Urban areas, with their intricate infrastructure, are at the forefront of climate challenges. The unique composition of each street, from vegetation and building heights to road materials, creates a complex puzzle of temperature variations. This complexity demands high-resolution, contextualised data to understand and mitigate the impacts of temperature extremes on a micro-level, from air and road temperatures to wind speed and humidity. In response to this challenge, we have developed a bicycle-based mobile urban data-gathering, marking a significant step forward in our ability to collect urban temperature data. This initiative serves as the foundation for a broader ambition: to create a scalable, citizen-generated data ecosystem. By miniaturising our technology into an integrated, embedded, plug-and-play unit, we can expand its application to various urban infrastructures, including vehicles with regular routes like garbage collectors. This approach allows for the precise mapping of temperature data across the built environment. With this project, we do not only enhance our understanding of urban climate dynamics, but also we aim to empower stakeholders with actionable insights. Such information will facilitate targeted interventions to mitigate the adverse effects of climate variability on the built environment.
THE MISSION OF THIS DESIGN PROJECT
Your mission is to build on the existing mobile unit, take it a step further, develop a simple plug-and-play sensor kit that can be easily mounted on municipal vehicles to facilitate the crowdsourcing of the data needed for the assessment of urban temperatures at a high spatiotemporal resolution.
We want to strengthen the integration of infrastructure development with data- driven urban management by leveraging advancements in data acquisition technologies. Through the innovative application of plug-and-play sensor kits mounted on municipal vehicles, we seek to significantly enhance our capacity to quantify urban temperature conditions. But not only that, this approach also facilitates a more informed decision-making process in the built environment.
To this end, the successful candidate will tackle the following tasks:
1. Conduct a comprehensive literature review to identify existing data acquisition technologies and their limitations in monitoring urban environmental patterns.
2. Propose a new data acquisition system that can capture high-resolution spatiotemporal data.
3. Design and prototype a scalable and cost-effective plug-and-play sensor kit tailored to the specific requirements identified during the literature review study.
4. Implement data processing algorithms to structure and analyse the collected data, ensuring its relevance and usability for decision-makers.
5. Pilot the plug-and-play sensor kit in selected urban areas to test its effectiveness in real-world conditions and to refine its design based on operational feedback.
6. Envision the next step of the provided solution.
Your profileWe offer you a very challenging position in an inspiring multidisciplinary environment. In this time, we will provide you with a tailor-made post-master design program that has an educational component (50%) as well as a design project (50%).
On successfully completing the program, you will receive a certified and recognised degree. You will be entitled to use the academic title of Engineering Doctorate (EngD) and will be registered as a Technological Designer in the Dutch register kept by the Royal Institution of Engineers in the Netherlands (KIVI).
Information and applicationAre you interested in this position? Please send your application via the 'Apply now' button below before the 31st of May , 2024, and include:
For more information regarding this position, you are welcome to contact Dr. Monica Pena at [email protected] or Dr. Farid Vahdatikhaki at [email protected]
Interviews will take place in the second week of June.
About the organisationThe Faculty of Engineering Technology (ET) engages in education and research of Mechanical Engineering, Civil Engineering and Industrial Design Engineering. We enable society and industry to innovate and create value using efficient, solid and sustainable technology. We are part of a ‘people-first' university of technology, taking our place as an internationally leading center for smart production, processes and devices in five domains: Health Technology, Maintenance, Smart Regions, Smart Industry and Sustainable Resources. Our faculty is home to about 2,900 Bachelor's and Master's students, 550 employees and 150 PhD candidates. Our educational and research programmes are closely connected with UT research institutes Mesa+ Institute, TechMed Center and Digital Society Institute.
Want to know more Pena Acosta, M. (Monica)Assistant Professor
Pena Acosta, M. (Monica)Assistant Professor
Do you have questions about this vacancy? Then you can contact Monica for all substantive questions about this position and the application procedure. For general questions about working for the UT, please refer to the chatbot.
ContactPhone:+31534891795
Email:[email protected]
How to apply Step 1Apply. When you see a vacancy that appeals to you, you can apply online. We ask you to upload a CV and motivation letter and/or list of publications. You will receive a confirmation of receipt by e-mail.
Step 2Selection. The selection committee will review your application and you will receive a response within 2 weeks after the vacancy has been closed.
Step 31st interview. The 1st (online or in person) meeting serves as an introduction where we introduce ourselves to you and you to us. You may be asked to give a short presentation. This will be further explained in the invitation.
Step 42nd interview. In the second interview, we will further discuss the job content, your skills and your talents.
Step 5The offer. If the conversations are positive, you will be made a suitable offer. If applicable, we will sign you up for screening.
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