ELECTRICAL ENGINEERING

Program Outcomes

Apply the knowledge of mathematics, science, engineering fundamentals, and electrical engineering specialization to solve complex engineering problems.
Identify, formulate, and analyze complex electrical engineering problems using first principles and research literature.
Design solutions for complex engineering problems and system components with consideration for public health, safety, and environment.
Use research-based knowledge and methods including experiments, data analysis, and synthesis to provide valid conclusions.
Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools to electrical engineering activities.
Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal, and cultural issues relevant to engineering practice.
Understand the impact of engineering solutions in societal and environmental contexts, and demonstrate the need for sustainable development.
Apply ethical principles and commit to professional ethics and responsibilities.
Function effectively as an individual and as a member or leader in diverse teams and multidisciplinary settings.
Communicate effectively on complex engineering activities with the engineering community and society at large.
Demonstrate knowledge and understanding of engineering and management principles and apply these to manage projects.
Recognize the need for, and have the ability to engage in independent and lifelong learning in the context of technological change.

Programme Educational Objectives (PEO)

Impart learning and understanding of different segments of Electrical Engineering.
Provide students with opportunities to apply advanced techniques and develop skills to explore new problems in Electrical Engineering, making them employable in industries or able to pursue higher studies.
Empower students to collaborate with different sectors, leading to innovation for solving social, technical, and business challenges in an optimized and environment-friendly way.
Encourage students to pursue lifelong learning and develop professional ethics, communication skills, leadership quality, and teamwork capability through continuing education toward self-improvement.

Comprehensive Technical Expertise - Graduates will acquire a strong foundation in Electrical Engineering and advanced specialization in Power Systems to excel in industry, utilities, research, and academia.
Innovation & Research Orientation - Graduates will pursue research, innovation, and product development in emerging areas of power and energy systems, addressing challenges with technically sound and sustainable solutions.
Professional Growth & Lifelong Learning - Graduates will engage in continuous learning, advanced studies, and professional certifications to adapt to evolving technologies and global practices in power systems.
Leadership & Collaboration - Graduates will demonstrate leadership, teamwork, communication, and project management skills while collaborating across multidisciplinary domains for societal and industrial benefit.
Ethics, Sustainability & Social Responsibility - Graduates will practice engineering with ethics, integrity, and environmental consciousness, contributing to sustainable development and addressing societal needs.

Impart learning and understanding towards different segments of Control System Engineering for successful careers in instrumentation, automation, and interdisciplinary fields.
Empower graduates to excel in research and contribute to technological developments in control and instrumentation.
Prepare graduates to collaborate with different sectors, leading to innovation for solving social, technical, and business challenges in an optimized and environment-friendly manner.
Encourage lifelong learning and professional development through continuing education and self-improvement.

Impart learning and understanding towards different segments of Power System, producing postgraduates who are employable in industries or able to pursue higher studies.
Provide opportunities to learn and use advanced techniques, skills, and modern scientific and engineering tools to explore new problems in the energy sector.
Empower students to collaborate with different sectors, leading to innovation for solving social, technical, and business challenges in an optimized and environment-friendly manner.
Encourage lifelong learning and professional development through continuing education and self-improvement.

Advanced Knowledge & Technical Expertise: Equip graduates with in-depth knowledge of electric mobility, battery technologies, hybrid powertrains, and energy storage systems to address challenges in sustainable transportation and power sectors.
Research, Innovation & Problem-Solving: Foster the ability to conduct advanced research, design innovative solutions, and develop cutting-edge technologies in EV systems, energy storage, charging infrastructure, and renewable energy integration.
Professional Competence & Leadership: Prepare graduates to excel in industry, academia, and research organizations by demonstrating professional ethics, leadership skills, project management, and the ability to work in multidisciplinary teams.
Sustainability & Lifelong Learning: Instill a commitment to sustainable practices, environmental responsibility, and continuous learning to adapt to evolving technologies in electric mobility and energy storage domains.