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Seminar Graphs&Data@TU Delft - 14th Mar

Seminar Graphs&Data@TU Delft - 14th Mar 14th March 14 March 2024 10:30 till 12:00 | Add to my calendar This is a series of seminars/talks bringing together people from all TU Delft doing research on Graphs and Data who could benefit from the interchange of ideas with colleagues on different topics. This seminar will take place on Thursday 14th March , from 10:30 to 12:00 . Place : KG 02.110, Civil Engineering and Geosciences (CEG), Building 23 Register here for in person attendance Speakers Klaus Hildebrandt Title: Geometry Processing: Discretization, Learning and Analysis Abstract : Advances in 3D capture, fabrication and display technologies over the past decade have led to the intensive use of 3D data in a variety of scientific disciplines and application domains posing a demand for computational methods for analysing and processing geometric data. This talk is divided into three parts. First, we discuss geometric properties of continuous surfaces and their discrete counterparts. In the second part, we look at the construction of convolutions on surfaces in the context of geometric deep learning. Finally, we discuss the analysis and synthesis of shapes using Riemannian shapes spaces. Maosheng Yang Title: Hodge-compositional Edge Gaussian Processes Abstract : We propose principled Gaussian processes (GPs) for modeling functions defined over the edge set of a simplicial 2-complex, a structure similar to a graph in which edges may form triangular faces. This approach is intended for learning flow-type data on networks where edge flows can be characterized by the discrete divergence and curl. Drawing upon the Hodge decomposition, we first develop classes of divergence-free and curl-free edge GPs, suitable for various applications. We then combine them to create Hodge-compositional edge GPs that are expressive enough to represent any edge function. These GPs facilitate direct and independent learning for the different Hodge components of edge functions, enabling us to capture their relevance during hyperparameter optimization. To highlight their practical potential, we apply them for flow data inference in currency exchange, ocean current analysis and water supply networks. Ruben Wiersma Title: DeltaConv: Anisotropic Operators for Geometric Deep Learning on Point Clouds Abstract : Learning from 3D point-cloud data has rapidly gained momentum, motivated by the success of deep learning on images and the increased availability of 3D data. In this talk, we aim to construct anisotropic convolution layers that work directly on the surface derived from a point cloud. This is challenging because of the lack of a global coordinate system for tangential directions on surfaces. We describe DeltaConv, a convolution layer that combines geometric operators from vector calculus to enable the construction of anisotropic filters on point clouds. Because these operators are defined on scalar- and vector-fields, we separate the network into a scalar- and a vector-stream, which are connected by the operators. The vector stream enables the network to explicitly represent, evaluate, and process directional information. Our convolutions are robust and simple to implement and match or improve on state-of-the-art approaches on several benchmarks, while also speeding up training and inference.

Minor

When You have to take a minor in the third year of the BSc programme. In the event of a study delay or a bridging minor, it is possible to spread the courses of the minor over several semesters or even years. Good planning is necessary, so make an appointment with the academic counsellor . Choice of minor and contact information check out minors.tudelft.nl for more information about possible minors. There you will also find the contact details for more information per minor. Self-composed minor TPM The requirements for a self-composed minor can be found on minors.tudelft.nl . You must request a self-composed minor from the Examination Board in advance using the “ self-composed minor ” form. Keep in mind that approval by the TPM Examination Board is independent of admission to the specific minor or individual courses. You must therefore arrange this admission separately. How this should be done differs per university and study programme and we recommend you to contact the study programme of your choice. If you have any questions about this, you can contact the academic counsellor . Minor abroad During your BSc there is the possibility to study abroad. This way, you can take courses that you can use as a minor. More information can be found at studyabroad.tudelft.nl and the faculty specific website. After reading this website, you can contact International Office if you have any questions. Make an apppointment: via e-mail or online agenda E-Health Awareness Self Management Current information can be found on Brightspace More information about internships

Circularity in the Built Environment Graduation Awards 2023: Meet the Winners

From a circular approach to transitional housing to balanced reuse of industrial heritages: at TU Delft’s Faculty of Architecture and the Built Environment many master students direct their efforts towards more circular practises. In October 2023, the jury announced the five winners of the Circularity in the Built Environment Graduation Awards (2022-2023). In an interview, each winner gives an impression of his or her graduation project, explaining how circular practices may be achieved through thoughtful and meticulous design and engineering. Circularity in the Built Environment Graduation Awards The annual Circularity in the Built Environment Graduation Awards recognise the contribution BK graduation students make to the transition toward a circular built environment and aim to stimulate research and innovation in the field. The Circularity in the Built Environment Graduation Awards is an initiative of the Circular Built Environment Hub of the Faculty of Architecture and the Built Environment. The winners of the 2022-2023 edition were selected from four categories: Materials & Components (Tillmann Klein Award), Buildings & Neighbourhoods, Cities & Regions en Management & Policy. From a circular approach to transitional housing to balanced reuse of industrial heritages: at TU Delft’s Faculty of Architecture and the Built Environment many master students direct their efforts towards more circular practises. In October 2023, the jury announced the five winners of the Circularity in the Built Environment Graduation Awards (2022-2023). In a brief interview, each winner gives an impression of his or her graduation project, explaining how circular practices may be achieved through thoughtful and meticulous design and engineering. Meet the Winners Circularity in the Built Environment Graduation Awards The annual Circularity in the Built Environment Graduation Awards recognise the contribution BK graduation students make to the transition toward a circular built environment and aim to stimulate research and innovation in the field. The Circularity in the Built Environment Graduation Awards is an initiative of the Circular Built Environment Hub of the Faculty of Architecture and the Built Environment. The winners of the 2022-2023 edition were selected from four categories: Materials & Components (Tillmann Klein Award), Buildings & Neighbourhoods, Cities & Regions en Management & Policy. Meet the Winners Skin (t)issue: in search of flexible bio-based facade cladding As a Building Technology master’s student Samanwita develops a particular interest in circular facade cladding design concepts. Might there be a renewable alternative for conventional materials like brick, steel and aluminium? “Of course there are historical examples of mud cladding and timber claddings are quite common. But I was looking for a sheet material that can be applied in cladding systems with complex geometries." Read the story of Samanwita Ghosh Samanwita Ghosh | Winner in the category 'Materials & Components (Tillmann Klein Award)' Samanwita Ghosh | Winner in the category 'Materials & Components (Tillmann Klein Award)' Skin (t)issue: in search of flexible bio-based facade cladding As a Building Technology master’s student Samanwita develops a particular interest in circular facade cladding design concepts. Might there be a renewable alternative for conventional materials like brick, steel and aluminium? “Of course there are historical examples of mud cladding and timber claddings are quite common. But I was looking for a sheet material that can be applied in cladding systems with complex geometries." Read the story of Samanwita Ghosh How to make a new home in a Korean high-rise In the decades following the Korean War (1950 – 1953) concrete high-rise apartment buildings came to dominate South Korea’s metropolitan landscape. At the end of their relatively short lives, they are demolished and replaced by bigger versions, which does not make for sustainable building practice. Inspired by open-source architecture and modular building Yeonghwa Choe proposes an alternative approach. Read the story of Yeonghwa Choe Yeonghwa Choe | Winner in the category 'Buildings & Neighbourhoods' Yeonghwa Choe | Winner in the category 'Buildings & Neighbourhoods' How to make a new home in a Korean high-rise In the decades following the Korean War (1950 – 1953) concrete high-rise apartment buildings came to dominate South Korea’s metropolitan landscape. At the end of their relatively short lives, they are demolished and replaced by bigger versions, which does not make for sustainable building practice. Inspired by open-source architecture and modular building Yeonghwa Choe proposes an alternative approach. Read the story of Yeonghwa Choe Gimme better shelter: a circular approach to transitional housing As climate change and conflicts are displacing more and more people across the globe, the demand for shelter and temporary housing is growing. In her master’s thesis Julia Gospodinova zooms in on transitional housing practice and offers designers and decision-makers a method to make practice more circular. “Matching acceptable living conditions with environmental, social and economic sustainability is essential.” Read the story of Julia Gospodinova Julia Gospodinova | Winner in the category 'Buildings & Neighbourhoods' Julia Gospodinova | Winner in the category 'Buildings & Neighbourhoods' Gimme better shelter: a circular approach to transitional housing As climate change and conflicts are displacing more and more people across the globe, the demand for shelter and temporary housing is growing. In her master’s thesis Julia Gospodinova zooms in on transitional housing practice and offers designers and decision-makers a method to make practice more circular. “Matching acceptable living conditions with environmental, social and economic sustainability is essential.” Read the story of Julia Gospodinova Making the right connections in peri-urban China Shiru Liu grew up in a mixed urban and rural region in China’s Greater Bay Area, where she studied architecture and planning. For her master’s degree in Delft she decided to excavate the region’s potential for an industrial transition to circular and bio-based practices. “There’s a lot happening but an integral planning strategy for long-term development is lacking. As a planner I can provide synergy between policy, space and resources.” Read the story of Shiru Liu Shiru Liu | Winner in the category 'Cities & Regions' Shiru Liu | Winner in the category 'Cities & Regions' Making the right connections in peri-urban China Shiru Liu grew up in a mixed urban and rural region in China’s Greater Bay Area, where she studied architecture and planning. For her master’s degree in Delft she decided to excavate the region’s potential for an industrial transition to circular and bio-based practices. “There’s a lot happening but an integral planning strategy for long-term development is lacking. As a planner I can provide synergy between policy, space and resources.” Read the story of Shiru Liu Place for the trades and high-tech: towards balanced reuse of industrial heritage Under what conditions can old industrial buildings in cities offer space for contemporary industry and help prepare for and facilitate a circular economy? Master's student Christiaan Hanse went in search of answers and came up with a strategic assessment framework. Read the story of Christiaan Hanse Christiaan Hanse | Winner in the category 'Management & Policy' Christiaan Hanse | Winner in the category 'Management & Policy' Place for the trades and high-tech: towards balanced reuse of industrial heritage Under what conditions can old industrial buildings in cities offer space for contemporary industry and help prepare for and facilitate a circular economy? Master student Christiaan Hanse went in search of answers and came up with a strategic assessment framework. Read the story of Christiaan Hanse

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Researchers hand over Position Paper to Tweede Kamer

On behalf of the TU Delft PowerWeb Institute, researchers Kenneth Brunninx and Simon Tindemans are handing over a Position Paper to the Dutch Parliament on 14 November 2024, with a possible solution to the major grid capacity problems that are increasingly cropping up in the Netherlands. The Netherlands is unlikely to meet the 2030 climate targets, and one of the reasons for this is that large industry cannot switch to electricity fast enough, partly because of increasingly frequent problems around grid capacity and grid congestion. In all likelihood, those problems will actually increase this decade before they can decrease, the researchers argue. The solution offered by the TU Delft PowerWeb Institute researchers is the ‘flexible backstop’. With a flexible backstop, the current capacity of the power grid can be used more efficiently without sacrificing safety or reliability. A flexible backstop is a safety mechanism that automatically and quickly reduces the amount of electricity that an electric unit can draw from the grid (an electric charging station or a heat pump) or deliver (a PV installation). It is a small device connected or built into an electrical unit, such as a charging station or heat pump, that ‘communicates’ with the distribution network operator. In case of extreme stress on the network, the network operator sends a signal to the device to limit the amount of power. Germany recently introduced a similar system with electric charging stations. The backstop would be activated only in periods of acute congestion problems and could help prevent the last resort measure, which is cutting off electricity to users. ‘Upgrading the electricity network remains essential, but in practice it will take years. So there is a need for short-term solutions that can be integrated into long-term planning. We, the members of the TU Delft PowerWeb Institute, call on the government, network operators and regulator to explore the flexible backstop as an additional grid security measure,’ they said. The entire Paper can be read here . Kenneth Brunninx Associate Professor at the Faculty of Engineering, Governance and Management, where he uses quantitative models to evaluate energy policy and market design with the aim of reducing CO2 emissions. Simon Tindemans is Associate Professor in the Intelligent Electrical Power Grids group at Faculty of Electrical Engineering, Mathematics and Computer Science. His research interests include uncertainty and risk management for power grids. TU Delft PowerWeb Institute is a community of researchers who are investigating how to make renewable energy systems reliable, future proof and accessible to everyone.

Empowering professionals – vital for the longevity of any organisation

Empowering professionals – vital for the longevity of any organisation “Employers need to recognise that allowing employees to develop themselves is essential to business success, and space must be made for that,” says Willem van Valkenburg, Executive Director of TU Delft’s Extension School for Continuing Education. In a recent Topic Talks interview on New Business Radio , van Valkenburg highlighted the need for a robust learning culture within organisations to keep pace with an evolving job market and rapid technological advancements. Barriers to continous development Reflecting on the learning culture in the Netherlands, as an example, van Valkenburg pointed out an often-overlooked barrier: although resources for professional development exist, business needs frequently take precedence, sidelining employee growth. “Employers must actively create environments that encourage continuous learning and foster dialogue about upskilling and growth opportunities. This is especially crucial for companies struggling with unfilled vacancies. When staffing is low, the demand on existing employees intensifies, making it harder to prioritise time for learning.” Recognising these challenges, TU Delft has developed short-duration online courses to help professionals fit learning around their work responsibilities. The importance of up-to-date skills is clear: businesses need to adopt new technologies to remain competitive, yet they often face skills gaps that traditional training does not cover. Van Valkenburg shared an example of a professional who, after completing TU Delft’s AI in Manufacturing course, applied their learning to increase production by 50%. To address the need for specialised knowledge, TU Delft’s approach goes beyond standard coursework, fostering innovation through collaborative learning communities. “Our learning communities bring together researchers, professionals, and policymakers to collaboratively address real-world problems. This structure enables participants to learn while actively solving practical challenges,” explained van Valkenburg. Throughout the conversation, van Valkenburg emphasised the value of aligning academic expertise with industry needs. By integrating TU Delft’s research into their courses, participants have access to the latest advancements, keeping them at the forefront of their fields. “Our courses, accessible in English and designed for a global audience, allow professionals from diverse sectors to stay ahead of technological shifts,” he said. Tangible impact In addition to cutting-edge content, the Extension School maintains a learner-centred approach. Feedback is integral, helping TU Delft ensure its courses remain relevant and impactful. “What moves me the most are people in developing countries who say, ‘I took a course on solar energy. With the knowledge I gained, I wrote a project plan to install solar panels in our village. Now, we have more electricity and can develop ourselves further.'" Building lifelong learning at all levels is essential to creating a resilient workforce and a sustainable future. TU Delft’s Extension School is committed to keeping these conversations alive, empowering professionals worldwide to drive meaningful change. For those interested in hearing the full interview in Dutch, please click the link. Luister hier Support Willem van Valkenburg and our work by giving us a shout-out on LinkedIn linkedin