The School of Electrical Engineering (SoEE) at Manipal Institute of Technology, Bengaluru, is dedicated to excellence in education, research, and innovation across Electronics & Communication Engineering, Electronics Engineering (VLSI Design & Technology and Instrumentation Engineering), and Robotics & Artificial Intelligence. The School combines strong academic foundations with hands-on learning, industry engagement, and interdisciplinary research to prepare students for careers in emerging technologies and intelligent engineering systems.

With modern laboratories, project-based learning, internships, and strong collaborations with industry and academia, students gain the technical expertise and practical skills required to solve complex engineering challenges. The School drives innovation across key domains, including semiconductor technology, VLSI design, embedded systems, RF & microwave engineering, wireless communications, artificial intelligence, signal processing, computer vision, robotics, automation, and intelligent systems. By integrating cutting-edge research with industry-oriented learning, SoEE nurtures future-ready engineers equipped to shape the next generation of intelligent and connected technologies.

A key highlight of the School is its Centre of Excellence (CoE) in Autonomous Mobility, established in collaboration with industry partners Virya Autonomous Technologies and Decibels Lab. The Centre provides students and researchers with opportunities to work on cutting-edge technologies in autonomous vehicles, intelligent transportation systems, perception and control systems, AI-driven mobility solutions, robotics, and connected autonomous platforms, bridging the gap between academic learning and industry-driven innovation.

Vision

Striving for excellence in academics and research in Electronics Engineering education through innovation, and teamwork

Mission

To provide exceptional technical education in Electronics and related fields through innovative teaching and learning methods.

To foster creativity, innovation, and design thinking among students by cultivating partnerships with industries and entrepreneurs.

To equip students with the skills to address societal challenges through value-based education anchored in cutting-edge technologies.

To cultivate a vibrant learning atmosphere, foster collaboration and research initiatives among both students and faculty members.

Program Outcomes (New)

PO1 – Engineering Knowledge

Apply the knowledge of mathematics, science, engineering fundamentals, and specialized engineering concepts to identify, formulate, and solve complex engineering problems in diverse domains of engineering and technology.

PO2 – Problem Analysis

Identify, formulate, review relevant literature, and analyze complex engineering problems using principles of mathematics, natural sciences, and engineering sciences to arrive at substantiated conclusions and effective solutions.

PO3 – Design/Development of Solutions

Design innovative solutions for complex engineering problems and develop systems, components, or processes that meet specified needs while considering public health, safety, societal, environmental, and sustainability requirements.

PO4 – Conduct Investigations of Complex Problems

Use research-based knowledge and methodologies, including the design of experiments, analysis and interpretation of data, and synthesis of information, to investigate complex engineering problems and provide valid conclusions.

PO5 – Modern Tool Usage

Create, select, and apply appropriate techniques, resources, and modern engineering and information technology tools, including modeling and simulation tools, with an understanding of their capabilities and limitations.

PO6 – The Engineer and Society

Apply contextual knowledge to assess societal, health, safety, legal, cultural, and environmental issues and understand the responsibilities of professional engineering practice in addressing societal needs.

PO7 – Ethics

Apply ethical principles and commit to professional ethics, responsibilities, integrity, and norms of engineering practice while making decisions and solving engineering problems.

PO8 – Individual and Collaborative Teamwork

Function effectively as an individual, and as a member or leader in diverse and multidisciplinary teams, demonstrating leadership, accountability, adaptability, and collaborative skills to achieve common goals.

PO9 – Communication

Communicate effectively with the engineering community and society at large through technical reports, documentation, presentations, discussions, and the use of modern communication tools to convey complex engineering concepts clearly and professionally.

PO10 – Project Management and Finance

Demonstrate knowledge and understanding of engineering management principles and financial practices, and apply these to manage projects, resources, risks, and multidisciplinary teams effectively in professional environments.

PO11 – Lifelong Learning

Recognize the need for, and engage in, independent and lifelong learning to adapt to technological advancements, emerging challenges, and evolving professional requirements in a rapidly changing global environment.

The School of Electrical Engineering , MIT Bangalore  offers the following programs:


B.Tech -Electronics & Communication Engineering 
B.Tech -Electronics Engineering (VLSI Design & Technology and Instrumentation Engineering)
B.Tech -Robotics & Artificial Intelligence.