Executive Masters Of Business Administration
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B.S. in Robotics and Manufacturing Engineering Technology
Rochester
INTAKE: Jan, May & Aug
Program Overview
The B.S. in Robotics and Manufacturing Engineering Technology program at Rochester Institute of Technology (RIT) combines cutting-edge technology, hands-on learning, and industry-driven applications to prepare students for careers in the rapidly evolving fields of robotics, automation, and advanced manufacturing. This interdisciplinary program is designed to equip students with the technical expertise and practical skills needed to design, build, and manage robotics systems and manufacturing processes in various industries, including automotive, aerospace, and consumer electronics.
STEM-designated: The B.S. in Robotics and Manufacturing Engineering Technology is a STEM-designated program, reflecting its focus on science, technology, engineering, and mathematics. This designation highlights the program's emphasis on technical proficiency and innovation, providing students with a solid foundation in engineering principles while also promoting the development of problem-solving and critical thinking skills that are essential in today's technology-driven world.
ABET Accredited: The program is accredited by ABET (Accreditation Board for Engineering and Technology), ensuring that it meets the highest standards of education in engineering technology. ABET accreditation assures that graduates from this program have received an education that prepares them to contribute effectively to the robotics and manufacturing industries, with a strong emphasis on real-world applications and technical proficiency.
Curriculum: The curriculum of the B.S. in Robotics and Manufacturing Engineering Technology program at RIT integrates core engineering principles with specialized knowledge in robotics, automation, and manufacturing processes. Students take courses in robotics systems design, industrial automation, computer-aided design (CAD), materials science, and manufacturing processes. The program also includes advanced topics such as mechatronics, robotics programming, and sensor technologies, preparing students for the challenges of modern manufacturing environments. Hands-on lab experiences and project-based learning are integral parts of the curriculum, allowing students to apply theoretical knowledge in practical settings.
Research Focus: The B.S. in Robotics and Manufacturing Engineering Technology program places a strong emphasis on research, with faculty and students collaborating on innovative projects related to robotics, automation, and advanced manufacturing. Research focuses on developing new technologies and solutions to improve manufacturing efficiency, enhance automation processes, and address challenges such as sustainability, production optimization, and robotics integration. Students have the opportunity to participate in research labs and contribute to projects that are directly aligned with industry needs and technological advancements.
Industry Engagement: Industry engagement is a key component of the program, with students gaining practical experience through internships, co-ops, and collaborations with leading companies in the robotics and manufacturing sectors. RIT’s strong ties to the industry provide students with opportunities to work on real-world projects and network with professionals in the field. The program also hosts industry events, guest speakers, and career fairs, helping students stay connected to the latest trends and developments in robotics and manufacturing technologies.
Global Perspective: The B.S. in Robotics and Manufacturing Engineering Technology program at RIT incorporates a global perspective by preparing students to work in diverse, international environments. Through opportunities for study abroad, collaborative research with global institutions, and exposure to international industry standards, students gain insights into how robotics and manufacturing technologies are applied worldwide. This global perspective ensures that graduates are equipped to meet the challenges of a globalized economy, with the skills to work on multinational projects and adapt to different cultural and technological contexts.
Location
Rochester
Score
IELTS 6.5
Tuition Fee
USD 53720
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 70% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.0 or 6.5 with a minimum of 5.5 in each component.
- TOEFL: Overall score of 79 or higher.
- PTE: Overall score of 58 or higher.
- DET (Duolingo English Test): Minimum score of 100.
Rochester Institute of Technology (RIT) is supporting international students through a variety of scholarship opportunities designed to ease the financial burden of studying abroad. These scholarships are available for undergraduate and graduate students and can be awarded based on academic merit, need, and specific program requirements.
Merit-Based Scholarships: RIT offers several merit-based scholarships for international students that are awarded based on academic achievement. These scholarships are intended to recognize the hard work and dedication of students who have demonstrated exceptional academic performance in their previous studies. These scholarships can significantly reduce tuition fees, making education at RIT more affordable for international students. Applicants are automatically considered for merit-based scholarships during the admissions process, and no additional application is required.
International Student Scholarships: In addition to merit-based scholarships, RIT offers specific scholarships tailored to international students. These scholarships are designed to make education accessible to students from around the world and help them pursue their studies at a world-class institution. The scholarships vary in amount and eligibility criteria, and they are awarded based on factors such as academic performance, leadership potential, and extracurricular involvement.
Program-Specific Scholarships: Certain academic programs at RIT offer program-specific scholarships for international students. These scholarships are designed to support students in specific fields of study, such as engineering, business, computer science, and the arts. Each program may have its own criteria for eligibility, and students are encouraged to check with their respective departments for details about available scholarships. Program-specific scholarships often offer additional opportunities for networking, research, and professional development.
The B.S. in Robotics and Manufacturing Engineering Technology program at Rochester Institute of Technology (RIT) provides graduates with a wide range of career options across industries that utilize robotics, automation, and advanced manufacturing technologies. With a strong foundation in engineering principles, robotics systems, and manufacturing processes, graduates are well-prepared to step into roles that involve designing, building, and optimizing robotic systems and manufacturing operations.
Robotics Engineer: Graduates with a B.S. in Robotics and Manufacturing Engineering Technology can pursue careers as robotics engineers, specializing in the design, development, and integration of robotic systems for various applications, including industrial automation, healthcare, and aerospace. These engineers work with cutting-edge technologies to create robots that perform complex tasks, improving efficiency and precision in manufacturing environments.
Automation Engineer: Many graduates go on to work as automation engineers, where they are responsible for designing, implementing, and maintaining automated systems that enhance manufacturing processes. Automation engineers work with programmable logic controllers (PLCs), robotics, and other automated equipment to improve production efficiency, reduce downtime, and increase the quality of manufactured goods.
Manufacturing Engineer: With a strong background in manufacturing processes, graduates of the B.S. in Robotics and Manufacturing Engineering Technology program can work as manufacturing engineers. They are responsible for optimizing production lines, improving manufacturing workflows, and ensuring that products are made with the highest level of efficiency and quality. These engineers may also work on process improvements, cost reduction strategies, and the implementation of new manufacturing technologies.
Mechatronics Engineer: Mechatronics engineers combine principles from mechanical, electrical, and computer engineering to design systems that integrate mechanical components, electronics, and software. Graduates of this program who specialize in mechatronics can design and develop advanced systems such as robotic arms, automated machinery, and intelligent manufacturing systems. Mechatronics engineers are in high demand in industries like automotive, aerospace, and consumer electronics.
Systems Engineer: Graduates can also pursue careers as systems engineers, where they design, integrate, and manage complex systems that involve robotics, automation, and manufacturing processes. These professionals work with cross-functional teams to ensure that all system components work seamlessly together, optimizing overall system performance and efficiency.
Product Development Engineer: For those interested in the development of new products, graduates can work as product development engineers, focusing on the design and prototyping of new robotic or manufacturing-related products. They collaborate with teams to create innovative products and bring them to market, ensuring they meet the required specifications and performance standards.
Operations Manager: Graduates may also choose to work in managerial roles, such as operations managers, overseeing manufacturing operations and ensuring that production processes are running smoothly. Operations managers are responsible for resource allocation, scheduling, quality control, and maintaining a safe and efficient working environment in manufacturing settings.
Field Service Engineer: A field service engineer is responsible for installing, troubleshooting, and maintaining robotic systems and automation equipment at customer sites. Graduates with a background in robotics and manufacturing engineering technology are well-equipped to handle the technical challenges of keeping robotic systems operational and performing at optimal levels.
Robotics Programmer: Graduates can pursue a career as robotics programmers, responsible for writing code that controls robotic systems in manufacturing and automation environments. These professionals work with various programming languages, such as C++ or Python, to develop software that enables robots to perform tasks like material handling, assembly, and packaging.
Industrial Engineer: Industrial engineers focus on improving the efficiency and productivity of manufacturing systems. With their knowledge of robotics and manufacturing engineering technology, graduates can work in this field, applying engineering principles to streamline production processes, reduce waste, and improve the overall effectiveness of manufacturing operations.
Consultant in Robotics and Manufacturing Technologies: Experienced graduates may also become consultants, advising companies on how to integrate robotics, automation, and manufacturing technologies into their operations. As consultants, they provide expertise on improving manufacturing efficiency, implementing new technologies, and solving complex production challenges.
