Program Outcomes (PO)
PO1: Engineering Knowledge
Apply the concepts of mathematics, science, and electrical engineering fundamentals to analyze and solve complex engineering problems.
PO2: Problem Analysis
Identify, formulate, and critically analyze electrical engineering challenges using research-based knowledge and appropriate analytical tools to reach valid conclusions.
PO3: Design and Development of Solutions
Design system components, circuits, and electrical engineering solutions that address technical requirements while considering safety, standards, and societal needs.
PO4: Investigation of Complex Problems
Conduct investigations using experimental methods, data interpretation, modeling, and simulation tools to draw meaningful, evidence-based conclusions.
PO5: Modern Tool Usage
Use modern software tools, laboratory equipment, and advanced computational techniques appropriate to electrical engineering, recognizing their limitations.
PO6: The Engineer and Society
Apply contextual knowledge to assess professional engineering practice, legal frameworks, and societal responsibilities, particularly in safety, regulatory, and power systems contexts.
PO7: Environment and Sustainability
Understand the environmental impact of electrical engineering solutions and contribute to sustainable development through renewable and energy-efficient technologies.
PO8: Ethics
Demonstrate ethical behavior, professional responsibility, and integrity in engineering practice and decision-making.
PO9: Individual and Team Work
Function effectively as an individual contributor, as a member, and as a leader in multidisciplinary engineering teams.
PO10: Communication
Communicate effectively in both technical and non-technical contexts, including the ability to prepare technical documents, deliver presentations, and interact confidently with stakeholders.
PO11: Project Management and Finance
Apply engineering and management principles to plan, execute, and evaluate projects in multidisciplinary environments, understanding financial considerations and leadership roles.
PO12: Life-Long Learning
Recognize the need for continuous learning and development to adapt to emerging technologies, industry practices, and professional growth.
Program Educational Objectives (PEO)
PEO 1: Professional Competence
Graduates will build a strong foundation in electrical engineering principles and modern computational tools, enabling them to excel in core engineering roles, multidisciplinary environments, and emerging technologies.
PEO 2: Higher Education, Research, and Innovation
Graduates will pursue advanced studies, research opportunities, certifications, or engage in innovative problem-solving, contributing to technological advancements and engineering knowledge.
PEO 3: Industry, Entrepreneurship, and Leadership
Graduates will demonstrate the ability to work effectively in industries such as power systems, renewable energy, electric vehicles, automation, and manufacturing, while also venturing into entrepreneurship and leadership roles where applicable.
PEO 4: Ethical, Sustainable, and Socially Responsible Practice
Graduates will apply engineering knowledge responsibly, adhering to professional ethics, safety standards, and sustainable development principles while serving society and the environment.
PEO 5: Lifelong Learning and Adaptability
Graduates will continuously enhance their professional skills and adapt to technological advancements, global challenges, and societal needs through active lifelong learning.
Program Specific Outcomes (PSO)
PSO 1: Power Systems and Electrical Machines
Analyze, design, and operate power systems and electrical machines using advanced tools and protection techniques to ensure reliable and efficient operation.
PSO 2: Automation, Control, and Embedded Systems
Apply knowledge of power electronics, control systems, PLCs, SCADA, and embedded platforms to develop intelligent and automated engineering solutions.
PSO 3: Renewable Energy, Smart Grid, and Emerging Technologies
Integrate renewable energy systems, electric mobility, smart grid concepts, and energy-efficient technologies through sustainable engineering practices.
