Acoustic Engineer: Management and application of sound-producing vibrations in real-world situations. creating better-sounding concert halls, superior sound reproduction systems, clearer ultrasound scans or quieter aeroplanes. Acoustical engineering is the application of acoustics in technology, often converting sound energy to electricity. Can be used to improve medical imaging, hearing aids etc, manage noise control in industrial, commercial and domestic settings.
Aerospace and Aeronautical Engineering: Primary field of engineering concerned with the design, development, testing, and production of aircraft, spacecraft, and related systems and equipment. The field has traditionally focused on problems related to atmospheric and space flight, with two major and overlapping branches: aeronautical engineering and astronautical engineering.
Agriculture and Food Engineering: Food engineering courses focus on the development of the food industry across the nation. The application of technical advancements, standardization of processes, accurate quality of food items, better strategies and management approaches are certain core areas of emphasis. On the other hand, agricultural engineering deals with aspects of increased crop yields, technological deliverable, standard techniques in the field of farming, storage, etc. and production of quality items. considered to be a specialised multi-disciplinary sphere dealing with concepts of science, engineering, microbiology, industrial management.
Architecture Engineering: Architectural engineering, also known as building engineering or architecture engineering, is an engineering discipline that deals with the technological aspects and multi-disciplinary approach to planning, design, construction and operation of buildings, such as analysis and integrated design of environmental systems, structural systems, behavior and properties of building components and materials, and construction management.
Automobile Engineering: Automotive or Automobile engineering is a branch of mechanical engineering which involves design, manufacturing, modification and maintenance of an automobile such as buses, cars, trucks and other transportation vehicles.
Artificial Intelligence (AI): AI Engineering is a field of research and practice that combines the principles of systems engineering, software engineering, computer science, and human-centered design to create AI systems in accordance with human needs for mission outcomes.
AI and Machine Learning Engineering: Artificial intelligence & Machine Learning is an allied branch of Computer Science which focuses on technology for creating intelligent machines which can think and work like human beings. AI is a technology which enables a machine to simulate human behavior. ML is a subset of AI which allows a machine to automatically learn from past data without programming explicitly. The goal of AI is to make a smart computer system like humans to solve complex problems. Machine learning focuses on the development of computer programs that can access data and use it learn for themselves.
Biomedical Engineering: It is the intersection of engineering, the life sciences and healthcare. These engineers take principles from applied science (including mechanical, electrical, chemical and computer engineering) and physical sciences (including physics, chemistry and mathematics) and apply them to biology and medicine.
Chemical Engineering: Chemical engineering involves the production and manufacturing of products through chemical processes. This includes designing equipment, systems, and processes for refining raw materials and for mixing, compounding, and processing chemicals.
Civil Engineering: Designing and executing structural works that serve the general public, such as dams, bridges, aqueducts, canals, highways, power plants, sewerage systems, and other infrastructure.
Computer Science: Computer Science Engineering is a course that deals with design, implementation, and management of information systems of both software & hardware processes. A computer scientist specializes in theory of computation and design of computational systems. Computer Science engineering aids with various disciplines such as electrical and electronics engineering, information technology, software engineering, and more.
Electrical Engineering: Electrical engineers work on a wide range of components, devices and systems, from tiny microchips to huge power station generators. They also deal with generators and motors, often found useful at electricity generation plants.
Electronics and Communication Engineering (ECE): This stream of engineering deals with analog transmission, basic electronics, microprocessors, solid-state devices, digital and analog communication, analog integrated circuits, microwave engineering, satellite communication, antennae, and wave progression. Electronics and Communications engineers also conceptualize and oversee the manufacturing of communications and broadcast systems.
Electrical and Electronic Engineering (EEE): This course deals with the technological aspects of electricity, especially the design and application of circuitry and electronic equipment. It also includes the concept of power generation and distribution, communication and machine control. This engineering branch focuses on the practical application of electricity. It also specializes in design, construction and uses of electrical systems in our lives.
Energy Engineering: Energy engineering or Energy Systems Engineering is a broad field of engineering dealing with energy efficiency, energy services, facility management, plant engineering, environmental compliance, sustainable energy and renewable energy technologies.
Environmental Engineering: The application of science and engineering principles that provide a better environment, to give healthy water, air and land for human habitation and other living things, and to rehabilitate polluted areas. In addition, it focuses on finding appropriate solutions in the field of public health, such as arthropod-related diseases, and in enforcing laws that promote adequate sanitation in urban, rural, and recreational areas.
Genetic Engineering: Genetic engineering, also called genetic modification, is the direct manipulation of an organism’s genome using biotechnology. It is a set of technologies used to change the genetic makeup of cells, including the transfer of genes within and across species boundaries to produce improved or novel organisms.
Industrial and Production: It involves the study of designing and manufacturing processes for a product and also planning, measuring and controlling all the economic and productive activities within an organization. They also devise processes, systems and implement them to make the existing process more efficient.
Information Technology Engineering: Information Technology (IT) is the application of technology to solve organizational and business problems. This field of engineering uses computers, networks, storage, and other technical infrastructure both hardware and software, to deal with and manipulate information/data. Professionals follow a combination of policies and processes to ensure IT systems run effectively and aligned with the organization’s needs, they provide tech support, maintenance, device management and security testing services.
Instrumentation Engineering: Instrumentation engineering is the branch of engineering that specialises on the principle and operation of measuring instruments that are used in fields of design, configuration of automated systems in electrical, pneumatic domains, etc. It is ammalgamation of mechanical and electrical engineering.
Marine/ Maritime Engineering: Monitoring and maintenance of mechanical systems – Engineers of each rank on board ship is allocated specific machinery and systems for maintenance and monitoring purpose. Machinery systems are divided among all engineers and it is the duty of each engineer to ensure his/her machinery is running at all times. Marine engineers are also required to look after the machinery on deck
Mechanical Engineering: A mechanical engineer studies about production transmission and the use of mechanical power and designing, operating and testing of various types of machines. Mechanical engineering finds applications in all fields of technology. These engineers are required in various industries, such as automobile, chemical, electronics, steel plants, oil exploration and refining, technical wings of armed forces, and space research organization.
Metallurgical and Materials Engineering: Metallurgical engineering is concerned with the study of structure, properties, production and use of various materials – metallic and non-metallic. It deals with refining ores to a pure state (extractive metallurgy) and converting refined materials into useful finished products (physical metallurgy)
Mining Engineering: Mining Engineering is a discipline of engineering that is concerned with the technology, science, and application of minerals processed and extracted from a natural environment. It entails a whole sequence of steps involved in mining operations- discovery, exploration, feasibility, production, processing, development, marketing and finally, restoration and rehabilitation of the land from where extraction was done.
Nuclear Engineering: The branch of engineering concerned with the application of breaking down atomic nuclei (fission) or of combining atomic nuclei (fusion), or with the application of other sub-atomic processes based on the principles of nuclear physics.
Petrochemical and Petroleum Engineering: Petrochemical Engineering is a multidimensional field with domains including geophysics, chemical engineering, oil extraction, petroleum manufacturing, geochemistry, and more. As the issue of petroleum scarcity has risen, the industry has initiated million-dollar research projects to find a substitute, and professionals are hired specifically for research purposes.
Robotics Engineering: Robotics Engineering is referred to that branch of engineering which deals with the designing, construction, and application of Robots and how computers are used to operate Robots. It uses the principles of other engineering branches like electrical engineering, computer science engineering and mechanical engineering to play with robots that may resemble humans in appearance or work.
Sound Engineering: Engineering concerned with the analysis and control of vibration, particularly sound vibrations. They help to produce a recording or a live performance, balancing and adjusting sound sources using equalization, dynamics processing and audio effects, mixing, reproduction, and reinforcement of sound. Audio engineers work on the “technical aspect of recording—the placing of microphones, pre-amp knobs, the setting of levels. The physical recording of any project is done by an engineer.
Textile Engineering: The technology and science in Textile Engineering comprise designing and controlling all aspects of fibre, textile & apparel processes, fibre, clothing products, and machinery. Textile engineers are involved in many aspects of textile manufacturing, from process engineering, R&D, production control, technical sales, quality control, and types of equipment to procedures that create all these fibres, fabrics, and yarns.
Engineering Technicians: Engineering technicians assist engineers and scientists in assembly, repair and experiment oriented tasks. These are highly technical skilled operations involving a basic understanding a theoretical concepts and focus on functional precision and accuracy which the task requires. Engineering technicians study for a diploma.