B.Tech in Cyber-Physical Systems (CPS)

The B.Tech in Cyber-Physical Systems (CPS) is an interdisciplinary programme that combines computation, control and networking capabilities to create a seamless interaction between the digital and physical worlds. CPS engineering degree prepares students for innovative careers in industries like robotics, automation, IoT, gaming, systems engineering and smart systems.

Course Structure Apply Now

Duration

4 Years (8 semesters)

Course Level

CPS engineering degree

Mode of Course

Full Time

Admission Deadline

June 2025

Programme Overview

Cyber-Physical Systems (CPS) is considered the base on which smart technology is developed: it connects computer science with physical worlds. These systems merge all mechanical, electrical, and computational systems towards real-time monitoring, automation and intelligent decision making.

This interdisciplinary programme (B.Tech in Cyber Physical Systems) enables students to develop designs, inventions, and innovation in areas that include smart cities, autonomous vehicles, healthcare monitoring systems, and industrial automation.

Objective of B.Tech program in Cyber Physical Systems (CPS)

The B.Tech program in Cyber Physical Systems (CPS) combines electrical engineering with computer science focusing on both the hardware and software for building robust cyber-physical systems that respond to real-time events and culminates in a capstone design experience. B.Tech graduates in Cyber Physical systems will be prepared to pursue engineering careers with the new and modernized public utilities and industrial facilities, that will contribute solutions in line with Industry 4.0 to meet the growing demand for smarter, connected, electronic systems, which includes the upcoming areas of IoT and smart (autonomous) vehicles with rolling stock designers and manufacturers such as Alstom, Honeywell, GE, Reliance, etc. or to pursue post graduate education.

Why Choose Cyber-Physical Systems as a Stream?

Emerging Technology

CPS is a backbone in Industry 4.0 with applications in very diverse domains from robotics to transportation and smart infrastructure.

Global Demand

Professionals with training in CPS are highly sought after for leadership roles that innovate automation and intelligent systems.

Future-Driven Learning

The programme aims to prepare the students with the latest skills to make them competitive in the challenging job market.

Career Opportunities

Graduates of B. Tech Cyber Physical Systems this programme are prepared for high-impact roles, such as:

Cyber Systems Administrator

Embedded Software Engineer

Cyber Engineer

Cyber-Physical Systems 365体育投注 Engineer

Automation Engineers

Design and test engineers

System model and programmers

Cyber-Physical Systems Engineer

IoT Specialist

Robotics Developer

Embedded Systems Architect

AI 365体育投注er

Objectives and Outcomes

Objectives

Demonstrate proficiency in sensing, communication, computation, and controls by applying theory to practice to meet the expectations of industry and pursue higher studies.

Pursue research in multi-disciplinary areas relevant to industry with emphasis on cyber security, sustainability, environment and safety.

Excel in varied working environments, demonstrate effective communication skills and showcase leadership qualities.

Adopt latest developments by life-long learning with professional and ethical integrity with socio-economic concerns.

Outcomes

Analyse and evaluate the fundamental concepts of sensing, communication, processing and networking for development of meta systems.

Real time monitor, analyse and control physical processes through the integration relevant to industry, health care, gaming and allied fields of engineering.

Apply engineering concepts and skills to build cyber physical systems for autonomous functioning with concern to safety and security.

The B.Tech in Cyber-Physical Systems syllabus is designed with a balance between theoretical knowledge and hands-on practical experience to ensure that the learning process is holistic.

Click here for the Course Structure

Year-Wise Breakdown

Provides foundational knowledge of engineering principles and computer programming.
Key subjects include:

Engineering Mathematics
Computer Science Fundamentals
Basic Electronics

Introduces core concepts of CPS, including control systems and embedded programming.

Key subjects include:

Analog and digital electronics
Sensor technologies
Communication systems and digital transmission
Data structures and algorithms
Control Systems
Embedded Systems Design
Sensor Systems and internet of things (IoT)

Explores advanced topics such as IoT, artificial intelligence, and networked systems.
Key subjects include:

Internet of Things (IoT)
Robotics and Automation
Machine Learning for CPS

Focuses on specialisation and capstone projects that address real-world problems.
Key components include:

Elective Specializations (e.g., Digital Twins, Cybersecurity for CPS)
Capstone Project: Application of CPS knowledge to industry challenges

Hands-On Learning

Lab Work

Dedicated labs for IoT, robotics and embedded systems.

Industry Collaborations

Projects in partnership with global companies

Internships

Opportunities to work with leading firms in the technology and automation sectors.

Key Learning Outcomes

Students completing B.Tech in Cyber Physical Systems programme will acquire:

Technical Proficiency

The proficiency in design of embedded systems, IoT, and real-time computing
Advanced skills and knowledge on algorithms, system modeling, and optimisation.

Integration of Cyber and Physical Systems

Skills on designing scalable hardware, software, and networks- integrated systems.
Understanding the principles of processing real-time data with decision-making.

Industry 4.0 Readiness

Immersion to real-world applications in automation, robotics, and AI.
Use of tools such as MATLAB, UNITY, TensorFlow and ROS for embedded systems and automation.

Admission Requirements

Passed 10+2 (or equivalent) with Physics, Mathematics and Chemistry/Biology/Computer Science as core subjects.
Minimum qualifying percentage as per programme guidelines.

Candidates must qualify for the 365体育投注 Entrance Test (MET)

Application Starts:?January 2025
Last Date for MET Application:?15th March 2025
Admission Deadline:?June 2025

Make sure to keep track of these important dates to avoid missing out on the opportunity to apply.

Application Process

The application process to B.Tech in Cyber-Physical Systems at MIT 365体育投注 is designed to be very simple. For a smooth application experience, follow the below steps:

Online Registration

- Go to the official website of MIT 365体育投注 and create an account to start your application process. - Fill in the basic personal information and contact details.

Fill in the Application Form

Complete the application form with all detailed information, such as academic background, extracurricular achievements, and preference course specialization.

Document Uploading

- Upload the documents required - Mark sheets of 10th and 12th marks - Passport size photographs - Aadhar Card-if required - Birth certificate - Proof of address - Other certificates related to sports, extracurricular activities, etc.

Application Fee Payment

Online payment gateway is enabled for paying a non-refundable application fee, depending upon the type of application. The fee may be for General/Reserved categories.

Submission

After all the information entered is reviewed, submit your application.

MET Examination

Applicants need to write the entrance test, the MET, on the scheduled date.

Interview (if applicable)

Based on the MET score and other criteria, some candidates will be invited for an interview or counselling session.

Facilities and Resources

MIT 365体育投注 provides a world-class learning environment with cutting-edge facilities to support academic and extracurricular activities:

State-of-the-art Laboratories

The B.Tech Cyber-Physical Systems programme is supported by well-equipped labs, including robotics, electronics, and IoT labs.

365体育投注 Centres

The university has established research centres focusing on Cyber-Physical Systems, AI and robotics to foster innovation and hands-on learning.

Advanced Computing Facilities

Students have access to high-performance computing systems for simulations and research projects.

Library and Learning Resources

The MIT 365体育投注 Library is stocked with the latest academic texts, journals, and digital resources to support students' research and learning.

Campus Infrastructure

The sprawling campus features Wi-Fi-enabled classrooms, smart boards, and seminar halls for interactive learning.

Clubs and Student-driven Initiatives

Various clubs and student societies related to technology, robotics, and engineering provide platforms for students to explore their interests and collaborate on projects.

Internship and Placement Opportunities

Industry Partnerships

MIT 365体育投注 has strong collaborations with leading tech companies, including IBM, Intel, and Siemens, ensuring that students receive exposure to real-world applications of Cyber-Physical Systems.

Internship programmes

The programme includes mandatory internship opportunities where students work on live projects with industrial partners. The internships enable students to integrate theoretical knowledge with practical skills, ultimately enhancing employability.

Placement Statistics

The placement cell at MIT 365体育投注 has a record of placing students in top companies such as Microsoft, Amazon, TCS, and Bosch. The B.Tech in Cyber-Physical Systems has impressive placement statistics with a very high percentage of graduates being placed in leading engineering and tech firms.

Career Development Centre (CDC)

The CDC provides students with resume building, mock interviews, and career counselling. By the time students graduate, it ensures that the students are ready for the industry.

Student Achievements

Achievements in Competitions

- MIT 365体育投注 students have consistently ranked in the top positions in national and international robotics competitions. - The university's team won the first prize at the TechXplore robotics challenge, showcasing their expertise in Cyber-Physical Systems and automation.

Collaborations

Students often collaborate with leading industry giants on research projects, where their solutions have been adopted by organizations to improve automation and system efficiency.

B. Tech CPS Course Faculty Details

The B.Tech in Cyber-Physical Systems programme at MIT 365体育投注 is offered by a faculty consisting of highly qualified and experienced professors.

Expertise

Faculty members hold PhDs from reputed institutions and have extensive industry experience.

365体育投注 Interests

The faculty’s research interests include AI, robotics, IoT, and system engineering, allowing students to explore emerging technologies.

Industry Experience

Many professors have industry experience through work with leading tech companies, thereby bringing valuable insight to the classroom.

Teaching Philosophy

The faculty employs a more practical approach to teaching; projects and internships are used in learning.

Meet Our Faculty

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