Interraktion mit Smart-Home-Systemen

Xi Chen, Master Thesis, 2019

Diese Masterarbeit behandelt die Interaktion von Internet of Things (IoT), Digital Twin und Smart Home über eine responsive Weboberfläche für einen Heimautomatisierungsserver (FHEM), die sich intuitiv bedienen lässt und auch für Endanwender ohne technischem Verständnis optimiert ist. 

Prüfer: Prof. Dr.-Ing. Christian Koch, M.Sc. Mathias Artus

Entwicklung von Prüfstrukturen zur Qualitäts- und Planungskontrolle von Bauwerksinformationsmodellen

Das Ziel der Arbeit bestand darin, Baubeschreibungen zu analysieren und Konzepte zu erarbeiten, die eine Überprüfung des digitalen Modells bezüglich der Baubeschreibung und der darin festgelegten Qualitäten ermöglichen. Sebastian Seiß, Master Thesis, 2018 Prüfer: Prof. Dr.-Ing. Hans-Joachim Bargstädt M.Sc.; Prof. Dr.-Ing. Christian Koch; M.Sc. Judith Ponnewitz

Spezifizierung einer Datenschnittstelle zur Integration von digitalen Oberleitungsplanungen in Building Information Modeling

Das vordergründige Ziel der vorliegenden Arbeit bestand darin, Untersuchungen zu Datenübergabeszenarien zwischen Planungssoftware für Oberleitungsanlagen und anderen im BIM-Prozess verwendeten Programmen anzustellen und die Datenschnittstelle mit der besten Eignung anschließend zu spezifizieren. Justus Boeck, Master Thesis, 2018 Prüfer: Prof. Dr.-Ing. Arnd Stephan (TU Dresden); Dipl.-Ing. Fritjof Aufschläger (TU Dresden); Prof. Dr.-Ing. Christian Koch (Bauhaus-Universität Weimar); Dipl.-Ing. Matthias Krippner (DB Engineering & Consulting GmbH, Leipzig)  

Design and Implementation of Structural Dynamics Problems in a Serious Gaming Environment

Tarek Ahmed Mohamed, Master's Thesis, SuSe 2018

The aim of this project was to develop a serious game to teach engineering students some structural dynamics problems which they can use to interact and get more involved with the theory behind these problems. The chosen problems were calculating the natural frequency and the mode shapes of a single span beam for different cases, and the Dynamic Amplification Factor (DAF). 

Supervisors & Examiners: Prof. Dr.-Ing. Christian Koch, Dr.-Ing. Volkmar Zabel.

Templates for project reports, bachelor thesis and master thesis. These template can be used. However, they are not mandatory.

Templates Word:

https://github.com/Chair-Intelligent-Technical-Design/thesis-template/tree/master/word

Templates Latex:

https://moodle.uni-weimar.de/blog/index.php?userid=14713

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Elements in focus are visually enhanced by an black underlay, while the font is whitened

Feedback active

Feedback not active

Animations on this Website Read more about this setting

Halts animations on the page

Animations active

Animations not active