45 Fully Funded PhD Programs at Tu Delft University, Netherlands

Are you holding Master’s degree and looking for PhD positions – Fully Funded PhD Programs in Europe? Tu Delft University, Netherlands inviting application for funded PhD Programs or fully funded PhD Scholarship. Tu Delft University is one of the largest university in the world with thousands of employees, students, and research scientists are involved in the innovation of science and technology daily.

Tu Delft University has huge a campus in Netherlands and widely known as for its contribution in top notch education and research. The contribution of Tu Delft University, Netherlands is not only limited to natural sciences and engineering but it also offers high quality research as well as higher education in bio-medical sciences, social sciences, humanities, psychology, education, architecture etc.

1. PhD position Integrated policies and transition pathways for sustainable water management and agriculture

Summary of Doctoral Project:

In this PhD position, you will study, design and test new governance arrangements to find out what is necessary to create integrated policies and transition pathways. The main objective is to investigate how governments can stimulate the upscaling and mainstreaming of the technological innovations. These innovations include innovative drainage and water storage systems as well as introducing new crop varieties, which will be investigated by the other PhDs and the PDEng in the project. These will act as case studies for your research. The ideal candidate thus has an interest to think across disciplinary boundaries and can work in a (multi-disciplinary) team. Conflicting policies and interventions that hamper transitions are typically addressed ad hoc and for a single sector or at government level only. There is also limited scientific understanding on how to integrate a piloted innovation into regular structures, what the main barriers to this integration are and which strategies may overcome these barriers.

Last Application Date: 31-5-2022

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2. PhD position Flexible Floating Structure Modelling and Analysis

Summary of Doctoral Project:

The task of this PhD project is to develop mathematical models and efficient computational tools for large deflection and wrinkling simulation of VFFS. Large deflections and wrinkling are geometrically nonlinear effects that require nonlinear fluid-structure interaction (FSI) simulations. The mathematical models and simulation tools shall be developed in the context of Isogeometric Analysis, which is particularly suited for this task. The consortium has a long tradition in developing numerical simulation tools and is part of the international developer team of the open-source G+Smo (Geometry plus Simulation Modules) library, which forms the basis of this project. The PhD candidate will collaborate with other G+Smo developers as well as with the other members of the FlexFloat team.

Last Application Date: May 31, 2022

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3. PhD Position Design of new flatfish stimulation devices

Summary of Doctoral Project:

To help achieving this, the PhD candidate will study the physics of acoustic, optical, hydraulic and mechanical stimuli and based on this knowledge develop appropriately dimensioned actuators. The stimuli should be optimal to increase both the volume and selectivity of the catch, but at the same time minimize the impact on the seabed and water column. In addition, the actuators should also minimize the energy usage and avoid large power fluctuations. The latter is important to promote the usage of alternative (electrical) energy sources in future fishing vessels. This requires an in-depth understanding of the underlying physics. The PhD will conduct both experiments and numerical simulations to achieve this knowledge. The PhD will closely collaborate with a PhD at Wageningen University that focusses on fish behavior in response to various stimuli (see: link ). In the second phase of the project the PhD will also collaborate with a postdoc who will integrate the knowledge into a future demersal fishing gear design concept.

Last Application Date: May 31, 2022

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4. PhD Position Data-driven identification and control of hydrodynamically coupled floating structures

Summary of Doctoral Project:

This four-year PhD project will develop methods for the identification of such dynamic interactions and the design of controllers that mitigate the force fluctuations on hydrodynamically interacting structures. The ultimate goal is to leverage these results to develop harm-minimization strategies that prevent the potential deleterious effects of such wake-structure interactions. The PhD student will work at the Faculty of Mechanical, Maritime, and Materials Engineering (3mE) of TU Delft, within both the Fluid Mechanics group of the Process & Energy department and the Data-Driven Control section of the Delft Center for Systems and Control. The identification of the hydrodynamically coupled system will be based on the generation and analysis of experimental data, using a unique unsteady flows facility which combines advanced flow diagnostic methods with industrial robotics hardware.

Last Application Date: May, 31th 2022

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5. PhD Position Collaborative Control for Autonomous Ships in Multi-Vessel Environments

Summary of Doctoral Project:

As PhD researcher in this project, you will focus on investigating the potential of vessel to vessel (v2v) and vessel to infrastructure (v2i) interactions in view of addressing these challenges at an operational level. You will have the opportunity to investigate smart operational control strategies for collaborative autonomous shipping, integrating navigation rules, information exchange and algorithms for dealing with the uncertainties. Here, concepts such as (distributed) model predictive control are in particular pursued as the central concept to advance the state of the art in performance of multi-vessel systems and surrounding logistics. This PhD position will contribute to the fundamental research, while assessing the potential of investigated methods using high-fidelity simulations and experimental validation with the autonomous vessel fleet of the Researchlab Autonomous Shipping (RAS, http://rasdelft.nl/) at TU Delft.

Last Application Date: May 31, 2022

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6. PhD Position CFD and lumped modelling of fluidized bed waste gasification

Summary of Doctoral Project:

The PhD project ‘’Modelling and experimental validation of HTW bubbling fluidized bed gasification’’ is a collaboration between GIDARA Energy and TU Delft. Aim of the gasification process is to generate a syngas which, after cleanup and upgrading, will be suitable for fossil-free methanol production. The goal of this project is to arrive at a simple transient one-dimensional model for the gasifier at GIDARA Energy, with the ability to predict the residence time distribution of gas/solids, the (axial) temperature distribution, and the chemical conversion and selectivity to various products. Focus lies on a research-scale bubbling fluidized bed gasifier operating with solid waste feedstock, e.g. sewage, wood, household and industrial types of solid waste. To arrive at such a model, the output of more detailed Computational Fluid Dynamics models (without reactions) will be analyzed and reduced to simpler equations, after which chemical reactions will be added. Cold flow experiments using a downscaled version of the gasifier will be performed at TU Delft for model validation.

Last Application Date: May 31, 2022

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7. PhD Candidate Optomechanics and Space Missions

Summary of Doctoral Project:

PhD Researcher will be helping to lead a €2.2 million project on ultra-thin photonic crystal sails for next-generation space travel — the project is in collaboration with the Breakthrough Prize Foundation. Our lab is currently working at the cutting edge of nanotechnology, nanophotonics, applied physics and space travel by developing ultra-light sails which are unlike any material found in nature or made in science to date. In 2016 Breakthrough Prize Foundation announced a $100 million initiative to realize microchip satellite for unmanned interstellar travel. By attaching these microchips to low-mass sails which are meters large and only nanometers thick, these satellites could be accelerated to ultra-fast speeds with lasers. This type of sail material would allow us to shorten times to Alpha Centauri, our nearest star, from 10,000 years to only 20 years – completely changing humanity’s reach within the universe.

Last Application Date: June 1st, 2022

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8. PhD position Complementarity Mechanisms in Complex Network

Summary of Doctoral Project:

As a Ph.D. student, you will study complementarity mechanisms in complex networks under supervision of Dr. Maksim Kitsak and Prof. Van Mieghem. Your work will be at the intersection of network theory, network embeddings, and network inference. A possible application domain is the Science of Science.

Last Application Date: June 1, 2022

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9. PDEng Traineeship Process and Equipment Design 09/22

Summary of Doctoral Project:

The PDEng programme in Process and Equipment Design trains and educates trainees to become a qualified designer, capable of designing “fit for purpose” and “first of its kind” products, processes and equipment. Throughout the programme, the PDEng trainee is (besides deepening and broadening knowledge) trained in teamwork, in multi-disciplinary problem-solving, and in project management. PDEng trainees will gain expertise in process development, conceptual design and engineering activities. The PDEng design programme is a joint initiative of and sponsored by the Dutch chemical industry and the Dutch government. The quality of the programme is assessed and certified on behalf of both parties. More information about the programme is available at www.pdeng.tudelft.nl/ped

Last Application Date: NA

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10. PhD Position Foundations of Stochastics Partial Differential Equations

Summary of Doctoral Project:

At the Delft Institute for Applied Mathematics (DIAM), part of Delft University of Technology (TU Delft), NL, two full-time PhD positions in the mathematical analysis of stochastic partial differential equations are offered. The PhD candidate will be supervised by Prof.dr.ir. M.C. Veraar (part of the Analysis Group at DIAM). The focus of both of the projects is on well-posedness, regularity, long-time behavior, large deviations and/or approximation of solutions to parabolic and hyperbolic SPDEs of semi- and quasi-linear type. A background in Probability Theory and/or Analysis is preferable.

Last Application Date: 24 June 2022

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11. PhD in Smart Control of Turbulence for Sustainable Aviation

Summary of Doctoral Project:

Wall-bounded turbulence is the single largest source of fuel consumption in aviation, annually accounting for approximately half of global aviation greenhouse gas emissions. A large part of the aircraft is not yet optimized to reduce turbulent friction while at the same time, more efficient aircraft are highly required in order to cope with mass and volume challenges posed by novel energy carriers such as hydrogen and batteries. The strive for more efficient aircraft architectures with low turbulent skin friction drag continues to be of high interest in the development of the next generation aircraft planforms (e.g. blended wing body), because of their large impacts on efficiency. Thus, turbulent drag reduction can be seen as one of the key levers for sustainable aviation and is agnostic to both the energy carrier as well as the planform design.

Last Application Date: 21 June 2022

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12. PhD Position Software Restructuring

Summary of Doctoral Project:

The Spoofax team at TU Delft is pursuing a broad research program to develop a language workbench that supports high-level declarative language definition, the generation of programming environments (including editors, parsers, type checkers, and interpreters/compilers) from language definitions, and the (automated) verification of properties of language definitions and their implementations. One line of research in this program is concerned with the formalization of the name binding rules in programming languages. To that end, the group has developed a theory of name resolution based on scope graphs, and applied it in the design and implementation of a meta-language for static semantics. In dynamic semantics, scope graphs provide a uniform model for memory at runtime and serve as the basis for intrinsically-typed definitional interpreters, enabling the automatic verification of type soundness.

Last Application Date: 30 June 2022

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13. PhD Position Postural stabilization and motion comfort in automated vehicles

Summary of Doctoral Project:

TU Delft, the Netherlands, invites applications for a PhD student to investigate human postural stabilization in relation to motion perception and motion comfort. Automated driving holds great promise to provide safe and sustainable transport. Automation will allow users to take their eyes off the road, freeing up time for work or leisure activities. This will require high comfort levels achieved by smooth driving styles and innovative interiors. A particular concern is “self-driving car sickness”. A range of theories and models associate motion sickness with motion perception and postural stabilization. Due to a multitude of factors existing models fail to predict motion comfort in automated driving. Effects of 3D motion and the modulating role of vision are not sufficiently captured. The relation between motion comfort and postural stabilization sees little empirical support.

Last Application Date: 30 June 2022

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14. PhD Position Modeling Cardiac Tissue Growth and Remodeling

Summary of Doctoral Project:

Heart failure is a progressive chronic condition under which heart tissues undergo detrimental changes in structure and function across multiple scales in time and space. Given the role that biomechanical stimuli play in the onset and progression of these remodeling processes, cardiac restraint devices are seen as a promising treatment strategy. However, given the limited understanding of the underlying cardiac tissue behavior, current designs fail to successfully counteract pathological remodeling in the long term. To this end, the aim of this PhD project is to develop, implement, verify, calibrate, and validate a microstructurally and functionally informed cardiac tissue model for growth and remodeling using finite element analysis. The outcomes of the developed framework will be leveraged to design enhanced bio-informed cardiac restraint devices.

Last Application Date: May 15th, 2022

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15. PhD Position Interaction-Aware Motion Planning

Summary of Doctoral Project:

In this project we will take a holistic view on the interaction of mobile robots and humans, where we will consider multiple spatio-temporal granularities ranging from individual interactions to the interaction of a robot fleet with the humans in a city, and from short term (local) to long term (global) effects of the interaction. You will employ reinforcement learning tools to build local and global intuition models of the interaction between robots and their environment. Then, you will integrate these intuition models in uncertainty-aware trajectory optimization methods to compute safe interaction-aware trajectories for mobile robots. Within the project, you will be responsible for motion planning and collaborate with other researchers responsible for task assignment and perception.

Last Application Date: May 15th, 2022

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16. PhD Position Forensic Biomechanics for Infant Injury Investigations

Summary of Doctoral Project:

Abusive head trauma is a major cause of morbidity and mortality in infants. The injury mechanisms are controversial and include various forms of violence such as blunt force impact, shaking and compression. Victims may present with subdural or retinal haemorrhages and various degree of brain injury, often with unclear history. Commonly in such cases there are also other injuries indicative of abuse, such as fractures and bruises. Yet, signs of direct impact to the head are often lacking. Forensic experts have varying views on whether violent shaking alone, without impact to the head, may cause severe intracranial injuries, not the least because there is little reliable biomechanical data available. Due to this, it is can be very difficult to assess whether a child can be safely left with their caretakers or should be taken away from the parents, nonetheless, these are life or death decisions. Combining physical (doll) models and computational models may be the key to solving this long-lasting debate.

Last Application Date: May 15th, 2022

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17. PhD Position ERC ACC-3D multi-scale modelling of auxetic cementitious composites

Summary of Doctoral Project:

Concrete is inherently brittle. This is a problem because important structures such as nuclear power plants need ductility to remain functional after earthquakes and impacts. Auxetic Cementitious Composites-3D (ACC-3D) aims at creating novel, ductile cementitious composites by using local reinforcement architectures with an unusual quality, negative Poisson’s ratio, known as auxetics. Currently, steel rebars or fibers are used to make concrete ductile. Such reinforcement is only active once the concrete has cracked: it prevents existing cracks from growing. Cracking might leave structures unfunctional or vulnerable to repeated events and aftershocks. Can we make reinforcement actively work with concrete already before cracking by making it auxetic? This has never been attempted before.

Last Application Date: May 15th 2022

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18. PhD in Designing Digital Health Devices for a Circular Economy

Summary of Doctoral Project:

TU Delft’s department of Sustainable Design Engineering has an opening for a PhD candidate, who will research and redesign digital health devices for a circular economy, with the aim of developing circular design guidelines for the field. Using the Research through Design methodology, you will redesign four medical devices with electronic components (e.g. a wearable diagnostic sensor) to enable their refurbishing, remanufacturing, and recycling and to nudge users (e.g. patients who use the devices at home) to responsibly return the devices after use. Your responsibilities will include a literature review on best practices, the (collaborative) design, prototyping, and functionally & user testing of your concepts, working with a recycling center to analyze shredded remains of the products, scoring product circularity with existing or new metrics, performing fast-track life cycle assessments to estimate the environmental impacts, developing circular design guidelines, and writing academic journal articles on the results of your work.

Last Application Date: May 15 2022

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19. PhD position on “Ethics of artificial intelligence in the defence domain”

Summary of Doctoral Project:

Military AI-enabled systems pose serious ethical, legal and societal challenges. Considering the unique nature of work in the defence domain, the stakes are immense. Several scientists and activist groups have warned against the potential arising of “killer robots”, i.e., autonomous weapon systems that select and attack targets without meaningful human control. Other applications of AI in defence are also subjected to ethical and legal objections, such as AI systems that play a role in providing situational awareness or collecting intelligence. These applications can have serious ethical and legal ramifications as they may for instance bias decision-making processes on morally sensitive issues. The use of AI technology in defence means handing over some degree of autonomy and responsibility to machines, which may impact human agency, human dignity and human rights in warfare.

Last Application Date: May 16, 2022

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20. PhD position AR/VR interactive techniques for education

Summary of Doctoral Project:

During the last years, distance learning has become ubiquitous. Nevertheless, mixed-reality in an educational scenario is still limited and under-explored due to many standing challenges, especially regarding interactivity. This project is in collaboration with other universities and industry partners around Europe. It aims to shed light on the current issues and propose novel and exciting mixed-reality solutions for education. Within the project’s scope, we aim at developing novel interaction, navigation and visualization methods for mixed reality to allow for effective visual communication and improve the educational experience. A more specific goal, for example, is to facilitate demonstrations and collaborative tasks. Some of the possible research directions within Computer Graphics and Visualization are non-photorealistic rendering and illustration techniques for AR/VR, gaze guidance, and camera and location management to enhance physical awareness.

Last Application Date: May 20, 2022

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21. PhD Position Modelling nonlinear structural dynamics in marine fluid-structure interaction

Summary of Doctoral Project:

Marine hydroelasticity investigates how vibrations of marine structures (both ships and floating platforms) interact with the hydrodynamic loading from the sea. Current methods can solve most linear problems efficiently, and the focus has shifted to nonlinear cases. For example, when large and stiff cargo (such as a stack of containers, large pieces of machinery or even entire platforms) is loaded on the ship, the contact between the two flexible bodies cannot be resolved with linear solvers. The aim of this PhD project is to develop and validate a method that can resolve fluid-structure interaction with structural nonlinearities. This will be achieved by combining methods from nonlinear structural dynamics and a strong coupling with existing linear hydrodynamic solvers.

Last Application Date: May 22, 2022

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22. PhD: Role of the cytoskeleton in cell membrane electroporation and cargo translocation

Summary of Doctoral Project:

New genome editing tools promise to repair cell functions at the source. However, they require the delivery of nucleic acids and/or gene editing enzymes directly into cells. Electroporation by transient disruption of the membrane under electric pulses can in principle deliver cargo molecules straight to the cytosol. However, the mechanisms that determine the efficiency of electroporation across the cell membrane are unknown. We recently discovered that the actin cytoskeleton, a crosslinked network of filamentous proteins that lines the cell membrane, plays an important role in the barrier function of the cell surface. The aim of this experimental PhD project is to reveal the biophysical mechanisms by which the actin cortex and the membrane together govern electro-transfer of nucleic acids and proteins across the cell membrane.

Last Application Date: 30-05-2022

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23. PhD or Postdoc position on modeling of the atmospheric impacts of aviation emissions

Summary of Doctoral Project:

Aviation emissions adversely impact the environment, contributing both to air pollution and climate effects. The projected growth in aviation emissions and projected decline in emissions from other energy and transportation sectors, result in aviation emissions’ impacts being increasingly important in both absolute terms and relative to other sectors. State-of-the-art atmospheric models that simulate the chemical and physical processes in the atmosphere are employed to assess the resulting atmospheric effects of emissions, as well as to understand the underlying processes and how they may evolve in the future. This position aims to utilise such models, together with observations, to extract metrics applicable in engineering and regulatory decision-making for sustainable aviation. Outcomes of this research are aimed to help guide decisions towards minimising the associated environmental impact of future aircraft and operations.

Last Application Date: 31 May 2022

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24. PhD position: Understanding practices and stakeholder experiences of patching security in organizations

Summary of Doctoral Project:

We are looking for a motivated researcher interested in collecting and analyzing various types of data from within the partner organizations—such as interviews, surveys, ticketing systems, and incident logs—to understand the organizational and technical practices around patching. Your degree and experiences could be from social science or an interdisciplinary program, but also from information system, telecommunications or computer science. You could have a background in social and organizational research and be willing to learn about the technical factors at play. Or vice versa: you could be a technically trained person with an interest in the social aspects. You would work in close collaboration with researchers from computer science and social science disciplines.

Last Application Date: Open until filled

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25. PhD Position Smart Meta Membranes to fight against (bio)fouling

Summary of Doctoral Project:

Currently fouling is the major obstacle that hinders the long-term operation and wide-spread utilisation of membranes in various applications. A promising solution to fouling is introduction of stimuli-responsive membranes, whose pore sizes and/or surface properties can be altered via external stimuli. While first stimuli-responsive membranes have been proposed and demonstrated in the literature, their means to control the gating state are infeasible for countering fouling in an economically and ecologically feasible way. In this PhD project you will develop a novel type of smart membrane that counteracts fouling via mechanical and electromechanical agitation.

Last Application Date: 31 May 2022

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26. PhD Position Optical Methodologies for Protein Sequencing

Summary of Doctoral Project:

Genome sequencing has become a standard technology in biomedical research. The technique is used to diagnose inherited diseases, target treatments, and identify health risks. Certain gene variants can increase a person’s risk of diseases such as cancer and heart conditions. This technology makes use of innovative reagents, in combination with an optical microscope. A major drawback of this technology is that it only reveals the genetic baseline of biological processes. The ability to measure the make-up of not only the genome but of proteins and protein expression, would create an enormous scientific opportunity as proteins are at the basis of all biological processes. We envision the realization of such protein sequencing methodology by building on recent developments in super-resolution microscopy. Super-resolution microscopy allows for circumventing the diffraction limit, to visualize otherwise invisible details within the cell. Super-resolution microscopy combines clever optical microscope designs followed by sophisticated image reconstruction.

Last Application Date: June 1st, 2022

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27. PhD Position on Learning-based cooperative multi-agent control

Summary of Doctoral Project:

In this PhD project we will develop a framework for multi-agent learning aimed at cooperative control of a group of autonomous systems. More specifically, we address two challenges: (1) developing efficient methods for multi-agent learning in the presence of operational constraints, uncertainty, and at a later stage also memory and communication constraints, and (2) integration of the developed approaches with model-based (multi-level) control for increased performance. In the research we will focus in two classes of systems: linear systems and hybrid systems (in particular piecewise affine systems). The project has a strong fundamental flavor. In addition, applications for the case studies include mapping and control of multiple autonomous underwater robots (this also includes dealing with the limited capabilities and constraints of underwater communication).

Last Application Date: May 31, 2022

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28. PhD position Origami-based Flexible Architected Materials for High-Tech Equipment

Summary of Doctoral Project:

The semiconductor industry expectations for lithography machine performance demand ever-increasing capabilities, such as throughput, lifetime, cleanliness, sustainability, and precision for mechatronic systems. One of the key construction elements in high-tech mechatronic systems is flexible (i.e. compliant) mechanisms. Unlike their rigid-body counterparts, they allow motion in the desired directions enabled by their slender parts which deform elastically. Due to their monolithic nature, cleanliness, and predictability, they are desired in precision applications. Despite these advantages, flexible mechanisms are one of the main road blockers for high-tech mechatronic systems to achieve higher throughput, i.e. higher process speed and acceleration. This is due to their inherent drawbacks such as limited range of motion for a given design volume and low load bearing capacity (i.e. support stiffness).

Last Application Date: April 30, 2022

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29. PhD Position Navigational Integrity for Autonomous Surface Ships

Summary of Doctoral Project:

In this research project, Navigational Integrity for Autonomous Surface Ships, there is a PhD position for four years. Safety expressed in terms of accuracy, availability, continuity and integrity are among the key criteria for all autonomous systems. A big challenge for the future autonomous surface ships technology is to show that an unmanned system is at least as safe as a manned one. This problem includes a few elements such as avoidance of collisions with other ships and obstacles, safe ship navigation, and their real-time monitoring depending on weather conditions such as wave height, wind speed, wind direction and wave period. Integration of a series of on-board sensors and external factors are key elements of safe navigation. Among them the GNSS systems working in different setups such as D-GNSS, SBAS, NRTK, assisted GNSS and signals of opportunity, combined with other sensors such as magnetometer, acoustic, gyro, inertial, radar, laser and optical sensors along with integrated ocean observing systems (IOOS) can provide valuable source of information.

Last Application Date: 30 April 2022

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30. PhD Position in high-precision opto-mechanical microchips to analyse cell bio-mechanics

Summary of Doctoral Project:

In this project, we aim to utilize silicon photonics and optomechanical microchip technology to realize the next-generation platform for cell analysis. This revolutionary opto-mechanical sensory systems can be used to study cells by dynamically measuring their morphological, mechanical, and molecular properties at high speed, high resolution, and in 3D. To create such novel sensory systems, you will use concepts based on integrated photonics (chips that work with light), opto-mechanical sensing (sensing mechanical deformations with light), biomaterial engineering (materials with different shapes and stiffnesses that give mechanical cues to cells), and high-resolution 3D bio-printing. The research includes all aspects of designing, characterizing, fabricating, and incorporating opto-mechanical sensory systems in biomedical devices.

Last Application Date: May 1st 2022

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31. PhD candidate in haptic human-human interaction

Summary of Doctoral Project:

We are looking for a highly-motivated PhD candidate interested in performing cutting-edge research to study a new paradigm that remotely connect humans on a physical level using unobtrusive haptic feedback to improve training and rehabilitation. Practice makes perfect; and this is especially true for rehabilitation training. During training, haptic feedback provided by therapists guides patients movements and facilitates rehabilitation. But, since therapists’ time is limited, physical contact is not always possible, and patients are for the most part dependent on self-practice at home. Without haptic feedback from therapists, self-directed training is less effective and can even cause incorrect learning due to human motor redundancy. Ideally, patients could access a remote or virtual trainer who would provide them with intuitive and natural haptic guidance.

Last Application Date: April 30th 2022

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32. PhD Position in experimental wind farm control

Summary of Doctoral Project:

In recent years the TUD has developed several scaled wind turbines, with a diameter of 0.6 meter, that have been tested in several wind tunnels. While the flow and structural properties are different in a real wind farm, the fundamental dynamics present will also be captured in wind tunnel experiments (e.g. development of a wake, wake propagation dynamics). In this Ph.D. project, the turbines will be equipped with the control degrees of freedom to enable active wake mixing using IPC. Moreover, the setup will be equipped with a system to simulate reproducible time-varying conditions to test the robust closed-loop control framework and the HELIX wake mixing concept. The proposed experimental testbed is unique in the world and it will allow for quick tests and development of the overall wind farm control framework.

Last Application Date: 1 May 2022

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33. PhD position ERC ViSioN: Virus Spread in Networks

Summary of Doctoral Project:

The project “Virus Spread in Networks” (ViSioN) is funded by ERC as an Advanced Grant 2020. ViSioN starts from a Network Science view on virus spread in networks in which the duality between the virus transmission process and the contact graph is key. The devastating Corona crisis reveals two major shortcomings in traditional epidemiology. First, it ignores the human contact graph and implicitly assumes a homogeneous population without specific graph structure. Second, most models for the virus spreading process relate to a Markovian setting, with exponential infection and curing times, leading to an exponential decay of the epidemic. Measurements, however, point to significantly different infection and curing time distributions. In addition, digital technology can help in constructing the contact graph and combined with medical testing, all infected can be detected.

Last Application Date: May 1st, 2022

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34. PhD Position Basin-scale geology of the Paleozoic of the south-eastern Netherlands and surroundings

Summary of Doctoral Project:

The PhD project we offer focusses on the geology of the Paleozoic (Devonian-Caroniferous) rock succession in South Limburg, the Netherlands and neighbouring countries. The project aims to considerably improve the understanding and (hydrostratigraphic) characterization of the subsurface, to produce an improved 3D geological model focussed on Paleozoic stratigraphy, structural setting and (hydrostratigraphic) rock properties. This will be done by collating and using legacy data and producing new data, which will be integrated into a comprehensive geological model. Legacy data comes from various sources and will be collected in collaboration and consultation with specialists in each field. New data include seismic 2D lines and data from the new tTEM system, a ground-based method for electromagnetic data acquisition that allows for very efficient ground-penetrating surveys to identify faults and other geological structures. Moreover, new smart boreholes are planned within the project targeting key lithological transitions to validate the geological interpretation of seismic lines, which are key to building the geological model.

Last Application Date: May 1st 2022

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35. PhD Multimodal, AI-Driven Process Monitoring of Cold Spray for Rapid Diagnosis and Repair

Summary of Doctoral Project:

Cold spray is an exciting but little known new metal deposition technique, which can offer great benefits for repair of aircraft components. It offers the ability to repair parts that are currently unrepairable and in future could be used to manufacture completely new parts. Within this project you will help develop cold spray into an automated repair technology for the aerospace sector. The aim of the project is to develop an AI system which receives data from multiple sensor types to predict the final properties of a repair. Your activities will include selecting suitable sensors, understanding the link between sensor data and repair properties, and developing AI algorithms which can extract the required information from the sensor data. The project will therefore involve a mix of experimental and modelling work, as well as algorithm development.

Last Application Date: May 1, 2022

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36. PhD cryo-CMOS Testing and Reliability

Summary of Doctoral Project:

In this PhD project, you will collaborate with QCE and QuTech experts in quantum device technology, circuit design, and microarchitecture to investigate the quality and reliability of cryo-CMOS devices and circuits. We will study the behavior of these components in the presence of reliability issues, such as fabrication defects, variability, and aging, and their potential impact on the functional behavior and the performance of the quantum-computer electronic interface. Solutions and designs for reliability and testability will be developed to ensure the delivery of the system requirements.

Last Application Date: May 1, 2022

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37. PhD Position Physico-biogeochemical processes in the transition of sediment to soil

Summary of Doctoral Project:

Increase of sea level and land subsidence necessitate enforcement of dikes. In north-western Europe, aged marsh soils have traditionally been used for this purpose, which are a scarce and hardly renewable resource. The project Sediment-to-Soil (S2S), financed by the Dutch Science Foundation (NWO), will study, optimise and predict the transition of fine-grained sediment dredged from ports, waterways, barrages or sluices, to soil for use as alternative earthen construction material. Improved mechanistic understanding and predictability of the ripening processes is necessary to assess the material’s long-term biogeochemical and structural stability as well as environmental compliance and carbon footprinting of constructions from ripened dredged sediment.

Last Application Date: May 4th 2022

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38. PhD position Predicting Extreme Events in Complex Work Environments 

Summary of Doctoral Project:

This PhD position leverages the fields of cognitive robotics, human-robot interaction, data science, and probability and statistics concerning extreme events. The combination of these research fields is promising for predicting and potentially preventing critical and extreme events in complex work domains that involve human-robot interactions based on large amounts of sensed data. This project is a collaboration between the departments of Cognitive Robotics (COR) and Maritime & Transport Technology (MTT) within the Faculty of 3mE at TU Delft. This interdisciplinary position considers how we may be able to predict extreme events through large-scale data collections in complex working environments, and consequently how designers and operators can potentially prevent such extreme occurrences by means of real-time guidance presentations.

Last Application Date: May 5th, 2022

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39. PhD Position Subsurface Water Storage in the Dutch Coastal Delta

Summary of Doctoral Project:

In this PhD position, you will investigate how fresh water can be drained from agricultural lands in wet periods and stored in brackish aquifers. The stored water can be re-used later for irrigation in dry summers. This technique is called aquifer storage and recovery (ASR). You will assess 1) how ASR can be realized at large scale by means of multiple interconnected systems, and 2) how an ASR system can be designed to optimize both the recovery of fresh water and the improvement of water quality, especially the removal of plant pathogens to prevent crop diseases. Furthermore, you will 3) investigate how the water quality changes during subsurface irrigation of crops with the recovered water from the ASR systems.

Last Application Date: 9 May 2022

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40. PhD position on Biophysics of single-molecule nanopore scanners

Summary of Doctoral Project:

Nanopore technologies are exciting emerging platforms for high-resolution biomolecule sensing and sequencing. On one hand, they enable important discoveries in fundamental biology at the single-molecule level and, on the other hand, they show great promise for applications in molecular diagnostics. In our group we develop multifunctional nanopore setups with the goal of combining high-throughput and high-resolution sequencing capabilities. In this interdisciplinary project you will develop acoustic resonators to manipulate and detect single molecules in nanopore devices. Your tasks will be to i) design and fabricate acoustofluidic devices, ii) integrate the devices in a nanopore setup and demonstrate controlled single-molecule transport using electrical and/or optical readout schemes, and iii) demonstrate multiplexed actuation and detection of biomolecules in space and time.

Last Application Date: May 8th, 2022

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41. PhD Position Innovative Polder Water Management in the Dutch Coastal Delta

Summary of Doctoral Project:

A 4-year PhD position, financed by the Dutch Science Foundation (NWO), is available within the recently awarded research project AGRICOAST: Climate-resilient agriculture in the Dutch salinizing coastal delta: innovative water management, adaptive agriculture, and promising transition pathways. AGRICOAST intends to develop various water management and water saving solutions to climate-proof agriculture in the Dutch coastal delta. A total of 4 PhD positions & 1 PDEng position in varying scientific and engineering disciplines are available now including the one advertised here.

Last Application Date: May 9th 2022

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42. PhD Position AI/ML-based Optimization of Wireless Network

Summary of Doctoral Project:

The successful applicant will work at the nexus of AI/ML-based optimization techniques and networks in collaboration with top-notch industry such as Telefonica, Nokia Bell Labs, NEC and others, in the context of a large-scale H2020 project (DAEMON).

Last Application Date: May 13, 2022

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43. PhD Reincarnate

Summary of Doctoral Project:

The PhD project will focus on developing concepts for the adaptive reuse of functionally obsolete buildings to extend their functional lifetime, incorporating circular economy principles. The project should furthermore develop knowledge about possibilities to reuse real estate space for different purposes. A specific focus will be to develop knowledge about how buildings can be upgraded to respond to changing requirements with respect to occupant comfort and operational requirements across real estate portfolios, applying circular decision making for real estate assets. Although adaptive reuse itself can be considered as a circular approach, past approaches have not considered the full potential of circular building approaches, by for example considering alternative (off site) re-use purposes of building components as well as re-usability and adaptability of the building after the initial intervention.

Last Application Date: May 15, 2022

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44. PhD position on artificially intelligent networks

Summary of Doctoral Project:

Modern networked systems are some of the most complex things ever created, composed of vast intertwinings of systems and protocols distributed over wide areas. Unfortunately, the complexity of these systems is increasingly exceeding the ability of humans to effectively reason about and administer them. In this PhD project, we will explore the use of computer-assisted intelligence to build self-managing networked systems. This project will be executed at TU Delft, within the lab of Fernando Kuipers (https://fernandokuipers.nl), but will be performed in collaboration with the University of Illinois at Urbana-Champaign, USA

Last Application Date: May 15, 2022

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45. AI Futures PhD Position 1/4 (New human-AI interactions)

Summary of Doctoral Project:

The AI Futures lab will investigate the possibility of AI development that support remote work in ways that encourage human flourishing by combining post-industrial design research and methodologies in machine ethnography, experiential AI and in the wild AI prototyping comprehensive engineering and design for values. We will explore configurations of people and AI around remote collaboration and distributed work, with the aim to expand both scientific knowledge and public understanding of AI capabilities. This will result in a tangible and vibrant set of prototypes, experiences and theories that map out ways in which design can be engaged to deploy artificial intelligence and machine learning in support of new ways of working. By prototyping new relationships WITH AI that are respectful of human agency, rights and justice, we will open up spaces for new developments IN AI.

Last Application Date: April 24, 2022

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