Booming sub of ece in India

Electronics and communications engineering is one of the vast and rapid growing field of engineering. The fact that scope of ECE in India is not high with respect to corporate jobs is quite acceptable as compared to other branches like CS and IT , however still some private companies like Qualcomm , Samsung , Intel , NVidia, etc . prefer to hire ECE undergraduates in India with a good CTC. But in the government sector the scope for ECE undergraduates is quite high for example companies like DRDO, BEL , BHEL, BDL, ISRO, Navy, BSNL ,Indian railways ,etc. hire ECE students even Maharatna and Navratna companies like CIL ,NALCO, IOCL,etc. hire ECE students.

You also have an option for higher studies in different specialisations like VLSI, Microelectronics, etc.

You can also appear the Indian Engineering Service examination , which has ECE as one of its five choices of subjects or can join the EME corp of Indian Army.

India being a developing country needs engineers who can contribute towards its growth and development. The demand for ECE engineers is going to increase exponentially especially in the field of defence , space and telecommunications.

It will be a good option to opt for Electronics if and only if you are really interested in this subject.

Study in iit at ece

2014: ECE will rise when services industry slows down and manufacturing industry picks up in India. Such kind of change cannot happen in just 4 years. 

Another problem with ECE is, the syllabus is usually too outdated or too restrictive to be of much use in current industry.

Time passes by.... Its 2016 now. (I am going to elaborate in case some students see this thread and want to decide on their future)

ECE has picked up in recent time, not because of choice of students, but because of some govt policies and promises that there will be huge funding in startups. I was expecting this even while writing my answer in 2014.

However ece is still lagging and cse is still ahead. 

1. One reason is its easy to innovate in computer programming. Every individual with a computer is more empowered to monitize his innovation. But innovation on ECE side seems to be slow, a cycle from prototype to product requires lot of time and money. 
2. Electronics requires more labour force, even if there is a boom in electronics, expect to see only a small increase in ECE demands. Although electronics scientists are expected to be paid way more than software engineer.
3. Another reason is one innovation in ECE fuels more innovation in computer sc. For eg. 1 novel innovation ie. bluetooth enabled bulb can have 20 different ways to monitize. Google nest IoT devices are encouraging 1000s of software developers to write apps for.
4. Another reason is consumer perspective. We are more inclined to try out new softwares or services even from little known source mobile app wallets,. But when it comes to buying hardware we tend to buy only known brands. (This will change by 2020 we will be open to new cheap hardware).

Electronics industry might see a boom by 2020, demand of ECE students are increasing. Demand for high quality ECE scientists will increase several folds. Demand for CSE will still be ahead of ECE but salary on average will decline.

What is ECE???

Electrical engineers and computer engineers work at the frontier of high technology and are involved in research, the creation of new ideas, the design and development of new products and technologies, manufacturing and marketing activities.

Change the world, become an electrical or computer engineer

ECEs help save lives by designing medical technologies like monitoring devices, surgical robots and lasers; help preserve the environment by developing hybrid electric vehicles and solar or wind power; improve the safety of critical high technology systems by designing anti-skid braking systems and nuclear power plant controls; and reduce human toil in manufacturing with computer automation technologies. Pursue an exciting career and make a difference by helping people worldwide.

Invent, create, design key technologies

Challenge what is possible. Invent new technologies and innovations in a range of fields, from nanotechnology to biotechnology. Electrical engineers find innovative ways to use electricity, electric materials, and electrical and magnetic phenomena (like radio waves and signals) to make people’s lives better. Computer engineers design computer systems, both hardware and software, to create new technology and meet new societal needs.

Work with smart people on cool technologies

Electrical and computer engineers create innovative, practical solutions and work with other smart, inspiring people to invent, design and build technologies and products that matter. ECEs design high-profile technologies and products, including medical devices, tablet computers, smart phones, video games, wireless networks, 3D television and highfidelity audio.

The field of electrical engineeringencompasses a broad spectrum of technical areas, including computers and digital systems, microelectronics, photonics, materials, controls, communication systems and signal processing, energy conversion and power distribution, antenna design and electromagnetic scattering, and robotics in manufacturing. Electrical engineers create, research, design, develop, manufacture, and market new devices.

The field of computer engineeringcovers a wide range of topics including multimedia systems, robots, microprocessors, memory systems, networks, the Internet, chip design, supercomputers and all other aspects of computer organization, design, and programming.
 

Electrical and Computer Engineering Major Sheet: Includes program educational objectives for both the Electrical Engineering program of study and Computer Engineering program of study.

WHAT IS MECHANICAL ENGINEERING

Mechanical engineering is a professional programme which helps students to understand the working mechanisms of heavy tools and machineries.  The branch applies principles of engineering, physics and material science for the design, analysis, manufacturing and maintenance of mechanical systems. The course covers technical areas like distribution of electricity through generators, transformers, transmission lines, lighting and wiring in buildings. A course in mechanical engineering makes a student gain knowledge and experience in the designing of electric motors, automobiles, aircrafts and other heavy vehicles. Mechanical engineering demands knowledge about software used in technical work like computer-aided design and mathematical modelling.

About EPI

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About EPI

About EPI

Envisioning and visualizing the concept of turnkey execution of projects as an effective tool to create the needed infrastructure to hasten the pace of multi-disciplinary industrial construction, EPI was incorporated in 1970 as A Government of India Enterprise under the administrative control of Department of Heavy Industry. Since then, EPI has admirably performed its assigned roles as the country’s leading Prime Contracting Company and has left its imprint not only in India but in the overseas market as well where its past operation spread over a decade in the wake of oil boom in the Middle East. EPI successfully executed 31 odd projects valued over US$ 1036.856 million in Iraq, Kuwait, Saudi Arabia, UAE, Yugoslavia, Maldives, Bhutan, Thailand and Oman

EPI has executed over 540 multi-disciplinary projects in India valuing over Rs. 88514.550 million. Through the execution of these projects, EPI has in its own way contributed immensely in the development of the Nation and there is hardly any state in India where EPI’s pronounced presence is not visible. EPI has the rare distinction of having worked for almost all Power Sectors and Steel Plants in India in Public Sector as well as in Private Sector. EPI’s contribution in project execution for various sectors is also quite substantial.

EPI is proud to be one of the first few companies to have been awarded integrated certification for Quality Management and the Environment Management System ISO 9001:2015, ISO 14001:2015 for all its areas of operation, OHSAS 18001:2007 for Corporate Office and is a "Mini Ratna" Company.

Civil engineering

What Civil Engineers Do????

Civil engineers conceive, design, build, supervise, operate, construct and maintain infrastructure projects and systems in the public and private sector, including roads, buildings, airports, tunnels, dams, bridges, and systems for water supply and sewage treatment. Many civil engineers work in planning, design, construction, research, and education.

Duties of Civil Engineers:

Civil engineers typically do the following:

• Analyze long range plans, survey reports, maps, and other data to plan and design projects
• Consider construction costs, government regulations, potential environmental hazards, and other factors during the planning and risk-analysis stages of a project
• Compile and submit permit applications to local, state, and federal agencies, verifying that projects comply with various regulations
• Oversee and analyze the results of soil testing to determine the adequacy and strength of foundations
• Analyze the results of tests on building materials, such as concrete, wood, asphalt, or steel, for use in particular projects
• Prepare cost estimates for materials, equipment, or labor to determine a project's economic feasibility
• Use design software to plan and design transportation systems, hydraulic systems, and structures in line with industry and government standards
• Perform or oversee surveying operations to establish building locations, site layouts, reference points, grades, and elevations to guide construction
• Manage the repair, maintenance, and replacement of public and private infrastructure

Civil engineers also must present their findings to the public on topics such as bid proposals, environmental impact statements, or property descriptions.

Many civil engineers hold supervisory or administrative positions ranging from supervisor of a construction site to city engineer, public works director, and city manager. As supervisors, they are tasked with ensuring that safe work practices are followed at construction sites.

Other civil engineers work in design, construction, research, and teaching. Civil engineers work with others on projects and may be assisted by civil engineering technicians.

Civil engineers prepare permit documents for work on projects in renewable energy. They verify that the projects will comply with federal, state, and local requirements. These engineers conduct structural analyses for large-scale photovoltaic, or solar energy, projects. They also evaluate the ability of solar array support structures and buildings to tolerate stresses from wind, seismic activity, and other sources. For large-scale wind projects, civil engineers often prepare roadbeds to handle large trucks that haul in the turbines.

Civil engineers work on complex projects, and they can achieve job satisfaction in seeing the project reach completion. They usually specialize in one of several areas.

Construction engineers manage construction projects, ensuring that they are scheduled and built in accordance with plans and specifications. These engineers typically are responsible for the design and safety of temporary structures used during construction. They may also oversee budgetary, time-management, and communications aspects of a project.

Geotechnical engineers work to make sure that foundations for built objects ranging from streets and buildings to runways and dams, are solid. They focus on how structures built by civil engineers, such as buildings and tunnels, interact with the earth (including soil and rock). In addition, they design and plan for slopes, retaining walls, and tunnels.

Structural engineers design and assess major projects, such as buildings, bridges, or dams, to ensure their strength and durability.

Transportation engineers plan, design, operate, and maintain everyday systems, such as streets and highways, but they also plan larger projects, such as airports, ship ports, mass transit systems, and harbors.

The work of civil engineers is closely related to the work of environmental engineers.

Electronics and communications engineering

Basic:

Electronics & Communication Engineering deals with the electronic devices, circuits, communication equipments like transmitter, receiver, integrated circuits (IC). It also deals with basic electronics, analog and digital transmission & reception of data, voice and video (Example AM, FM, DTH), microprocessors, satellite communication, microwave engineering, antennae and wave progression. It aims to deepen the knowledge and skills of the students on the basic concepts and theories that will equip them in their professional work involving analysis, systems implementation, operation, production, and maintenance of the various applications in the field of Electronics and Communications Engineering.

What does an Electronics & Communication Engineer do?

All of the applications which make our life easier and enjoyable such as Television, Radio, Computers, Mobiles etc. are designed and developed by Electronics and Communication Engineers

• Design and maintain satellites, which bring TV, telephone and Internet service into remote and rural regions
• ECE Engineers also creates advanced communication facilities like video conferencing which bring people together from all over the world
• Develops programs for various control and communication systems.
  
  

  What is the future for a Electronics & Communication Engineering graduate?

  Opens up great career prospects for the students. The students after completion of the degree can easily avail job opportunities in manufacturing industries and service organizations such as broadcasting, consulting, data communication, entertainment, research and development; and system support. The candidates can also work in modern multimedia service firms that are involved in real-time transfer of information through video conferencing and internet broadcasting.
  
  The opportunities are galore for electronics and communication engineers as they are employed in variety of sectors such as Indian Telephone Industries, Civil Aviation, Development Centers in various States, Defense, NPL, A.I.R, Posts and Telegraph Department, Railways, Bharat Electronics Limited, D.R.D.O, Telecommunication, Software Engineering/IT, Power sector, Hardware Manufacturing, Home Appliance and VLSI design, Television Industry and Research & Development.

  
  

  
  Some job titles

  
  

  • Service Engineer
  • Software Analyst
  • Technical Director
  • Field Test Engineer
  • Senior Sales Manager
  • Network Planning Engineer
  • Customer Support Engineer
  • Electronics and Communications Consultant