M.S.E. in Electrical Engineering
The M.S.E. in Electrical Engineering program at Arizona State University is designed to...
Tempe
INTAKE: Jan & Aug
The Master of Science (M.S.) in Robotics and Autonomous Systems with a specialization in Biomedical Engineering at Arizona State University (ASU) stands at the forefront of interdisciplinary education, blending robotics innovation with cutting-edge biomedical applications. This STEM-designated program is designed to provide students with a holistic understanding of advanced robotic systems while focusing on their transformative role in the biomedical field.The M.S. in Robotics and Autonomous Systems (Biomedical Engineering) at ASU is designed for students passionate about advancing healthcare through technological innovation. Rooted in a STEM framework, the program provides a comprehensive exploration of robotic systems and their applications in biomedical contexts. Students acquire a deep understanding of machine learning, medical imaging, and biomechanics, preparing them to develop solutions that redefine the future of healthcare. This program uniquely positions graduates at the intersection of two dynamic fields, fostering a skill set that is highly sought after in academia, research institutions, and industry. Whether aspiring to lead transformative research projects or drive innovation in the development of medical devices, graduates emerge ready to shape the landscape of robotics and biomedical engineering.ASU's M.S. in Robotics and Autonomous Systems (Biomedical Engineering) offers a transformative educational journey, preparing students to be leaders in the convergence of robotics and healthcare. The program's STEM designation underscores its commitment to providing a rigorous and relevant education that aligns with the demands of today's dynamic job market.
Curriculum:
1. STEM Designation: ASU's M.S. in Robotics and Autonomous Systems (Biomedical Engineering) program holds the coveted STEM designation, underscoring its commitment to delivering a curriculum that emphasizes Science, Technology, Engineering, and Mathematics. This designation not only attests to the program's academic rigor but also extends benefits to international students, allowing them to qualify for an extended Optional Practical Training (OPT) period, facilitating valuable post-graduation work experience.
2. Interdisciplinary Curriculum: The program's curriculum is thoughtfully crafted to bridge the gap between robotics and biomedical engineering. Students engage in a diverse range of courses covering robotics fundamentals, machine learning, medical imaging, biomechanics, and healthcare robotics. This interdisciplinary approach ensures that graduates are well-equipped to tackle complex challenges in both fields.
3. Hands-on Laboratory Experience: ASU emphasizes hands-on learning through state-of-the-art laboratories equipped with cutting-edge robotic systems and biomedical devices. Students have the opportunity to apply theoretical knowledge in practical scenarios, fostering a deep understanding of the integration between robotics and biomedical applications.
4. Faculty Expertise: Students benefit from the guidance of renowned faculty members with expertise in robotics and biomedical engineering. The faculty brings a wealth of research and industry experience to the classroom, providing students with insights into the latest advancements and trends in these rapidly evolving fields.
5. Research Opportunities: The program places a strong emphasis on research, encouraging students to explore and contribute to groundbreaking projects at the intersection of robotics and healthcare. Whether focusing on developing robotic-assisted surgical systems, wearable medical devices, or autonomous rehabilitation technologies, students have the chance to make meaningful contributions to the field.
6. Industry-Relevant Capstone Projects: In the final phase of the program, students engage in industry-relevant capstone projects that challenge them to address real-world problems. Collaborating with industry partners, students apply their knowledge to solve practical issues, gaining valuable experience and enhancing their readiness for the workforce.
Tempe
IELTS: 7
USD 35280
The university has specific entry requirements for international students applying to postgraduate programs.
Academic Requirements:
English Language Proficiency:
The University of Arizona State University (ASU) is a renowned public research university located in the United States.
Merit-based Scholarships: ASU offers a range of merit-based scholarships to international students based on their academic achievements. These scholarships recognize outstanding academic performance, leadership potential, and extracurricular involvement. Examples of merit-based scholarships include the New American University Scholarship, President's Scholarship, and Provost's Scholarship.
International Excellence Awards: ASU provides International Excellence Awards to exceptionally talented international students. These awards are highly competitive and are based on criteria such as academic achievements, contributions to the community, and potential for future success. The International Excellence Awards are available at both undergraduate and graduate levels.
Financial Need-based Scholarships: ASU also offers scholarships to international students based on their financial need. These scholarships aim to provide financial assistance to deserving students who may require additional support to pursue their education. Students are required to demonstrate their financial need through appropriate documentation.
Departmental Scholarships: Many departments and colleges within ASU offer scholarships specific to their academic disciplines. These scholarships are designed to support students pursuing studies in particular fields of study. Students should inquire directly with their respective departments or colleges to explore scholarship opportunities related to their area of interest.
External Scholarships: ASU encourages international students to explore external scholarship opportunities from government agencies, foundations, corporations, and other organizations. The university provides resources and guidance to assist students in identifying and applying for external scholarships that may be available to them.
It's important to note that scholarship availability, eligibility criteria, and application processes may vary. Students should review the specific requirements and deadlines associated with each scholarship opportunity and prepare their applications accordingly.
Graduates of ASU's M.S. in Robotics and Autonomous Systems (Biomedical Engineering) program are uniquely positioned at the intersection of robotics and healthcare. They are equipped with the skills needed to drive innovation in the development of autonomous systems that have a direct impact on patient care, rehabilitation, and medical procedures. Whether working in industry or academia, these professionals play a crucial role in shaping the future of biomedical engineering and robotics.The M.S. in Robotics and Autonomous Systems with a focus on Biomedical Engineering at ASU sets the stage for a dynamic career that combines technical expertise with a profound impact on healthcare. Graduates emerge as sought-after professionals ready to tackle the challenges and opportunities presented by the rapidly evolving fields of robotics and biomedical engineering.
1. Cutting-Edge Research Opportunities: Graduates of the M.S. program in Robotics and Autonomous Systems (Biomedical Engineering) from ASU are well-prepared for engaging in cutting-edge research. The program's curriculum emphasizes research methodologies, allowing students to delve into areas such as medical robotics, assistive technologies, and autonomous medical systems. This foundation enables graduates to contribute to advancements in healthcare technology.
2. Industry Integration and Collaboration: ASU has a strong reputation for fostering collaboration between academia and industry. Graduates are well-positioned to work with leading companies and organizations involved in the development of robotic systems for healthcare applications. This includes opportunities in companies specializing in medical device manufacturing, healthcare robotics, and autonomous healthcare solutions.
3. Biomedical Device Development: With a focus on biomedical engineering, the program prepares students for roles in the development of biomedical devices. Graduates may find opportunities in designing and improving robotic-assisted surgical systems, wearable medical devices, and other innovations aimed at enhancing patient care and treatment outcomes.
4. Healthcare Robotics and Automation: The program equips students with the skills needed to contribute to the field of healthcare robotics and automation. This encompasses roles in the development of robotic prosthetics, rehabilitation robotics, and autonomous systems that support healthcare delivery. Graduates may work on projects aimed at enhancing the efficiency and effectiveness of medical procedures.
5. Academic and Research Institutions: For those inclined towards academia and research, the M.S. in Robotics and Autonomous Systems program opens doors to roles in universities, research institutions, and laboratories. Graduates may pursue careers as researchers, professors, or scientists, contributing to the academic community's understanding of robotics and biomedical engineering.