BSc in Business Information Technology
The BSc in Business Information Technology (BIT) at the University of Twente is designe...
MSc in Electrical Engineering - Dependable Integrated Systems
Drienerlolaan
INTAKE: Feb & Sept
Program Overview
The MSc in Electrical Engineering with a specialization in Dependable Integrated Systems offers students the opportunity to work on cutting-edge technologies related to system dependability, such as cybersecurity, fault detection, and system resilience. Students explore the complexities of integrated systems, which involve the combination of hardware, software, and communication protocols, and learn how to create solutions that ensure high performance and reliability. With a focus on practical applications, this program prepares graduates for roles in industries where system integrity and security are paramount, such as automotive, aerospace, and telecommunications.
Curriculum: The curriculum of the program is built around a strong foundation in electrical engineering and system integration, covering a wide range of topics related to dependable systems. Core courses focus on subjects such as embedded systems, hardware and software integration, fault-tolerant design, and system verification. Students also learn about the design of secure systems, focusing on system vulnerabilities, cybersecurity threats, and protection mechanisms. In addition to core courses, students can choose from electives that allow them to specialize in specific areas of interest, such as robotics, artificial intelligence, or distributed systems. The program is designed to provide a blend of theoretical knowledge and hands-on experience through lab work, projects, and internships.
Research Focus: The University of Twente is known for its innovative research in electrical engineering and dependable systems. The research focus within the MSc in Dependable Integrated Systems program is centered on the development of robust systems that can function reliably under various conditions. This includes research into system resilience, fault detection and tolerance, and the integration of new technologies into dependable systems. Students have access to state-of-the-art facilities and research groups specializing in topics like embedded systems, system-on-chip design, and communication networks. Research also explores how to improve system performance while maintaining high standards of security and dependability, ensuring that integrated systems can function smoothly even in adverse conditions.
Industry Engagement: The University of Twente has strong connections with industry partners, which play a key role in the MSc program. These collaborations provide students with opportunities to work on industry-driven projects, participate in internships, and gain hands-on experience in real-world settings. Companies in sectors such as telecommunications, aerospace, automotive, and energy collaborate with the university, allowing students to apply their theoretical knowledge in solving practical problems related to system dependability. Industry partners also provide valuable insights into the latest trends and challenges in the field, ensuring that students are well-prepared for the demands of the workforce.
Global Perspective: The MSc in Dependable Integrated Systems at the University of Twente attracts students from across the globe, offering a diverse and international learning environment. This global perspective enhances students' ability to understand and address the challenges faced by modern interconnected systems, as they gain exposure to global standards and practices. Students are encouraged to think about the global implications of system dependability, including the need for secure and reliable communication systems in international contexts. The university also offers opportunities for international collaboration through exchange programs and partnerships with universities and research institutions worldwide.
Location
Drienerlolaan
Score
IELTS 6.5
Tuition Fee
€ 18900
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 75% or above in their bachelor's degree.
English Language Proficiency:
- IELTS: Overall band score of 6.5 or 7.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 90 or higher.
Standardized Test Requirements
- GMAT (Graduate Management Admission Test): GMAT score of 600 is often required.
The University of Twente (UT) offers various scholarship opportunities for international students to help finance their education and living expenses in the Netherlands. These scholarships are designed to attract talented students from around the world and provide them with financial support to pursue their undergraduate or postgraduate studies at the university.
University of Twente Scholarships (UTS): The University of Twente Scholarships (UTS) are highly competitive merit-based scholarships available to students from non-EU/EEA countries who are applying for a Master’s program at the university. These scholarships are intended to cover part of the tuition fees and living expenses for the duration of the program. The amount of the scholarship varies, and it can range from €3,000 to €25,000 per year, depending on the student’s program and the scholarship type. To be eligible, students must have an excellent academic record and meet the admission requirements for their chosen program.
Holland Scholarship: The Holland Scholarship is a national scholarship program funded by the Dutch Ministry of Education, Culture, and Science in collaboration with Dutch research universities, including the University of Twente. This scholarship is available to international students from outside the European Economic Area (EEA) who are applying for a Master’s program at UT. The Holland Scholarship provides a one-time award of €5,000 to help with tuition fees or living costs. The scholarship is awarded for the first year of study, and students can apply for it once they have been admitted to a Master's program at the university.
Orange Tulip Scholarship (OTS): The Orange Tulip Scholarship (OTS) is a Dutch government-sponsored program aimed at providing scholarships to international students from specific countries, including China, India, Indonesia, Mexico, Russia, South Korea, and Vietnam, among others. UT participates in the OTS program, and selected students can receive a scholarship that covers part of the tuition fees for their Master’s degree. The OTS scholarship is offered in collaboration with the Dutch embassies and institutions in various countries.
Kipaji Scholarship: The Kipaji Scholarship is a special award given by the University of Twente to outstanding international students with excellent academic achievements. This scholarship is typically available for students from Africa, Asia, Latin America, and the Middle East who are applying for a Master’s program. The Kipaji Scholarship covers tuition fees, living expenses, and other costs related to studying abroad, providing a comprehensive financial aid package to deserving students.
Additional Scholarships for Specific Programs: In addition to the general scholarships mentioned above, the University of Twente also offers specific scholarships for students pursuing certain Master's programs. These scholarships are often offered in collaboration with academic departments or external organizations and can cover partial or full tuition fees.
Graduates of the MSc in Electrical Engineering - Dependable Integrated Systems program at the University of Twente are well-prepared for a wide range of career opportunities in industries where system dependability, reliability, and security are crucial. With expertise in the design, analysis, and integration of complex systems, they are equipped to address the challenges faced by modern technological environments in sectors such as telecommunications, aerospace, automotive, robotics, and energy.
Dependable Systems Engineer: Graduates can work as dependable systems engineers, focusing on designing and testing systems that are resilient to faults and capable of operating reliably under various conditions. They ensure that integrated systems, such as embedded devices, communication systems, and automotive electronics, maintain optimal performance.
Embedded Systems Engineer: With a strong foundation in embedded systems design, graduates can work as embedded systems engineers, designing and developing software and hardware for embedded applications. This role often involves working on devices used in consumer electronics, automotive systems, healthcare equipment, and industrial automation.
Cybersecurity Engineer: The increasing need for secure systems has created a demand for experts in cybersecurity. Graduates can work as cybersecurity engineers, responsible for protecting integrated systems from cyberattacks and vulnerabilities. They design and implement security protocols, perform vulnerability assessments, and ensure that systems are secure from potential threats.
Telecommunications Systems Engineer: In the telecommunications sector, graduates can work on designing and optimizing communication systems, ensuring their dependability and resilience to disruptions. This includes working on network infrastructure, signal processing, and ensuring secure and efficient data transmission.
Aerospace Systems Engineer: Graduates can also pursue careers in the aerospace industry, where dependable systems are essential for the operation of avionics, satellite systems, and aerospace control systems. They work on ensuring the safety, reliability, and fault tolerance of aerospace technologies, including navigation, communication, and flight control systems.
Automotive Systems Engineer: The automotive industry relies on dependable integrated systems for the operation of modern vehicles, especially with the rise of autonomous driving and electric vehicles. Graduates can work on designing and maintaining reliable systems for vehicle electronics, powertrain systems, and advanced driver-assistance systems (ADAS).
Robotics Engineer: Graduates with expertise in dependable integrated systems can work as robotics engineers, designing and developing robots for industrial, healthcare, or service applications. They focus on creating systems that are fault-tolerant, efficient, and able to operate reliably in dynamic environments.
Energy Systems Engineer: With the global transition to sustainable energy, graduates can work in the energy sector, where dependable systems are essential for the management and distribution of electricity. They work on designing systems for smart grids, renewable energy integration, and power distribution that ensure reliability and minimal downtime.
Control Systems Engineer: Control systems engineers focus on the design and optimization of systems used to regulate the performance of machines, processes, and integrated systems. Graduates can work on industrial automation, energy systems, robotics, or transportation, ensuring that systems perform efficiently and safely.
System Integration Engineer: In this role, graduates ensure the seamless integration of hardware and software components into a unified, dependable system. They work across various industries, integrating different subsystems into larger systems, making sure that all parts work together smoothly and reliably.
Research and Development Engineer: Graduates interested in advancing the field of dependable systems can pursue careers in research and development, focusing on innovations in system reliability, fault tolerance, and security. This role involves contributing to academic or industrial research, developing new techniques and technologies for the integration of dependable systems.
Product Development Engineer: In industries such as consumer electronics, telecommunications, and aerospace, graduates can work as product development engineers, focusing on the design and testing of new systems. This involves ensuring that new products meet high standards of reliability, safety, and performance before they are released to the market.
Consultant in Dependable Systems: Graduates can also serve as consultants, advising organizations on improving the dependability of their integrated systems. They work with companies to assess system vulnerabilities, design robust solutions, and implement technologies that enhance the resilience and performance of critical systems.
Quality Assurance Engineer: As a quality assurance engineer, graduates focus on ensuring the reliability and dependability of systems throughout the development cycle. They perform rigorous testing to detect defects, conduct simulations, and validate the performance of integrated systems under various scenarios.
Academia and Research Institutions: Graduates interested in academia can pursue careers as professors or researchers at universities and research institutes, where they contribute to the field of dependable integrated systems through fundamental research. They focus on advancing knowledge related to fault tolerance, system security, and reliability engineering.
