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The B.Tech in Electronics and Communication Engineering (ECE) program at UEM Jaipur is a dynamic and future-oriented program that combines core knowledge in electronics with communication technologies. The curriculum is designed to prepare students for careers in diverse fields such as telecommunications, embedded systems, VLSI design, IoT, and AI applications in communication.
Program Overview
The ECE program integrates the principles of electronics and communication with cutting-edge technologies to solve real-world problems. Students gain a strong foundation in circuit design, signal processing, communication systems, and microelectronics, along with hands-on exposure to emerging fields like 5G, IoT, and robotics.
Program Objectives
Technical Mastery: Develop expertise in the design, analysis, and implementation of electronic and communication systems.
Innovation and Research: Encourage creativity and innovation through research-oriented projects and industry collaborations.
Ethics and Professionalism: Foster ethical engineering practices and sustainable solutions for societal challenges.
Lifelong Learning: Equip students with the skills to adapt to evolving technologies and pursue advanced education or professional growth.
Program Structure
Core Areas
Basic Sciences and Mathematics
Engineering Mathematics
Physics for Electronics
Probability and Random Processes
Core ECE Courses
Analog and Digital Electronics
Microprocessors and Microcontrollers
Signals and Systems
Electromagnetic Theory
Communication Systems (Analog and Digital)
VLSI Design
Embedded Systems
Wireless Communication
Specialized Electives
Internet of Things (IoT)
Artificial Intelligence and Machine Learning in ECE
5G and Beyond Communication Systems
Advanced Signal Processing
Robotics and Automation
Practical and Project Work
Circuit Design and Simulation Lab
Communication Systems Lab
Embedded Systems Lab
Capstone Projects and Mini-Projects
Laboratory Facilities
Advanced Communication Lab: Experiments on modulation, demodulation, and advanced communication protocols.
VLSI and Microelectronics Lab: Design and simulation of digital circuits and ICs.
Robotics and IoT Lab: Hands-on experience in embedded programming and IoT applications.
Signal Processing Lab: Real-time audio and image processing systems.
Skill Development
Technical Skills: Circuit analysis, coding for embedded systems, communication protocols, and hardware-software integration.
Soft Skills: Project management, communication, teamwork, and leadership.
Software Tools: Proficiency in MATLAB, Multisim, Xilinx, LabVIEW, and Cadence.
Career Opportunities
Graduates can pursue careers in diverse domains such as:
Telecommunications: Network design, mobile communications, and satellite systems.
Embedded Systems: Design and development of IoT devices, smart appliances, and robotics.
VLSI Design: Chip design, fabrication, and testing.
Software Development: Roles in AI, ML, and data science tailored to communication systems.
Public Sector: Opportunities in organizations like ISRO, DRDO, BSNL, and BHEL.
Industry and Research Exposure
Internships: Mandatory internships in reputed companies or research labs.
Workshops and Seminars: Participation in industry-led training programs on IoT, AI, and communication technologies.
Research Projects: Opportunities to work on cutting-edge research in collaboration with faculty and industry partners.
Higher Education and Certifications
Graduates are well-prepared for:
Postgraduate studies in ECE, IoT, or AI.
Certifications in fields like VLSI, Embedded Systems, and Networking (CCNA, CCNP).
Emerging Technologies in the Curriculum
The program incorporates:
5G and Beyond Communication Systems
IoT and Smart Devices
AI and ML for Communication Systems
Quantum Communication and Computing
Community Engagement
Students engage in projects with societal impact, such as:
Developing communication solutions for rural areas.
Implementing IoT solutions for smart cities.
Participation in NSS and other community welfare initiatives.
Key Highlights
Hands-on Learning: Extensive lab work and practical exposure to real-world challenges.
Global Collaborations: Opportunities to participate in international exchange programs and global competitions.
Placement Opportunities: Access to top recruiters in telecommunications, electronics, and IT sectors.
Student Clubs: Active participation in ECE-related clubs, hackathons, and technical events.
Programme overview
Main Subject
Engineering - Electrical and Electronic
Degree
BTech
Study Level
Undergraduate
Study Mode
On Campus
The B.Tech in Electronics and Communication Engineering (ECE) program at UEM Jaipur is a dynamic and future-oriented program that combines core knowledge in electronics with communication technologies. The curriculum is designed to prepare students for careers in diverse fields such as telecommunications, embedded systems, VLSI design, IoT, and AI applications in communication.
Program Overview
The ECE program integrates the principles of electronics and communication with cutting-edge technologies to solve real-world problems. Students gain a strong foundation in circuit design, signal processing, communication systems, and microelectronics, along with hands-on exposure to emerging fields like 5G, IoT, and robotics.
Program Objectives
Technical Mastery: Develop expertise in the design, analysis, and implementation of electronic and communication systems.
Innovation and Research: Encourage creativity and innovation through research-oriented projects and industry collaborations.
Ethics and Professionalism: Foster ethical engineering practices and sustainable solutions for societal challenges.
Lifelong Learning: Equip students with the skills to adapt to evolving technologies and pursue advanced education or professional growth.
Program Structure
Core Areas
Basic Sciences and Mathematics
Engineering Mathematics
Physics for Electronics
Probability and Random Processes
Core ECE Courses
Analog and Digital Electronics
Microprocessors and Microcontrollers
Signals and Systems
Electromagnetic Theory
Communication Systems (Analog and Digital)
VLSI Design
Embedded Systems
Wireless Communication
Specialized Electives
Internet of Things (IoT)
Artificial Intelligence and Machine Learning in ECE
5G and Beyond Communication Systems
Advanced Signal Processing
Robotics and Automation
Practical and Project Work
Circuit Design and Simulation Lab
Communication Systems Lab
Embedded Systems Lab
Capstone Projects and Mini-Projects
Laboratory Facilities
Advanced Communication Lab: Experiments on modulation, demodulation, and advanced communication protocols.
VLSI and Microelectronics Lab: Design and simulation of digital circuits and ICs.
Robotics and IoT Lab: Hands-on experience in embedded programming and IoT applications.
Signal Processing Lab: Real-time audio and image processing systems.
Skill Development
Technical Skills: Circuit analysis, coding for embedded systems, communication protocols, and hardware-software integration.
Soft Skills: Project management, communication, teamwork, and leadership.
Software Tools: Proficiency in MATLAB, Multisim, Xilinx, LabVIEW, and Cadence.
Career Opportunities
Graduates can pursue careers in diverse domains such as:
Telecommunications: Network design, mobile communications, and satellite systems.
Embedded Systems: Design and development of IoT devices, smart appliances, and robotics.
VLSI Design: Chip design, fabrication, and testing.
Software Development: Roles in AI, ML, and data science tailored to communication systems.
Public Sector: Opportunities in organizations like ISRO, DRDO, BSNL, and BHEL.
Industry and Research Exposure
Internships: Mandatory internships in reputed companies or research labs.
Workshops and Seminars: Participation in industry-led training programs on IoT, AI, and communication technologies.
Research Projects: Opportunities to work on cutting-edge research in collaboration with faculty and industry partners.
Higher Education and Certifications
Graduates are well-prepared for:
Postgraduate studies in ECE, IoT, or AI.
Certifications in fields like VLSI, Embedded Systems, and Networking (CCNA, CCNP).
Emerging Technologies in the Curriculum
The program incorporates:
5G and Beyond Communication Systems
IoT and Smart Devices
AI and ML for Communication Systems
Quantum Communication and Computing
Community Engagement
Students engage in projects with societal impact, such as:
Developing communication solutions for rural areas.
Implementing IoT solutions for smart cities.
Participation in NSS and other community welfare initiatives.
Key Highlights
Hands-on Learning: Extensive lab work and practical exposure to real-world challenges.
Global Collaborations: Opportunities to participate in international exchange programs and global competitions.
Placement Opportunities: Access to top recruiters in telecommunications, electronics, and IT sectors.
Student Clubs: Active participation in ECE-related clubs, hackathons, and technical events.
Admission Requirements
5+
1. Academic Qualifications
· Educational Background : Applicants must have completed 10+2 (or equivalent) from a recognized board.
· Core Subjects : Physics, Chemistry, and Mathematics must be included in the 10+2 curriculum.
· Minimum Percentage : A minimum aggregate score 60% is required.
2. Entrance Exam
· Accepted Exams : A valid score in national or state-level entrance examinations such as JEE Main or other university-specific entrance tests is mandatory.
· Cut-Off Scores : Applicants must meet the cut-off criteria as determined by the institution for the respective entrance exam.
3. Age Criteria
· Candidates must typically be at least 17 years old at the time of admission.
· Upper age limits, if applicable, are outlined by the institution or exam authority.
4. Direct Admission Options
· Some institutions offer direct admission based on merit in 10+2 examinations or through management quota seats.
5 . Required Documents
· Completed application form
· 10th and 12th grade mark sheets and passing certificates
· Entrance exam scorecard
· Photo ID proof (e.g., Aadhaar Card, Passport)
· Passport-sized photographs
· Migration or transfer certificate (if applicable)
· English proficiency test scores (for international applicants)
6 . Additional Requirements (If Applicable)
· Reservation Criteria : Applicants eligible under reserved categories (SC/ST/OBC/PwD) may need to provide supporting certificates.
· Extracurricular Achievements : Certificates for achievements in extracurricular activities or sports may be required for special admission categories.
7 . Application Process
· Applications are usually submitted online.
· Candidates must ensure they meet all eligibility criteria and provide accurate documentation to avoid disqualification.
30 Jun 2024
4 Years
Jul
Domestic
50,000 INR
Domestic (Out of State)
50,000 INR
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
ECE
48 monthsProgramme duration
30 Jun, 2024Application Deadline
Engineering - Electrical and ElectronicMain Subject Area
Programme overview
Main Subject
Engineering - Electrical and Electronic
Degree
BTech
Study Level
Undergraduate
Study Mode
On Campus
The B.Tech in Electronics and Communication Engineering (ECE) program at UEM Jaipur is a dynamic and future-oriented program that combines core knowledge in electronics with communication technologies. The curriculum is designed to prepare students for careers in diverse fields such as telecommunications, embedded systems, VLSI design, IoT, and AI applications in communication.
Program Overview
The ECE program integrates the principles of electronics and communication with cutting-edge technologies to solve real-world problems. Students gain a strong foundation in circuit design, signal processing, communication systems, and microelectronics, along with hands-on exposure to emerging fields like 5G, IoT, and robotics.
Program Objectives
Technical Mastery: Develop expertise in the design, analysis, and implementation of electronic and communication systems.
Innovation and Research: Encourage creativity and innovation through research-oriented projects and industry collaborations.
Ethics and Professionalism: Foster ethical engineering practices and sustainable solutions for societal challenges.
Lifelong Learning: Equip students with the skills to adapt to evolving technologies and pursue advanced education or professional growth.
Program Structure
Core Areas
Basic Sciences and Mathematics
Engineering Mathematics
Physics for Electronics
Probability and Random Processes
Core ECE Courses
Analog and Digital Electronics
Microprocessors and Microcontrollers
Signals and Systems
Electromagnetic Theory
Communication Systems (Analog and Digital)
VLSI Design
Embedded Systems
Wireless Communication
Specialized Electives
Internet of Things (IoT)
Artificial Intelligence and Machine Learning in ECE
5G and Beyond Communication Systems
Advanced Signal Processing
Robotics and Automation
Practical and Project Work
Circuit Design and Simulation Lab
Communication Systems Lab
Embedded Systems Lab
Capstone Projects and Mini-Projects
Laboratory Facilities
Advanced Communication Lab: Experiments on modulation, demodulation, and advanced communication protocols.
VLSI and Microelectronics Lab: Design and simulation of digital circuits and ICs.
Robotics and IoT Lab: Hands-on experience in embedded programming and IoT applications.
Signal Processing Lab: Real-time audio and image processing systems.
Skill Development
Technical Skills: Circuit analysis, coding for embedded systems, communication protocols, and hardware-software integration.
Soft Skills: Project management, communication, teamwork, and leadership.
Software Tools: Proficiency in MATLAB, Multisim, Xilinx, LabVIEW, and Cadence.
Career Opportunities
Graduates can pursue careers in diverse domains such as:
Telecommunications: Network design, mobile communications, and satellite systems.
Embedded Systems: Design and development of IoT devices, smart appliances, and robotics.
VLSI Design: Chip design, fabrication, and testing.
Software Development: Roles in AI, ML, and data science tailored to communication systems.
Public Sector: Opportunities in organizations like ISRO, DRDO, BSNL, and BHEL.
Industry and Research Exposure
Internships: Mandatory internships in reputed companies or research labs.
Workshops and Seminars: Participation in industry-led training programs on IoT, AI, and communication technologies.
Research Projects: Opportunities to work on cutting-edge research in collaboration with faculty and industry partners.
Higher Education and Certifications
Graduates are well-prepared for:
Postgraduate studies in ECE, IoT, or AI.
Certifications in fields like VLSI, Embedded Systems, and Networking (CCNA, CCNP).
Emerging Technologies in the Curriculum
The program incorporates:
5G and Beyond Communication Systems
IoT and Smart Devices
AI and ML for Communication Systems
Quantum Communication and Computing
Community Engagement
Students engage in projects with societal impact, such as:
Developing communication solutions for rural areas.
Implementing IoT solutions for smart cities.
Participation in NSS and other community welfare initiatives.
Key Highlights
Hands-on Learning: Extensive lab work and practical exposure to real-world challenges.
Global Collaborations: Opportunities to participate in international exchange programs and global competitions.
Placement Opportunities: Access to top recruiters in telecommunications, electronics, and IT sectors.
Student Clubs: Active participation in ECE-related clubs, hackathons, and technical events.
Programme overview
Main Subject
Engineering - Electrical and Electronic
Degree
BTech
Study Level
Undergraduate
Study Mode
On Campus
The B.Tech in Electronics and Communication Engineering (ECE) program at UEM Jaipur is a dynamic and future-oriented program that combines core knowledge in electronics with communication technologies. The curriculum is designed to prepare students for careers in diverse fields such as telecommunications, embedded systems, VLSI design, IoT, and AI applications in communication.
Program Overview
The ECE program integrates the principles of electronics and communication with cutting-edge technologies to solve real-world problems. Students gain a strong foundation in circuit design, signal processing, communication systems, and microelectronics, along with hands-on exposure to emerging fields like 5G, IoT, and robotics.
Program Objectives
Technical Mastery: Develop expertise in the design, analysis, and implementation of electronic and communication systems.
Innovation and Research: Encourage creativity and innovation through research-oriented projects and industry collaborations.
Ethics and Professionalism: Foster ethical engineering practices and sustainable solutions for societal challenges.
Lifelong Learning: Equip students with the skills to adapt to evolving technologies and pursue advanced education or professional growth.
Program Structure
Core Areas
Basic Sciences and Mathematics
Engineering Mathematics
Physics for Electronics
Probability and Random Processes
Core ECE Courses
Analog and Digital Electronics
Microprocessors and Microcontrollers
Signals and Systems
Electromagnetic Theory
Communication Systems (Analog and Digital)
VLSI Design
Embedded Systems
Wireless Communication
Specialized Electives
Internet of Things (IoT)
Artificial Intelligence and Machine Learning in ECE
5G and Beyond Communication Systems
Advanced Signal Processing
Robotics and Automation
Practical and Project Work
Circuit Design and Simulation Lab
Communication Systems Lab
Embedded Systems Lab
Capstone Projects and Mini-Projects
Laboratory Facilities
Advanced Communication Lab: Experiments on modulation, demodulation, and advanced communication protocols.
VLSI and Microelectronics Lab: Design and simulation of digital circuits and ICs.
Robotics and IoT Lab: Hands-on experience in embedded programming and IoT applications.
Signal Processing Lab: Real-time audio and image processing systems.
Skill Development
Technical Skills: Circuit analysis, coding for embedded systems, communication protocols, and hardware-software integration.
Soft Skills: Project management, communication, teamwork, and leadership.
Software Tools: Proficiency in MATLAB, Multisim, Xilinx, LabVIEW, and Cadence.
Career Opportunities
Graduates can pursue careers in diverse domains such as:
Telecommunications: Network design, mobile communications, and satellite systems.
Embedded Systems: Design and development of IoT devices, smart appliances, and robotics.
VLSI Design: Chip design, fabrication, and testing.
Software Development: Roles in AI, ML, and data science tailored to communication systems.
Public Sector: Opportunities in organizations like ISRO, DRDO, BSNL, and BHEL.
Industry and Research Exposure
Internships: Mandatory internships in reputed companies or research labs.
Workshops and Seminars: Participation in industry-led training programs on IoT, AI, and communication technologies.
Research Projects: Opportunities to work on cutting-edge research in collaboration with faculty and industry partners.
Higher Education and Certifications
Graduates are well-prepared for:
Postgraduate studies in ECE, IoT, or AI.
Certifications in fields like VLSI, Embedded Systems, and Networking (CCNA, CCNP).
Emerging Technologies in the Curriculum
The program incorporates:
5G and Beyond Communication Systems
IoT and Smart Devices
AI and ML for Communication Systems
Quantum Communication and Computing
Community Engagement
Students engage in projects with societal impact, such as:
Developing communication solutions for rural areas.
Implementing IoT solutions for smart cities.
Participation in NSS and other community welfare initiatives.
Key Highlights
Hands-on Learning: Extensive lab work and practical exposure to real-world challenges.
Global Collaborations: Opportunities to participate in international exchange programs and global competitions.
Placement Opportunities: Access to top recruiters in telecommunications, electronics, and IT sectors.
Student Clubs: Active participation in ECE-related clubs, hackathons, and technical events.
Admission Requirements
1. Academic Qualifications
· Educational Background : Applicants must have completed 10+2 (or equivalent) from a recognized board.
· Core Subjects : Physics, Chemistry, and Mathematics must be included in the 10+2 curriculum.
· Minimum Percentage : A minimum aggregate score 60% is required.
2. Entrance Exam
· Accepted Exams : A valid score in national or state-level entrance examinations such as JEE Main or other university-specific entrance tests is mandatory.
· Cut-Off Scores : Applicants must meet the cut-off criteria as determined by the institution for the respective entrance exam.
3. Age Criteria
· Candidates must typically be at least 17 years old at the time of admission.
· Upper age limits, if applicable, are outlined by the institution or exam authority.
4. Direct Admission Options
· Some institutions offer direct admission based on merit in 10+2 examinations or through management quota seats.
5 . Required Documents
· Completed application form
· 10th and 12th grade mark sheets and passing certificates
· Entrance exam scorecard
· Photo ID proof (e.g., Aadhaar Card, Passport)
· Passport-sized photographs
· Migration or transfer certificate (if applicable)
· English proficiency test scores (for international applicants)
6 . Additional Requirements (If Applicable)
· Reservation Criteria : Applicants eligible under reserved categories (SC/ST/OBC/PwD) may need to provide supporting certificates.
· Extracurricular Achievements : Certificates for achievements in extracurricular activities or sports may be required for special admission categories.
7 . Application Process
· Applications are usually submitted online.
· Candidates must ensure they meet all eligibility criteria and provide accurate documentation to avoid disqualification.
Domestic
Domestic (Out of State)
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
How to get a full scholarship
Looking for a fully-funded scholarship to see you into university? Find out how to boost your chances of getting one.
Scholarships to study abroad
Find scholarships to study abroad with our lists of international scholarships – categorized by country, by subject, and by type of student.
Scholarship Applications: Frequently Asked Questions
Get answers to all your questions about scholarship applications, including tips on how to find scholarships and chances of success.
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