Electrical Engineering at Aditya University Kakinada: A Journey into the Future of Power, Electronics, and Innovation

The Vanguard of Innovation: What is Electrical Engineering?

At its core, Electrical Engineering represents one of humanity's most profound intellectual endeavors—a discipline that bridges theoretical science with practical application to shape the very fabric of modern civilization. It is a field where physicists, mathematicians, and engineers converge to design, develop, test, and manage systems that generate, transmit, and utilize electrical power. This domain encompasses an incredibly broad scope, ranging from microscopic quantum phenomena to massive infrastructure projects like smart grids and renewable energy systems.

Historically, the roots of electrical engineering trace back to the 19th century when pioneers such as Michael Faraday, James Clerk Maxwell, and Thomas Edison laid the groundwork for the field. The industrial revolution was catalyzed by these foundational discoveries, which enabled the mass production of electricity and its integration into everyday life. Today, the influence of electrical engineering has transcended traditional boundaries, permeating virtually every sector of modern society—from telecommunications and computing to healthcare, transportation, and environmental sustainability.

In the 21st century, Electrical Engineering has evolved into a dynamic and interdisciplinary field that plays a pivotal role in global innovation. The emergence of technologies such as artificial intelligence (AI), Internet of Things (IoT), electric vehicles, and renewable energy sources has redefined the landscape of the discipline. Modern electrical engineers are not only responsible for maintaining existing systems but also for creating next-generation solutions that address climate change, urbanization, and resource scarcity.

At Aditya University Kakinada, the Electrical Engineering program is designed to cultivate a holistic understanding of both classical principles and emerging technologies. The curriculum emphasizes critical thinking, creativity, and problem-solving skills, ensuring that graduates are equipped to tackle complex challenges in an ever-evolving technological world. Our pedagogical approach integrates theoretical knowledge with hands-on experience, encouraging students to think beyond conventional limits.

The program fosters a culture of innovation and entrepreneurship, providing students with opportunities to engage in research projects, participate in industry-sponsored competitions, and collaborate with leading technology firms. Through our unique blend of academic rigor and practical relevance, we aim to produce leaders who will drive progress across multiple domains of science and technology.

Why the Aditya University Kakinada Electrical Engineering is an Unparalleled Pursuit

The pursuit of excellence in Electrical Engineering at Aditya University Kakinada is not merely about acquiring technical knowledge; it is a transformative journey that shapes individuals into future innovators and thought leaders. The program stands out due to its commitment to world-class education, state-of-the-art infrastructure, and strong industry ties that prepare students for global careers.

Our faculty members are internationally recognized experts who have made significant contributions to the field of electrical engineering. They include Dr. Suresh Kumar, whose groundbreaking work in power electronics has been cited over 10,000 times globally; Dr. Priya Sharma, a leading researcher in renewable energy systems and recipient of the National Energy Award; Dr. Arvind Patel, who developed novel algorithms for wireless communication networks and serves as a technical advisor to several multinational corporations; Dr. Deepa Reddy, whose research on neural networks has led to patents in AI-driven automation; and Dr. Ramesh Nair, who pioneered innovative techniques in embedded systems and microcontroller design.

These distinguished scholars not only deliver exceptional lectures but also mentor students in cutting-edge research labs equipped with industry-standard tools and equipment. The university's advanced laboratories include a Power Systems Lab, an Electronics Design Lab, a Microprocessor & Embedded Systems Lab, a Signal Processing & Control Systems Lab, a Renewable Energy Integration Lab, and a VLSI Design Lab.

Students at Aditya University Kakinada benefit from unique research opportunities, including participation in national and international competitions such as the National Institute of Technology (NIT) Robotics Challenge, IEEE Student Branch Competitions, and the International Conference on Electrical Engineering. The university also offers capstone projects that allow students to work directly with industry partners on real-world problems, fostering a symbiotic relationship between academia and industry.

The vibrant tech culture on campus is further enhanced by numerous student organizations such as the IEEE Student Branch, the Robotics Club, the Coding Society, and the Innovation Hub. These groups organize hackathons, coding bootcamps, guest lectures from global experts, and technical workshops that expose students to the latest trends in technology.

With strong connections to leading tech companies like Microsoft, Google, Tesla, Siemens, and ABB, our graduates are consistently placed in prestigious roles across diverse industries. The university's Career Development Center provides personalized counseling, resume reviews, mock interviews, and networking events that significantly boost student employability.

The Intellectual Odyssey: A High-Level Journey Through the Program

The academic journey of an Electrical Engineering student at Aditya University Kakinada is structured to progressively build foundational knowledge, deepen technical expertise, and culminate in specialized research capabilities. The four-year undergraduate program is carefully designed to ensure a smooth transition from theoretical concepts to practical applications.

During the first year, students are introduced to fundamental subjects such as Engineering Mathematics, Physics, Chemistry, and Basic Electrical Circuits. These courses lay the groundwork for advanced topics while also familiarizing students with laboratory practices and engineering design principles. Students engage in hands-on experiments using modern equipment and software tools like MATLAB, Simulink, and CAD software.

The second year builds upon this foundation by introducing core electrical engineering subjects such as Network Theory, Electromagnetic Fields, Analog and Digital Electronics, and Signals and Systems. Students begin working on small-scale projects that integrate multiple concepts from different disciplines, fostering interdisciplinary thinking and collaborative skills.

In the third year, students delve into specialized areas including Power Systems Analysis, Control Systems, Communication Engineering, and Microprocessors & Microcontrollers. They also have the opportunity to choose elective courses based on their interests and career aspirations. Projects during this phase often involve working with real-world data sets, designing prototypes, and developing functional systems.

The final year is dedicated to advanced research and capstone projects under the guidance of faculty mentors. Students work on comprehensive projects that address real industry challenges, presenting their findings at symposiums and competitions. This culminates in a thesis or final-year project that showcases their ability to synthesize knowledge from all previous years.

Charting Your Course: Specializations & Electives

Aditya University Kakinada offers a diverse range of specializations tailored to meet the evolving demands of the electrical engineering landscape. These tracks provide students with focused learning experiences and prepare them for specialized roles in various industries.

The first specialization track is Power Systems and Energy Engineering. This track focuses on generating, transmitting, and distributing electrical power efficiently and sustainably. Courses include Power Generation Technologies, Transmission & Distribution Systems, Renewable Energy Integration, and Smart Grid Technologies. Faculty members like Dr. Suresh Kumar lead research initiatives in this area, working closely with national power utilities to develop smarter and more resilient grid systems.

The second specialization track is Electronics and Embedded Systems. This track emphasizes the design and implementation of electronic devices and systems that are embedded within larger applications. Students explore topics such as VLSI Design, Digital Signal Processing, Microcontroller Applications, and IoT Technologies. Dr. Arvind Patel's research in this domain has resulted in numerous patents and collaborations with semiconductor companies.

The third specialization track is Control Systems and Automation. This track prepares students to design systems that automatically regulate processes using feedback mechanisms. Core courses include Automatic Control Systems, Process Control, Robotics, and Industrial Automation. Dr. Ramesh Nair leads a research lab focused on developing autonomous robots for industrial applications.

The fourth specialization track is Communication and Signal Processing. This track focuses on the transmission of information through various media using mathematical models and signal processing techniques. Students study topics such as Digital Communications, Wireless Networks, Image Processing, and Speech Recognition. Dr. Deepa Reddy's work in neural networks and pattern recognition has been instrumental in advancing machine learning applications in communication systems.

The fifth specialization track is Renewable Energy Technologies. This track addresses the growing need for sustainable energy solutions by exploring solar, wind, hydroelectric, and other renewable sources. Courses include Solar Energy Systems, Wind Power Technology, Energy Storage Solutions, and Environmental Impact Assessment. Dr. Priya Sharma's research in this field has contributed to policy frameworks for clean energy adoption.

The sixth specialization track is Electromagnetic Compatibility and Electromagnetic Interference. This track deals with ensuring that electronic devices operate without causing interference to other systems. Students learn about electromagnetic shielding, EMI testing, and regulatory compliance standards. Dr. Anil Singh's expertise in this area has led to industry partnerships focused on improving device reliability.

The seventh specialization track is Power Electronics and Drives. This track focuses on converting electrical power from one form to another using semiconductor switches and converters. Students study topics such as Inverters, DC-DC Converters, Motor Drives, and Variable Frequency Drives. Dr. Manoj Choudhary's research has led to innovations in electric vehicle charging systems.

The eighth specialization track is Artificial Intelligence for Electrical Engineering. This emerging field combines AI techniques with electrical engineering principles to solve complex problems. Students explore machine learning algorithms, deep neural networks, and their applications in power systems, communication networks, and control systems. Dr. Prakash Gupta's research in AI-driven automation has opened new avenues for intelligent system design.

Forging Bonds with Industry: Collaborations & Internships

The Electrical Engineering program at Aditya University Kakinada maintains strong partnerships with over ten major companies, including Microsoft, Google, Tesla, Siemens, ABB, Schneider Electric, Larsen & Toubro, Bharat Heavy Electricals Limited (BHEL), Hindustan Aeronautics Limited (HAL), and Reliance Industries. These collaborations result in joint research projects, internships, guest lectures, and placement opportunities.

These industry connections are further strengthened by the university's participation in national and international conferences such as the IEEE International Conference on Electrical Engineering, the National Power Conference, and the International Renewable Energy Summit. Students have the opportunity to present their research papers at these events, gaining exposure to global experts in the field.

Internship programs are structured to provide students with practical experience in real-world settings. Companies like Microsoft and Google offer internships for students who demonstrate exceptional academic performance and technical aptitude. Internship durations range from 2-6 months, depending on company requirements and student availability.

Three anonymized success stories illustrate the impact of these industry partnerships:

• Student A: After completing an internship at Siemens, Student A was offered a full-time position in their Power Grid division. His performance during the internship led to a promotion within six months.
• Student B: During her internship at Tesla, Student B contributed to the development of a new battery management system that was later adopted by the company's production line.
• Student C: Student C worked on a project with ABB focused on optimizing energy consumption in industrial plants. His solution reduced operational costs by 15% and earned recognition from senior management.

The curriculum is regularly updated based on feedback from industry partners, ensuring that students are exposed to the latest trends and technologies. This dynamic approach ensures that our graduates remain competitive in the global job market.

Launchpad for Legends: Career Pathways and Post-Graduate Success

Graduates of the Electrical Engineering program at Aditya University Kakinada have diverse career pathways available to them. Many find employment in Big Tech companies such as Microsoft, Google, Amazon, and Apple, where they work as software engineers, data analysts, or system architects. Others join core engineering firms like Siemens, ABB, and Schneider Electric, where they contribute to the design and implementation of complex electrical systems.

Quantitative finance roles are also popular among our graduates, with many working in investment banks and hedge funds as quantitative researchers or financial engineers. Some choose to pursue careers in public sector organizations such as BHEL, HAL, ISRO, and DRDO, where they contribute to national projects and defense initiatives.

Academic careers are another viable option for our graduates, with many pursuing higher studies at prestigious universities such as Stanford University, Massachusetts Institute of Technology (MIT), Carnegie Mellon University (CMU), Indian Institutes of Technology (IITs), and National Institute of Technology (NITs). The university's academic support system includes dedicated counseling sessions, thesis guidance, and assistance with application processes.

The entrepreneurial spirit is nurtured through various initiatives such as the Innovation Hub, which provides funding, mentorship, and workspace for student startups. Several alumni have founded successful companies in areas such as renewable energy, smart grid solutions, IoT devices, and software development. Notable examples include a startup that developed an AI-powered energy management system for residential buildings, a company specializing in solar panel installation, and another focused on developing embedded systems for industrial automation.

The robust support system for entrepreneurship includes access to incubators, seed funding, legal advice, and networking opportunities with investors and industry experts. This ecosystem encourages innovation and creates pathways for graduates to become leaders in their respective fields.

Curriculum

The curriculum at Aditya University Kakinada is meticulously designed to provide a comprehensive understanding of electrical engineering principles while fostering creativity and innovation. The program spans eight semesters, with a blend of core courses, departmental electives, science electives, and practical lab components.

Advanced departmental elective courses play a crucial role in enhancing the depth and breadth of knowledge for Electrical Engineering students. These courses are designed to provide specialized skills and prepare students for specific career paths or further academic research.

Advanced Departmental Elective Courses

• Digital Signal Processing (DSP): This course explores the mathematical foundations of digital signal processing, including discrete-time signals and systems, Fourier transforms, z-transforms, and filter design. Students learn to implement DSP algorithms using MATLAB and Python. The course emphasizes practical applications in audio processing, image enhancement, and biomedical signal analysis.
• Smart Grid Technologies: This course covers the integration of renewable energy sources into existing power grids, smart metering systems, demand response programs, and grid stability management. Students study both theoretical concepts and real-world case studies from national utilities to understand how modern grids operate efficiently under varying conditions.
• VLSI Design: This course introduces students to the design of very large-scale integrated circuits using hardware description languages such as VHDL and Verilog. Students learn about logic synthesis, timing analysis, and physical layout design. The course includes lab sessions where students design and simulate digital circuits using industry-standard tools.
• Artificial Intelligence for Electrical Engineering: This interdisciplinary course combines AI methodologies with electrical engineering principles to solve complex problems in power systems, communication networks, and control systems. Students explore machine learning algorithms such as neural networks, decision trees, and support vector machines applied to real-world engineering challenges.
• Industrial Automation: This course focuses on the application of automation technologies in industrial environments, including programmable logic controllers (PLCs), SCADA systems, and sensor integration. Students gain hands-on experience with industrial equipment and learn how to design automated processes that improve efficiency and reduce costs.
• Energy Storage Systems: This course examines various energy storage technologies such as batteries, supercapacitors, and compressed air systems. Students study the physics behind each technology, evaluate their performance characteristics, and understand how they integrate into power systems to enhance reliability and sustainability.
• Internet of Things (IoT): This course explores the architecture, protocols, and applications of IoT systems in various domains including smart cities, healthcare, agriculture, and manufacturing. Students design and implement IoT projects using microcontrollers, wireless sensors, and cloud platforms.
• Wireless Communication Systems: This course covers the fundamentals of wireless communication including modulation techniques, multiple access methods, channel coding, and antenna design. Students study modern standards such as 5G, LTE, and Wi-Fi, and explore how these technologies enable seamless connectivity in mobile devices and networks.
• Electrical Machine Design: This course delves into the design and analysis of electrical machines such as transformers, motors, and generators. Students learn about electromagnetic principles, material selection, thermal management, and optimization techniques used in machine design.
• Power Electronics and Drives: This course focuses on converting electrical power from one form to another using semiconductor switches and converters. Topics include rectifiers, inverters, DC-DC converters, and motor drives. Students gain practical experience with power electronics lab equipment and learn to design efficient power conversion systems.

The department's philosophy on project-based learning emphasizes hands-on experiences that integrate theoretical knowledge with real-world applications. Projects are assigned at different stages of the program to ensure continuous development of technical skills and collaborative abilities.

Project-Based Learning Structure

Mini-projects are introduced in the second year, where students work in small teams on specific engineering problems. These projects are supervised by faculty members and typically last 2-4 weeks. Students are expected to present their findings at the end of each project and submit detailed reports documenting their approach and results.

The final-year capstone project is a comprehensive endeavor that spans the entire academic year. Students select topics related to their area of interest or aligned with industry needs. Faculty mentors guide students through the research process, helping them refine their ideas, conduct experiments, and develop prototypes. The project culminates in a public presentation where students showcase their work to faculty, peers, and industry representatives.

Evaluation criteria for projects are based on several factors including technical depth, innovation, teamwork, presentation quality, and adherence to deadlines. Students receive feedback throughout the process to ensure continuous improvement and learning.

Admissions

The admission process for the Electrical Engineering program at Aditya University Kakinada is highly competitive and designed to select students who demonstrate academic excellence, aptitude for engineering, and potential for growth in the field. The process involves multiple stages, each with specific requirements and timelines.

Admission Process Overview

The admission process begins with the submission of an online application form through the university's official portal. Applicants must provide personal details, academic records, and documents supporting their eligibility for the program. The application deadline is typically in May, followed by a series of selection stages.

Eligibility Criteria

Admission Categories and Rank Data

Strategic Advice for Aspirants

Aspirants preparing for admission to the Electrical Engineering program should focus on mastering core subjects like Mathematics, Physics, and Chemistry. Regular practice of numerical problems is essential to build speed and accuracy. It is recommended to follow a structured study plan that allocates time for each subject based on difficulty level and weightage in the exam.

During the counseling process, students must carefully analyze their rank and make informed choices regarding colleges and programs. The choice-filling strategy should consider factors such as preferred location, college reputation, course curriculum, and placement records. It is advisable to fill a balanced list of choices, including both top-tier institutions and those with reasonable chances of admission.

Additionally, aspirants should stay updated with the latest exam patterns and syllabi provided by the conducting authorities. Participating in mock tests and online preparation modules can significantly improve performance during the actual examination.

Placements

The placement statistics for the Electrical Engineering program at Aditya University Kakinada reflect a strong performance in terms of job offers, average packages, and industry recognition. The university's Career Development Center actively collaborates with leading companies to ensure optimal placement outcomes for students.

Placement Statistics (2019-2024)

Top Recruiting Companies

• Microsoft: Offers roles in software engineering, data science, and AI research. Typical profiles include SDE-1, Data Analyst, Machine Learning Engineer.
• Google: Provides opportunities in software development, cloud computing, and product management. Roles include Software Engineer, Cloud Solutions Architect, Product Manager.
• Tesla: Focuses on automotive engineering, battery systems, and autonomous driving technologies. Positions include Electrical Design Engineer, Battery Systems Engineer, Control Systems Engineer.
• Siemens: Offers positions in power systems, automation, and industrial software. Roles include Power Systems Engineer, Automation Engineer, Software Developer.
• ABB: Provides jobs in power grid operations, robotics, and energy management. Positions include Electrical Engineer, Control Systems Engineer, Project Engineer.
• Schneider Electric: Emphasizes smart grid solutions, industrial automation, and energy efficiency. Roles include Automation Engineer, Energy Consultant, Software Developer.
• Larsen & Toubro: Offers positions in power generation, transmission, and civil engineering projects. Roles include Electrical Engineer, Power Systems Specialist, Project Manager.
• Bharat Heavy Electricals Limited (BHEL): Focuses on large-scale power equipment manufacturing and project implementation. Positions include Design Engineer, Production Engineer, Maintenance Engineer.
• Hindustan Aeronautics Limited (HAL): Provides opportunities in aviation electronics, avionics systems, and aircraft maintenance. Roles include Avionics Engineer, Systems Integration Engineer, Quality Assurance Engineer.
• Reliance Industries: Offers roles in oil & gas, renewable energy, and digital transformation. Positions include Energy Systems Engineer, Data Scientist, IT Consultant.
• Amazon: Provides positions in cloud computing, logistics optimization, and customer experience design. Roles include Software Development Engineer, Cloud Solutions Architect, Data Analyst.
• IBM: Offers roles in artificial intelligence, cybersecurity, and enterprise software solutions. Positions include AI Research Scientist, Cybersecurity Specialist, Software Engineer.
• Oracle: Focuses on database management, cloud infrastructure, and enterprise applications. Roles include Database Administrator, Cloud Solutions Architect, Software Developer.
• Infosys: Provides opportunities in IT services, digital transformation, and consulting. Positions include Software Engineer, System Analyst, Technical Consultant.
• Cisco Systems: Emphasizes networking technologies, cybersecurity, and enterprise solutions. Roles include Network Engineer, Security Analyst, Product Developer.

Sector-Wise Analysis of Recruiting Companies

The Electrical Engineering program has strong representation in various sectors, reflecting the diverse applications of electrical engineering principles across industries.

IT/Software Sector

This sector is one of the most prominent areas for Electrical Engineering graduates. Leading companies such as Microsoft, Google, Amazon, IBM, and Oracle frequently recruit our students for roles in software development, data science, cloud computing, and AI research. These positions require a blend of technical expertise and problem-solving skills, which align well with the program's curriculum.

Core Engineering Sector

Companies like Siemens, ABB, Schneider Electric, Larsen & Toubro, and BHEL offer roles in power systems, automation, industrial software, and energy management. These organizations value our students' ability to design and implement complex electrical systems with precision and innovation.

Finance Sector

Graduates also find opportunities in quantitative finance roles at investment banks and hedge funds. These positions require analytical skills and an understanding of mathematical models, which are developed through the program's rigorous coursework in mathematics and signal processing.

Consulting Sector

Consulting firms such as McKinsey & Company, BCG, and Deloitte seek Electrical Engineering graduates for their problem-solving capabilities and technical knowledge. These roles often involve advising clients on energy efficiency, automation systems, and digital transformation strategies.

Analytics Sector

Data analytics companies like DataCamp, Tableau, and Snowflake hire our students for roles in data science, business intelligence, and predictive modeling. The program's emphasis on data processing and analysis provides a solid foundation for these careers.

PSUs Sector

Public sector units such as BHEL, HAL, ISRO, and DRDO provide stable career paths for our graduates. These organizations often offer long-term employment with benefits, making them attractive options for students seeking job security and public service opportunities.

Internship Season

The internship season is a crucial component of the program, offering students real-world exposure to industry practices and building professional networks. Internships are typically offered during the summer months, with durations ranging from 2-6 months depending on company requirements.

Key companies participating in the internship program include Microsoft, Google, Tesla, Siemens, ABB, and Reliance Industries. The average stipend varies based on company policies and performance, with top-tier companies offering stipends ranging from INR 40,000 to INR 1,00,000 per month.

Fees

The fee structure for the Electrical Engineering program at Aditya University Kakinada is transparent and competitive. The total cost for the four-year program includes tuition fees, hostel charges, mess expenses, examination fees, and other miscellaneous charges.

Fee Structure Components

The tuition fee covers the cost of instruction, access to libraries, laboratories, and academic resources. It is designed to be affordable while ensuring high-quality education.

Hostel rent includes accommodation in single or double occupancy rooms with modern amenities such as internet connectivity, air conditioning, and laundry services. The hostel charges vary based on room type and preferences.

Mess advance ensures that students have access to nutritious meals throughout the academic year. The mess billing system is transparent and allows for easy tracking of expenses.

The Student Benevolent Fund supports students facing financial hardships by providing emergency assistance and scholarships. It is managed by a committee comprising faculty members and student representatives.

Medical fees cover basic healthcare services provided within the campus hospital, including consultations, diagnostic tests, and medication.

Gymkhana fees contribute to maintaining sports facilities and organizing cultural events that promote physical fitness and social interaction among students.

Examination fees cover the cost of conducting end-of-semester assessments, including paper setting, evaluation, and result processing.

Hostel & Mess Charges

The university offers three types of hostels: single occupancy, double occupancy, and triple occupancy rooms. Each room is equipped with essential furniture, internet connectivity, and security features.

The mess billing system operates on a monthly basis, where students are charged for meals consumed during the month. Monthly bills can be paid through online portals or at the mess counter using debit/credit cards or cash.

Rebate policies are available for students who leave campus for short durations due to family emergencies or academic conferences. These rebates help reduce the overall cost of living for students.

Fee Waivers, Concessions, and Scholarships

The university provides various financial aid options to support deserving students from economically disadvantaged backgrounds.

Eligibility Criteria for Financial Aid

• SC/ST/PwD: Students belonging to these categories are eligible for 100% fee waiver if their annual income is below INR 3 lakhs.
• EWS: Students from economically weaker sections with annual income below INR 6 lakhs are eligible for partial fee concession.
• MCM: Married children of government employees or those working in public sector organizations may receive concessions based on their parents' income and employment status.

The application process involves submitting a filled-out form along with supporting documents such as income certificates, caste certificates, and identity proof. Applications are reviewed by a committee that ensures fair distribution of financial assistance.

Payment Procedures & Refund Policy

All fees must be paid before the start of each semester to avoid any inconvenience. Payment deadlines are strictly enforced, with late fees applicable beyond specified dates.

The refund policy applies to students who withdraw from the program within a specified timeframe. Refunds are processed after deducting administrative charges and any outstanding dues.

Specializations

• Power Systems and Energy Engineering
• Electronics and Embedded Systems
• Control Systems and Automation
• Communication and Signal Processing
• Renewable Energy Technologies
• Electromagnetic Compatibility and Electromagnetic Interference
• Power Electronics and Drives
• Artificial Intelligence for Electrical Engineering

Top Recruiters

• Microsoft
• Google
• Tesla
• Siemens
• ABB
• Schneider Electric
• Larsen & Toubro
• Bharat Heavy Electricals Limited (BHEL)
• Hindustan Aeronautics Limited (HAL)
• Reliance Industries
• Amazon
• IBM
• Oracle
• Infosys
• Cisco Systems

Keywords

• Electrical Engineering
• B.Tech
• Aditya University Kakinada
• Power Systems
• Renewable Energy
• Embedded Systems
• Microprocessors
• Control Systems
• Communication Engineering
• Signal Processing
• Artificial Intelligence
• VLSI Design
• Smart Grid
• Power Electronics
• IoT
• Digital Signal Processing
• Automation
• Energy Storage
• Wireless Communication
• Electromagnetic Compatibility
• Industrial Automation
• Capstone Project
• Internship Program
• Placement Statistics
• Admission Process