Executive Masters Of Business Administration
The Executive Masters of Business Administration (EMBA) at RIT is desi...
M.S. in Industrial and Systems Engineering
Rochester
INTAKE: Jan & Aug
Program Overview
The M.S. in Industrial and Systems Engineering (ISE) at Rochester Institute of Technology (RIT) is a highly flexible and multidisciplinary program designed to equip students with the knowledge and skills needed to optimize complex systems and improve processes across industries. This program blends core principles of industrial engineering, systems engineering, and data analytics to tackle challenges in operations management, supply chain optimization, quality improvement, and systems design. Students gain a comprehensive understanding of how to integrate people, technology, and processes to enhance efficiency, reduce costs, and improve productivity in diverse settings such as manufacturing, healthcare, logistics, and service industries.
STEM-designated: RIT's M.S. in Industrial and Systems Engineering is a STEM-designated program, highlighting its rigorous focus on science, technology, engineering, and mathematics. This designation makes the program highly attractive to international students, as it provides eligibility for an extended Optional Practical Training (OPT) period, allowing graduates to gain valuable work experience in the U.S. Furthermore, it emphasizes the technical and analytical skills needed to solve complex engineering problems, preparing students for leadership roles in industries where technology and innovation drive success.
Curriculum: The M.S. in ISE program at RIT offers a broad curriculum that covers topics such as operations research, manufacturing systems, supply chain management, quality control, and data analytics. Core courses focus on the application of mathematical modeling, statistical analysis, and optimization techniques to real-world engineering problems. Students have the flexibility to choose electives in specialized areas such as healthcare systems, energy management, logistics, or data-driven decision-making. The curriculum is designed to blend theoretical knowledge with practical skills, ensuring that graduates are prepared to tackle the challenges of modern industrial and systems engineering.
Research Focus: The research focus of the M.S. in ISE program at RIT is centered on the development and application of innovative solutions to optimize processes and systems. Faculty members conduct research in areas such as supply chain management, healthcare systems optimization, manufacturing systems design, and the integration of sustainable practices into industrial processes. Students have opportunities to participate in cutting-edge research projects that explore new technologies and methodologies for improving efficiency, quality, and safety across industries. RIT’s strong ties to industry ensure that research is often directly aligned with current challenges faced by businesses and organizations.
Industry Engagement: RIT has a strong tradition of industry engagement, and this is a key feature of the M.S. in Industrial and Systems Engineering program. The program offers students opportunities to work with industry partners on real-world projects through internships, co-ops, and research collaborations. RIT’s extensive network of industry connections spans sectors such as manufacturing, healthcare, logistics, and consulting, allowing students to apply their skills to practical problems and gain valuable work experience. These partnerships enhance the learning experience and ensure that students are well-prepared to transition into the workforce upon graduation.
Global Perspective: The M.S. in ISE program at RIT emphasizes the global nature of modern engineering challenges, preparing students to work in a diverse and interconnected world. The curriculum and research projects often incorporate global case studies and examples, providing students with insights into how industrial engineering principles are applied in different cultural and economic contexts. Additionally, RIT’s diverse student body and international industry partnerships contribute to a global learning environment where students can gain valuable cross-cultural perspectives. Graduates are well-equipped to lead projects and initiatives in multinational organizations or to work in diverse teams addressing global engineering problems.
Location
Rochester
Score
IELTS 6.5
Tuition Fee
USD 54176
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 70% 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 88 or higher.
- PTE: Overall score of 60 or higher.
Standardized Test Requirements:
- GRE Graduate Record Examinations: Overall score of 280 or higher is required.
- GMAT Graduate Management Admission Test: Overall score of 400 or higher is required.
WES Evaluation is required
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.
Graduate Scholarships and Assistantships: RIT offers graduate scholarships and assistantships to international students pursuing master’s and doctoral degrees. These scholarships are awarded based on academic excellence, research potential, and professional achievements. Graduate students may also be eligible for teaching or research assistantships, which provide a stipend and valuable academic experience. Assistantships allow students to work alongside faculty on research projects and gain teaching experience, which can enhance their academic and professional profiles.
Graduates of the M.S. in Industrial and Systems Engineering (ISE) program at Rochester Institute of Technology (RIT) have access to a wide range of career opportunities in various sectors, including manufacturing, healthcare, logistics, technology, consulting, and energy. The program provides students with a comprehensive skill set, combining technical knowledge in systems optimization, data analysis, and process improvement with the leadership and problem-solving abilities needed in today’s competitive global marketplace.
Industrial Engineer: Industrial engineers focus on improving processes, systems, and organizations by analyzing workflows, optimizing operations, and reducing inefficiencies. Graduates can work in manufacturing industries, designing and improving production systems, quality control processes, or inventory management systems to enhance productivity and cost-effectiveness.
Systems Engineer: Systems engineers specialize in designing and managing complex systems that integrate people, technology, and processes. Graduates can work across industries such as aerospace, defense, and technology, ensuring that systems are optimized and function efficiently, meeting both operational and performance goals.
Operations Manager: With expertise in process improvement and resource optimization, graduates can pursue careers as operations managers. These professionals oversee daily operations in organizations, ensuring that systems, processes, and resources are effectively utilized to meet production or service goals. They may work in sectors such as logistics, healthcare, or supply chain management.
Supply Chain Manager: Supply chain management is a key area for industrial and systems engineering professionals. Graduates can work as supply chain managers, overseeing the flow of goods, services, and information from suppliers to customers. They are responsible for optimizing the entire supply chain to improve efficiency, reduce costs, and enhance customer satisfaction.
Quality Assurance Engineer: Quality assurance engineers are responsible for ensuring that products meet high standards of quality and compliance with industry regulations. Graduates can apply their skills in data analysis, process control, and systems optimization to work in industries such as manufacturing, pharmaceuticals, or consumer goods.
Data Analyst/Data Scientist: With the increasing importance of data in decision-making, graduates can work as data analysts or data scientists, utilizing their expertise in data modeling, statistical analysis, and optimization. In this role, they extract insights from large datasets to help organizations improve decision-making processes and operational efficiency.
Project Manager: Project management is another key career option for ISE graduates. As project managers, they oversee the planning, execution, and completion of engineering projects, ensuring that they are completed on time, within budget, and according to specifications. This role is critical in fields like construction, manufacturing, and technology development.
Consultant: Many ISE graduates become consultants, offering expertise to organizations seeking solutions to complex operational challenges. They may specialize in process improvement, systems optimization, or supply chain management. Consultants help businesses streamline operations, enhance efficiency, and reduce costs.
Healthcare Systems Engineer: Healthcare is an area where industrial and systems engineering principles are increasingly applied. Graduates can pursue careers as healthcare systems engineers, working to improve hospital operations, reduce patient wait times, optimize resource utilization, and enhance patient care processes.
Energy Systems Engineer: Graduates with an interest in sustainability and energy can work as energy systems engineers, optimizing the design and management of energy systems. They focus on enhancing efficiency in renewable energy technologies, energy conservation strategies, and the development of smart grids in sectors such as utilities, government, and environmental consulting.
Logistics Manager: Logistics management involves the coordination of the movement of goods and services. Industrial and systems engineering graduates can work as logistics managers, optimizing supply chains, managing transportation systems, and ensuring that goods reach their destinations in the most efficient and cost-effective way.
Manufacturing Engineer: Graduates can work in manufacturing environments, where they apply engineering principles to improve production processes, reduce waste, and ensure high product quality. They may focus on process optimization, automation, and improving manufacturing efficiency through the integration of advanced technologies.
Environmental Health and Safety Engineer: With a focus on the health and safety of workers and the environment, graduates can work as environmental health and safety engineers, ensuring compliance with safety regulations and developing systems to minimize risks in industries such as construction, manufacturing, and energy.
Research and Development Engineer: For those interested in innovation, a career in R&D allows graduates to apply their knowledge to developing new technologies or systems. In R&D roles, they work on creating new products or improving existing processes, often working for large corporations, startups, or research institutions.
