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| ## page was renamed from CSC || /!\ Due to the situation of COVID-19, considering that we might have difficulties in providing good quality support for the new PhDs in 2021, the department of Industrial Design of TU Eindhoven has temporarily decided not to open positions for CSC supported Ph.D. and PDEng applications, with an exception for a research topic as described below. We will reevaluate the situation in 2021. /!\ || |
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| '''PhD in''' | {{attachment:tue.jpg||align="right"}} '''PhD in''' |
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| '''Creating intelligent systems, products and related services in a societal context''' | '''Design of Systems with Emerging Technologies in a Societal Context''' |
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| '''at Department of Industrial Design, Eindhoven University of Technology''' | '''at Department of Industrial Design, Eindhoven University of Technology''' |
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| '''2017''' | '''2021''' |
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| The department of Industrial Design (ID) of the Eindhoven University of Technology (TU/e) is located in a highly industrialized region, known as ‘Brainport’. This region is internationally recognized as a top technology area with a special focus on the integration of design and technology. The department was established in close collaboration with the technological industry, and, because of this, focuses its research on the Design of Intelligent Systems, Products and related Services in a societal context. With these intelligent systems it aims at offering new, breakthrough possibilities leading to societal transformations. Innovative solutions today increasingly address a complex web in which products, services, technologies and user needs are interwoven. This in turn means that innovation is increasingly dependent on agreements within larger groups of stakeholders. Companies can no longer rely solely on technology breakthroughs and incremental product development. Effective differentiation and real added value for the consumer are achieved by incorporating end-user insights in product innovation. This takes on an added significance when designing solutions for the emerging connected, digitally enabled world. Products and services are increasingly overlapping, everyday products are more intelligent and adaptive, and the focus is on ‘systems' rather than stand-alone devices. Additionally, user needs are evolving over time. Maintaining simplicity and understanding the user in such a landscape becomes a challenge. The need to be connected and the need for the customer to be an integral part of the value chain has forced all leading industrial and political bodies to incorporate human values, needs and desires from the very beginning of the innovation process. Innovation in this climate requires social science, design, engineering and business to be brought together in an interdisciplinary way. Industrial design should simultaneously support and catalyze the contributions of all participants, enabling a collaborative exploration of potential futures that can be translated to each partner's individual perspective. As society exits the Industrial Age, so the excesses of daily production and consumption patterns are becoming evident. The ‘old-new' way of doing things, based on productivity and more of everything and faster, was based on the metaphor of the machine. Today, the issue is about relevant and meaningful innovation for society, for cultures and for people. Integration of the Design, Engineering and Social Sciences perspectives will enable us to create intelligent systems, products and related services in a societal context based on ‘human values' rather than on the ‘efficiency' criterion that has saturated today's design. Applicants to this PhD research shall have a background in industrial design, digital arts and interactive media, human-computer interaction, computer science, information technology, electrical engineering, bio-medical engineering, mechanical engineering and physics. We are aiming at recruiting up to 8 CSC Ph``Ds in 2016. The applicants can apply for one of the following topics: 1. ''Interactive Sound in Everyday Life''. In this project you will explore the possibilities of sound at the interface with everyday life. Compared to the visual modality, the auditory modality exists over space, i.e. you do not have to face the source of sound to hear it. This makes sound well suited to support so-called ‘eyes-busy, hands-busy’ tasks. It can be used to support people's main task, to monitor ongoing tasks, or to carry out a secondary task in the periphery of your attention. In this project we will investigate the qualities of sound that make it the prime modality to support peripheral interaction. A drawback of using sound is that it cannot be ignored by other people in the environment for whom the ongoing interaction is not relevant; people can not close their ears! This gives rise to special challenges to the sound design of the information. The aesthetical qualities of the sound design should be informative for users interacting with the auditory interface but also valued for of its ‘beauty' by people who do not have a stake in the interaction. The specific application that will be chosen in this project will be decided upon after an initial phase in which the literature will be studied and some small explorative sound design studies are conducted. For now we envision two possible application domains that link to other projects in the department: the ‘Peripheral Interaction' project in which the use of audio to support the communication between children or students with their teachers could be further investigated, or the ‘Materialising Memoires' project in which the importance and use of audio for supporting people’s autobiographical memory would be the focus. A PhD student working in the ‘Interactive Sound in Everyday Life’ project should have a strong interest in sound (and music) and preferably has experience in sound design for music or other application domains. |
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| 1. ''Wearables for Vitality''. One of the major problems regarding the long-term health perspective of adult people in developed countries is the fact that many people lead a largely sedentary lifestyle. There is ample evidence that this can lead to (the onset of) chronic diseases such as cancer, diabetes and/or cardio-vascular problems. This is sedentary lifestyle so deeply embedded in many cultures that many people are not even remotely aware how much they are sitting and what this means for their health. Thanks to the development of recent sensor technology the registration of the actual (lack of-) activities is not so much of a problem; representing the accumulated information to users in a (persuasive) manner that influences daily work-patterns/rituals/etc. definitely is. Although, in theory, the representation of information via commonly used devices (such as smartphones) is definitely possible this project aims at more unobtrusive and persuasive data representation via, for example, integration of data representation into active wearables thus creating awareness of the (lack of) activities not only on a cognitive level but also on a subconscious level allowing a faster and more thorough integration into daily life. | <<TableOfContents>> |
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| 1. ''Interactive Machine Learning''. As the products becoming intelligent, they will be able to learn our behaviors by connecting all of the piece of data we generated intentionally or unconsciously. With the advanced machine learning technologies, the computers will build artificial models to represent users’ preferences in specific contexts. They will also use the knowledge to predict and execute specific actions when a known user was presented. However, due to lack of understanding on the machines’ learning and reasoning process, it was found that users usually questioned the system’s suggestions and didn’t perceive the smartness. To address this problem, we think that the machines need to be able explicitly express their logics for users to easily figure out where the misunderstanding came from. Based on this ability, the users would be able to tune the functions and collaborate to build real intelligent systems for serving their daily lives better. In this project, we are looking for candidates who are interested at machine learning and interaction design. We’ll study the human behaviors, build interactive prototypes, collect the data in the living labs, and collaborate with machine learning experts to investigate how could we make use of artificial intelligence in creating natural and seamless interactions. As a result, people could play the role to optimize the total performance and enjoy the better services with the truly intelligent system. Requirements for candidates: having basic knowledge of machine learning and affinity with data visualization. | == Introduction == Eindhoven University of Technology (TU/e) is among the top 100 universities according to the QS Global World Ranking. It is located in a highly industrialized region, known as ‘Brainport’. This region is internationally recognized as a top technology area with a special focus on the integration of design and technology. The department of Industrial Design was established in close collaboration with the technological industry, and, because of this, focuses its research on the ''Design of Systems with Emerging Technologies in a Societal Context''. |
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| 1. ''Dynamic interactions on the control''. One of the important applications of IoT is automation. When the smart products have the intelligence to learn our behaviors and predict what we might desire, they could do great jobs in minimizing our efforts in setting the suitable environment. In many academic and marketing studies, this automation is much appreciated by many early adaptors. However, it’s also found that people are not always satisfied with the system’s recommendations. In fact, people desire to have control and want a variation in the environment settings, especially when multiple people are involved in the social interactions. It becomes a challenge in providing dynamic interactions to facilitate people and the intelligent system deciding the authority of the control at different situations. Should the machines discuss with the users before triggering any functions? Or do they only need to ask when they don’t have enough confidence on doing the jobs? Human and machines have different kinds of abilities and strengths. For example, people are especially good at patterns recognition, dealing with the unexpected situations, and setting high-level goals. On the contrary, machines are good at repeated tasks, continuously sensing, and handling numerous data. The new IoT technologies facilitate designers to add new possibilities to build a good collaboration between human and machines. We will explore various frameworks of ideas to investigate how to provide a suitable balance of control between human and machines. We are looking for candidates who are interested at IoT and interaction design. Requirements for candidates: having practical experience on interaction design and affinity with Arduino. | === PhD program Industrial Design === Changing demographics and social structures are putting several key human values of modern society under serious pressure; these include social inclusion, sustainable healthcare and healthy ageing. Department of Industrial Design envisions a world where these fundamental human values are addressed through interactive and evolving product-service-systems. The goal is to empower people towards a state of complete physical, mental, emotional and social well-being, through the creation of interactive and (co-)evolving systems where future technologies and humans co-adapt to achieve qualities beyond utility and usability. |
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| 1. ''Exploring practices of resourcefulness through design''. Resourcefulness emerges in (everyday) situations that, to a greater or less extent, deviate from normal practice (Giaccardi et al. 2016). Resourcefulness is not a property of a person or a technology alone. Rather, it is something that emerges from the way they work together (Wakkary and Maestri, 2008). Broadly speaking, resourcefulness exists in the motivation and ability to creatively adjust available means to purpose, as well as a certain allowance of means to place judgments about their ways of use and purpose in the situation at hand. Resourcefulness can therefore be seen as what Schatzki (1996) would call a dispersed practice. While many arguments can be offered about its value for quality of life (inclusiveness, resilience, satisfaction, being in control), little is yet known about the composition and dynamics of this practice, and the ways in which it might be fostered through design. The PhD candidate will conduct design research to explore practices of resourcefulness through the development of a series of artefacts, their deployment and reflection on both development and effects in everyday practice. The aim is to work towards enriched understanding of resourcefulness in everyday life as well as a set of guidelines to design systems, products and related services that facilitate it. Candidate requirements: experience in interaction design and prototyping, preferably experience with field deployment studies. | As a PhD student, you will work on research topics related to the aspects above by exploring future technology (Research-through-Design) through probing prototypes in everyday-life settings (e.g. Experiential Design Landscapes). |
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| 1. ''Sleeping, health, bedroom climates and energy''. Since a few decades, the Netherlands, like other countries in moderate climates is seeing a rising norm to mechanically heat bedrooms during the night. The heating of bedrooms is facilitated by a spreading of gas central heating, but thrives on more than technological developments alone. Rationales underlying the trend of sleeping-in-a-heated-space relate in part to rising standards of comfort, but also to health. Health professionals recommend, and actively promote bedroom temperatures that imply mechanical heating in bedrooms during times of colder weather. However, other studies find that sleeping in a heated room may have adverse health effects, and the energy implications of heating bedrooms – and often by default the entire house – at night are significant. In this PhD project, the researcher works at the contested touching points of sleep, health and bedroom climate (in the broad sense). This includes materially exploring relations between sleep, health and bedroom climates, as well as developing feasible alternatives to centrally heated bedrooms and homes during times of sleep. Requirements for candidates: experience in interaction design and prototyping, preferably experience with field deployment studies. | == Expected Background == Applicants to this PhD research shall have a background in industrial design, digital arts and interactive media, human-computer interaction, computer science, information technology, electrical engineering, biomedical engineering, mechanical engineering and physics. |
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| 1. ''Seamless interaction in everyday life''. Smartphones and tablets are penetrating all facets of everyday life. The functionalities of these devices have made our lives arguably easier while at the same time they made us more distracted from our direct surroundings. This project will rethink and redesign the way we interact with the digital world. Current devices are usually designed to be operated with focused attention, barely leaving any attention to be devoted elsewhere. Recently, such systems have also begun to involve autonomous system behaviour that takes place outside the user’s behest. In everyday life, people perform actions with varying levels of attention. For example, we routinely wash our hands in our periphery of attention while focusing on having a conversation, or we might consciously focus on washing our hands if trying to remove paint from them. Interactive systems currently cover only two extreme ends of a full spectrum of human attention abilities. With computing technology becoming ubiquitously present, the need increases to seamlessly fit interactions with technology into everyday routines. This project will explore how to design interfaces that can be operated at varied levels of attention. Additionally, it will explore interactions that can shift between focused attention, periphery of attention and autonomous system behaviour. The project will focus on making prototypes which can be used by people in their home environment. These prototypes should make everyday interactions with technology more seamlessly embedded in people’s everyday routines. | == Research Topic == We are aiming at recruiting one CSC PhD in 2021 for a Double PhD degree in collaboration with Zhejiang University |
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| 1. ''Posture monitoring and posture correction'' technologies can be useful in supporting physical therapy, e.g., for motor control training in musculoskeletal disorders, such as shoulder, neck, or low back pain, as well as for arm-hand training after stroke or spinal cord injury. Among the various technological options for posture monitoring, wearable systems offer potential advantages regarding mobility, use in different contexts and potentially sustained tracking in daily life. Posture monitoring can support both prevention and revalidation when combined with motor learning and behavior change interventions.This PhD will continue a successful track of research in wearable systems to support posture monitoring and rehabilitation, proceed through an iteration of design innovations that are conceived, executed and evaluated in collaboration with clinical expert, by * Embedding textile electronics in current solutions to enhance comfort, wearability and aesthetics * Addressing a wider user group (e.g. extending to different ages, genders, and pathologies) * Combining behavior change strategies to support tailoring and personalization of feedback in order to support rehabilitation and enhance compliance by patients * Seeking clinical validation of wearables as tools to support rehabilitation for specific pathologies * Enhancing wearables that are supported by interactive applications with actuation to enable new forms of feedback for patients * Allowing customization and end-user configuration of solutions presented * Supporting home training rehabilitation scenarios * Seeking generalizable solutions and methods for using wearables in a rehabilitation and prevention context. * Studying innovation processes regarding the integration of wearables use in current clinical practices * Introducing intelligent approaches to feedback personalization and adaptation |
In the context of the ZJU-TU/e Joint Research Institute of Design, Optoelectronics and Sensing (IDEAS), the TU/e candidates will join the Collaborative efforts in design research on health-related applications utilizing the advances in optoelectronics and sensing technologies, aiming at double degrees from TU/e and ZJU, under the condition that the requirements of the degree conferment from each Institution are completed, complying to relevant regulations. 1. ''Connected Everyday Objects for Managing Stress in Children''. Research has shown that the use of robots is effective in helping children in mitigating stress and anxiety, and in improving their social skills, especially for children with Autism Spectrum Disorders (ASD). Both TU/e and ZJU have a track record in this research area, from the perspectives of human-computer interaction and utilizing new sensing technologies. The objectives of the proposed joint research are two-fold: * The first objective of this project is to embed the proven benefits of the robotic technologies with the everyday products that are equipped with advanced non-invasive sensing technologies that can provide context based on physiological measurements and other information that this sensing can provide, for managing stress in Children with ASD. We will also investigate how the collected data could be utilized in detecting patterns and abnormalities and in engaging social ties and professionals. * The second objective is to utilize the same technical platform for managing stress in Chinese children with high study load and expectations. In China, primary school children have to work hard even during the off school hours with heavy study load, due to the highly completive education system with emphasis on school performance, intolerance of failure and high expectations from parents, relatives and friends. Connected everyday objects would help the children to manage their stress with playful interaction. Connectivity would provide the information to social ties such as parents and teachers for proper social intervention if necessary, and for proactive co-management of the stress of children. |
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| 1. ''Design and implement novel Crowdsourcing Systems''. Crowdsourcing can be loosely defined as a task that can be given to a large, anonymous group of users, connected through the Internet and the users' aggregated response constitutes a solution to the task. Commercial examples include: Amazon Mechanical Turk, Google Surveys, Usability``Hub and Zhubajie, just to mention few. Crowdsourcing has been applied from its very beginning to a plethora of creative industries; designing clothes; designing graphics; photography and animation. In spite of the all the existing services, crowdsourcing is still in its infancy. In this project you will be asked to explore ways in which crowdsourcing can support designers and design work. Such a project raises several research questions: what part of designer's work can be crowdsourced? How much of the designer's context is necessary for crowdworkers to be able to perform the requested tasks? What are the privacy concerns and how can they be addressed? The project shall proceed following an action research approach, designing, developing and deploying a platform for crowdsourcing, and using it in the context of design projects. Requirements for candidates: Affinity with software development, online communities/social media, interaction design is required. | == Application Procedure == It is a two-step process: |
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| 1. ''Complex Adaptive Systems''. Industrial Design is not just about individuals interacting with isolated devices. People act in social networks via a wide variety of social media and mobile internet platforms and internets of things. People, communities and platforms co-evolve. No single stakeholder has full control over these systems, their evolution or their behavior. Yet it is important that designers participate in, or even lead the the design and evolution of these systems, addressing values, feasibility, usability and aesthetics, even before these systems are in operation. The research objectives are to understand the nature of complex adaptive systems, to know examples and to master tools for analyzing the complexities by simulation. | 1. Applying with us. According to the quality of the application documents, you might be invited for an interview (video conferencing, if necessary). If the interview gives positive advice, you will be offered with the admission letter, with a tuition fee waiver. 1. Applying at CSC. We will help you adjust, refine and improve your research proposal, and help you improve the quality of other application documents. We will assist and advise you throughout the CSC application process. |
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| 1. ''Social internet of things for well-being''. We explore the impact of social networks, internet of things, augmented reality and new lighting and display technologies in on the modern society, the impact of the bottom-up power and the much flattened structure of the social media on societal transformations, the impact of the social and systematic perspective of intelligent systems, products and related services on industrial design, and in turn, the possible impact of industrial design on these on-going societal and technical changes. Application-wise the design research on social computing and internet of things can be integrated with health and care. We are interested in the issues and opportunities of applying new material and technologies in lighting, displays, wearables and mobile devices for social wellbeing, for example designing connected environments in which the inhabitants are empowered by wearable senses and smart things for social bounding, and designing interactive art installations that augment architecture, landscape and public arts with digital and social media in public spaces for social connectedness and inclusion. More about research at ID, TU/e: http://wiki.id.tue.nl/CSC/ResearchAtID More about PhD programs at ID, TU/e: http://wiki.id.tue.nl/CSC/PhDProgramsAtID More about the requirements in applying the Scholarship from China Scholarship Council (CSC) for Chinese PhD candidates: http://www.csc.edu.cn/Chuguo/4da22db7e3924cdba487d4c8f403efa0.shtml and http://www.csc.edu.cn/Chuguo/87a7f72abd1e4dffb3b9ddcea536ff87.shtml If you are interested in applying, please first address your interest to dr. Jun Hu: j.hu@tue.nl as early as possible for questions and guidance, and later prepare the following documents: |
If you are interested in applying, please first address your interest to dr. Jun Hu: j.hu@tue.nl as early as possible for questions and guidance, and later prepare the following documents and submit them to j.hu@tue.nl, with "CSC PhD application 2020" in the subject: |
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| 1. Any indication of your English level (IELTS 6.5 or TOEFL 95, or equivalent) according to the requirements from CSC (http://www.csc.edu.cn/) and TU/e. 1. If you have a design or art background, portfolio of your design or art work. |
1. Any indication of your English level (IELTS 6.5 or TOEFL 95, or equivalent) according to the requirements from CSC (http://www.csc.edu.cn/) and TU/e. 1. If you have a design or art background, portfolio of your design or artwork. |
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| Please notice the deadlines: '''February 1, 2017 at TU/e'''; Deadline for applying at CSC will be annouced by CSC (http://www.csc.edu.cn/). For a better support for your application, we would encourage you to apply as early as possible. | If these documents are too big to be attached to an email, you are advised to simply send in a link to a single online ZIP file that contains all the documents. == Deadlines == Please notice the deadlines: '''February 15, 2021 at TU/e'''; for the deadline for applying at CSC, please check the CSC website http://www.csc.edu.cn/. For better support for your application, we would encourage you to apply as early as possible. == For more information == For more information, please contact dr. Jun Hu: j.hu@tue.nl More about research at ID, TU/e: https://www.tue.nl/en/our-university/departments/industrial-design/research/ More about the requirements in applying for the Scholarship from China Scholarship Council (CSC) for Chinese PhD candidates: http://www.csc.edu.cn |
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Due to the situation of COVID-19, considering that we might have difficulties in providing good quality support for the new Eindhoven University of Technology (TU/e) enables excellent Chinese students to obtain their PhD degrees at TU/e with a 4-year scholarship from the CSC. Students from all Chinese universities are eligible for this program. The program aims to foster long-term research co-operation between Eindhoven University of Technology (TU/e) and Chinese universities. Students who receive a scholarship are provided with a living allowance as prescribed by the Chinese Government for the term of the scholarship, return airfare to the Netherlands by the most economical route, student visa fees and the cost of health insurance for international students.
PhD in
Design of Systems with Emerging Technologies in a Societal Context
at Department of Industrial Design, Eindhoven University of Technology
2021
Contents
Introduction
Eindhoven University of Technology (TU/e) is among the top 100 universities according to the QS Global World Ranking. It is located in a highly industrialized region, known as ‘Brainport’. This region is internationally recognized as a top technology area with a special focus on the integration of design and technology. The department of Industrial Design was established in close collaboration with the technological industry, and, because of this, focuses its research on the Design of Systems with Emerging Technologies in a Societal Context.
PhD program Industrial Design
Changing demographics and social structures are putting several key human values of modern society under serious pressure; these include social inclusion, sustainable healthcare and healthy ageing. Department of Industrial Design envisions a world where these fundamental human values are addressed through interactive and evolving product-service-systems. The goal is to empower people towards a state of complete physical, mental, emotional and social well-being, through the creation of interactive and (co-)evolving systems where future technologies and humans co-adapt to achieve qualities beyond utility and usability.
As a PhD student, you will work on research topics related to the aspects above by exploring future technology (Research-through-Design) through probing prototypes in everyday-life settings (e.g. Experiential Design Landscapes).
Expected Background
Applicants to this PhD research shall have a background in industrial design, digital arts and interactive media, human-computer interaction, computer science, information technology, electrical engineering, biomedical engineering, mechanical engineering and physics.
Research Topic
We are aiming at recruiting one CSC PhD in 2021 for a Double PhD degree in collaboration with Zhejiang University
In the context of the ZJU-TU/e Joint Research Institute of Design, Optoelectronics and Sensing (IDEAS), the TU/e candidates will join the Collaborative efforts in design research on health-related applications utilizing the advances in optoelectronics and sensing technologies, aiming at double degrees from TU/e and ZJU, under the condition that the requirements of the degree conferment from each Institution are completed, complying to relevant regulations.
Connected Everyday Objects for Managing Stress in Children. Research has shown that the use of robots is effective in helping children in mitigating stress and anxiety, and in improving their social skills, especially for children with Autism Spectrum Disorders (ASD). Both TU/e and ZJU have a track record in this research area, from the perspectives of human-computer interaction and utilizing new sensing technologies. The objectives of the proposed joint research are two-fold:
- The first objective of this project is to embed the proven benefits of the robotic technologies with the everyday products that are equipped with advanced non-invasive sensing technologies that can provide context based on physiological measurements and other information that this sensing can provide, for managing stress in Children with ASD. We will also investigate how the collected data could be utilized in detecting patterns and abnormalities and in engaging social ties and professionals.
- The second objective is to utilize the same technical platform for managing stress in Chinese children with high study load and expectations. In China, primary school children have to work hard even during the off school hours with heavy study load, due to the highly completive education system with emphasis on school performance, intolerance of failure and high expectations from parents, relatives and friends. Connected everyday objects would help the children to manage their stress with playful interaction. Connectivity would provide the information to social ties such as parents and teachers for proper social intervention if necessary, and for proactive co-management of the stress of children.
Application Procedure
It is a two-step process:
- Applying with us. According to the quality of the application documents, you might be invited for an interview (video conferencing, if necessary). If the interview gives positive advice, you will be offered with the admission letter, with a tuition fee waiver.
- Applying at CSC. We will help you adjust, refine and improve your research proposal, and help you improve the quality of other application documents. We will assist and advise you throughout the CSC application process.
If you are interested in applying, please first address your interest to dr. Jun Hu: j.hu@tue.nl as early as possible for questions and guidance, and later prepare the following documents and submit them to j.hu@tue.nl, with "CSC PhD application 2020" in the subject:
- Curriculum Vitae
- Research plan according to one of the aforementioned topics (no more than 4-pages of A4 in English, Including Background, Objectives and Research questions, Methodology, Planning, Expected results, Feasibility, Future Plan after your PhD, and References).
- Motivation letter (no more than 1-page A4).
- Copy of Master Degree (if available, or a letter from your university to prove that you are expected to graduate in due time).
- Letter of recommendation from your supervisor at the home university.
Any indication of your English level (IELTS 6.5 or TOEFL 95, or equivalent) according to the requirements from CSC (http://www.csc.edu.cn/) and TU/e.
- If you have a design or art background, portfolio of your design or artwork.
If these documents are too big to be attached to an email, you are advised to simply send in a link to a single online ZIP file that contains all the documents.
Deadlines
Please notice the deadlines: February 15, 2021 at TU/e; for the deadline for applying at CSC, please check the CSC website http://www.csc.edu.cn/. For better support for your application, we would encourage you to apply as early as possible.
For more information
For more information, please contact dr. Jun Hu: j.hu@tue.nl
More about research at ID, TU/e: https://www.tue.nl/en/our-university/departments/industrial-design/research/
More about the requirements in applying for the Scholarship from China Scholarship Council (CSC) for Chinese PhD candidates: http://www.csc.edu.cn