B.Tech. Engineering Physics is an undergraduate Physics course. Engineering Physics emphasizes the application of basic scientific principles to the design of equipment, which includes electronic and electro-mechanical systems, for use in measurements, communications, and data acquisition. Course provides students with a fundamental knowledge of physics, together with problem-solving skills, and an understanding of engineering, is designed to address the needs of students seeking innovative careers in today's technological age. The program requires courses in engineering design plus specialization in such topics as solid-state electronics, fluid mechanics, optics/optoelectronics, computers and computational methods, control theory or a variety of other applied disciplines. The course is four years duration and it is career originating in nature.
B.Tech. Material Science Engineering is an undergraduate Material Science Engineering course. Materials science is an interdisciplinary field involving the properties of matter and its applications to various areas of science and engineering. Students interested in materials science and engineering learn about metals, ceramics, polymers, semiconductors, and composites. Material Science and Engineering is a dynamic, interdisciplinary study that combines the fundamental sciences; chemistry, physics and life sciences; with the applied engineering; electronic, mechanical, chemical and bioengineering. It strives for basic understanding of how the science of structures and processes on the atomic scale result in the properties and functions familiar at engineering level. The course duration is four years and it provides many career opportunities.
B.Tech Production Engineering is an undergraduate 4-year course which introduces students to the fundamentals of production and operations management. Production engineering is a combination of manufacturing technology with management science, whereas a production engineer deals with engineering practices and management challenges related to production. Production engineering has wide application in casting, joining processes, metal cutting and tool design, metrology, machine tools, machining systems, operation research, quality control, mechatronics. In short, production engineering deals with the integrated design and efficient planning of the entire manufacturing system.
B.Tech in Chemical Engineering is a four year undergraduate degree . Chemical engineering degree can get you a job in different sectors like Oil, Gas and Energy, Manufacturing and consumer goods, Pharmaceuticals, Chemical Industries and various PSUs. Chemical Engineering is one of the new fields of engineering that includes designing and processing of commercial chemical manufacturing. Chemical Engineers conduct research and develop techniques of producing chemical substances. They need to be skilled in chemistry, fuels, polymers, petroleum & its merchandise and should be nicely familiar with their homes. Chemical engineers are broadly sought-after in rubber, petroleum, fertilizer, and paper manufacturing industries. Here’s an insight into the scope of Chemical Engineering.
B.Tech in Civil Engineering is an undergraduate engineering degree of 4 year duration. B.Tech in Civil Engineering is an undergraduate engineering degree of 4 year duration. Civil Engineering focus on planning, designing , constructing, supervising and maintaining infrastructure which includes essential facilities to modern life like building tunnels , schools, brides , hospitals , airports , sewage systems etc. Also the course study includes protecting public and environmental health as well as improving existing infrastructure.
B .Tech Mechanical Engineering is a 4 year Degree engineering course which focus on production, designing, and operations of machines. The course is designed in such a way, that one would learn theoretical and practical knowledge of different fields that are covered in the study of mechanical engineering. The programme endows students with the basic understanding and knowledge of how heavy tools and machineries work. Mechanical engineers are capable to design everything from new batteries to medical devices and from personal computers, air conditioners, automobile engines to electric power plants. These engineers also design machines that produce these innovations.
B.Tech Bio-Technology is a 4-year undergraduate degree course. Biotechnology is claimed to be a combination of biology and technology and it's an applied science. It is the study of biological processes and their utilization for industrial purposes like studying microorganisms and utilize the knowledge for development of antibiotics, medicines etc.
B.Tech Computer Science and Engineering is an undergraduate 4 years course on practical and theoretical knowledge of computer hardware and software. It deals with designing and developing computer software and hardware processes. The students will be able to understand, learn and use different programming languages, digital and analogue electronics, networking and telecommunications etc.
B.Tech Electronics & Communication Engineering is a 4 year Degree engineering course which focus on principles and designs of underlying hardware systems that are utilized in areas together with telecommunication, power and electronic sectors. It’s far based on studies, design, and development and testing of electronics in numerous systems. B.Tech. ECE is an introductory course for electrical engineering students wherein students look at a chain of core courses together with optional topics which cover the ideas of telecommunications, power and electronics sectors.
B.Tech Electrical & Electronics Engineering is a 4-year undergraduate course which study the application of electricity and electronics. The course focus on the fundamental knowledge in core disciplines like control systems communications frequency design signal processing microelectronics microprocessors power generation and electrical machines.Electrical & electronics engineering not only involves in electrical appliances, but also involves in computer, electronics, communication and mechanical fields.
M. Tech in Machine Design is a 2- year post graduate program covering the essential concepts and processes involved in the design and manufacture of machines and machine- related items. The program is an offshoot of Mechanical Engineering, focussing on machine design using analytical, numerical and experimental approaches The course essentially focuses on areas like Theory of Elasticity and Plasticity, Theory of Plates and Shells, Advanced Vibrations, Finite Element Analysis, Kinematics Design, Tribology and Bearing Design, Fracture Mechanics, Experimental Stress Analysis, etc. enrolled students have the opportunity to work in the areas of design and analysis in association with faculty members on on-going research projects.
M. Tech Thermal Engineering is a 2- year postgraduate course ,involves real-time applications of fluid flow and heat transfer in Thermal Energy Systems, Cryogenic Engineering and Refrigeration & Air Conditioning etc. Candidates are trained in design, development, and simulation and to explore new areas in Thermal Energy Systems and allied sciences. The first two semesters of the course involve theoretical subjects & laboratory sessions, while the third semester is about theory & project work and the fourth semester focuses fully on project work.
M.Tech. Chemical Engineering is a postgraduate Chemical Engineering course. It is two years program and further divided into two semesters each. The main emphasis in the first two semesters is on coursework which comprises of both core or compulsory courses and electives. The research project constitutes a major part of the work in the second year. The student under the supervision of a faculty member carries out state of the art research in the frontier areas of chemical engineering such as computational fluid dynamics, materials science, biochemical engineering, environmental engineering, process control, reaction engineering, transport phenomena, particle technology, semiconductor processing, etc. The research involves solving problems of industrial relevance as well as of fundamental significance. The M.Tech. (Chemical Engineering) programs in India are usually structured as an Engineering Research degree, lesser than Ph.D. and considered to be parallel to M.Phil. and M.S. degrees in Humanities and Science respectively. So, M.Tech. (Chemical Engineering) degree is a research-based degree where the student does the research work like Ph.D. work.
M.Tech. Control Systems and Instrumentation is a two-year postgraduate Instrumentation Engineering course. Instrumentation & Control is an interdisciplinary area. It caters to the need of chemical, fertilizer, petrochemical, oil and refinery, power, textile, plastic, automobile, agriculture, dairy, food processing and manufacturing industries. It also covers robotics, navigation, aerospace and military applications. The syllabus for the course is divided into four semesters and it is career orienting in nature.
M.Tech. Manufacturing Engineering is two-year postgraduate Manufacturing Engineering course. The course is concerned with the analysis of advanced engineering problems using modelling techniques, computer implementation, experimental verification, and case study investigation. The program focuses on design, development and implementation of products, manufacturing and control systems; primarily in relation to development, planning and implementation of industrial production. The syllabus for the course is divided into four semesters plus some elective subjects.
M. Tech. in Signal Processing may be a 2-year postgraduate course may be a specialized branch of Electrical and Communication Engineering and applied math .The course involves a complicated analysis, study, interpretation, and ideas of manipulation of signals. The course has been designed to equip enrolled students with a robust theoretical background within the subject, besides introducing them to a number of its practical applications.
M. Tech Power Electronics is 2-year postgraduate program which specialise in this discipline of Power Electronics encompasses a spread of fields within EE , and essentially, techniques in system-level modelling analyses, design, and integration of motor drives. Advanced topics in microprocessors and micro-controllers which are essential components within the domain of Power Electronics engineering.
M. Tech. Power Systems engineering is a 2 year postgraduate electrical engineering program offering advanced specialization in power systems. The program covers related specialities such as System Analysis of Power, Planning of Stability Evaluations, Forecasting and Reliability, Power Electronics and Drives, High Voltage DC Transmission, Industrial Electronics and Controls, Wind and Solar Energy Electric Conversion System etc. The course trains students in understanding and operation of micro- processors and micro controllers which form a crucial part of the evolving power system technology.
M. Tech Structural Engineering may be a 2-year full-time postgraduate course which involves advanced study of components like Structural Mechanics, Finite Element Analysis, Structural Dynamics, Structural Reliability and Optimization, Reinforced and Pre-Stressed Concrete, Steel Structures, Design for Wind And Earthquake, Tall Buildings And Towers, Computer Applications In Structural Engineering, etc. Students are trained to implement such principles through different methods, in analyses of varied sorts of structures, and to guage force and displacement parameters of such structures.
M.Tech. Microelectronics and VLSI Design is a postgraduate VLSI Design programme. The field of microelectronics systems design embodies many of the key skills relating to integrated circuit design and electronic systems engineering. This cutting-edge programme examines aspects of system integration and discrete device properties and is an excellent platform for further research in the Nano group and the Electronic Systems and Devices group. Although this course is mainly concentrated on microelectronics technology, other secondary related subjects such as Engineering Ethics, Mathematics and Reliability Engineering are also included as part of the core subjects. Students will be exposed to several aspects of technology such as integrated microelectronics device processing, integrated circuit device design, advanced devices such as MEMS, photonics.
M.Tech. Nanotechnology is a postgraduate Nanotechnology course. Nanotechnology is the engineering of functional systems at the molecular scale. Nanotechnology encompasses the understanding of the fundamental physics, chemistry, biology and technology of nanometre-scale objects. The course offers consulting, technology monitoring, and in-depth analysis, as well as up-to-the-minute news briefs and breaking developments in the nanosciences. This program focuses on the technologies involved in the miniaturization of electronic and optical devices. The main emphasis is on current micro technologies including the design and fabrication of microelectronic circuits, Microsystems and optoelectronics.
M.Tech. Energy Engineering is a two-year postgraduate Energy Engineering course. Energy engineering is a wide field of engineering concerning with energy efficiency, energy services, facility management, plant engineering, environmental compliance and alternative energy technologies. This course deals mostly with the energy resources, energy conversion, energy conservation, and environmental impacts. Topics to be covered include different types of energy resources and their uses, different types of energy conversion technology such as fuel cells, thermoelectric, and solar energy conversion, and energy conservation technologies such as pinch technology and cogeneration. The course is two years duration, but it depends on the rules and regulations of deferent institutes. The M.E. (Energy Engineering) course is an important one which opens my job scopes for the applicants after having passed it.
M.Tech. Offshore Structures is a two-year postgraduate Civil Engineering programme. Offshore Engineering is multidisciplinary and is cooperation between Civil Engineering, Mechanical Engineering and Marine Technology. The programme consists of four specializations: Fixed (Bottom Founded) Structures, Floating Structures, Subsea Engineering and Dredging Engineering. Offshore & Dredging Engineers make structures such as fixed and floating platforms for the oil and gas industry. They also design undersea pipelines and other underwater equipment for this sector. An important feature is the design of dredging equipment for land reclamation, maintenance and the recovery of embedded minerals in deep-sea locations.
M.Tech. Water Resources Engineering is a postgraduate Water Resource Engineering course. The Water Science and Engineering Master’s Program focuses on the management and development of water resources and water flows and quality in the natural environment while addressing the multidisciplinary character of human activities dealing with water. Water resources engineers are concerned with the problems associated with the use and control of water. Water resources engineering is the profession that is responsible for the planning, development and management of water resources. From estimating the amount of water available to designing the physical and non-physical infrastructure needed to meet the water needs of society and the environment, civil engineers play a central role within a multi-disciplinary team. To ensure access to clean safe drinking water, civil engineers design, build and manage the water intakes, the water treatment plants and the network of pipes that convey water to your tap.
M. Tech Industrial Engineering and Management is a 2 year full-time postgraduate Engineering course, focuses on the industrial management and development processes between or within the industries. In this course, students learn to promote brands and products which bring in efficiency in any industrial engineering and management practices. The course introduces the basics management of Industrial Management design research, social behaviour, multi-sensory processes, playfulness, and gratification, designing strategies, aesthetic appreciation, experience design, project management, design audit and all sectors.
M.Tech. Traffic and Transportation Planning is a postgraduate Civil Engineering programme. Course impart futuristic and need-based technical education and to promote reengineering in the field of Transportation Engineering for working out cost-effective solutions in liaison with local authorities and to establish the social relevance of research and developmental activities. The present program in Traffic & Transportation Planning has three broad areas of specialization and these are: i) Traffic Engineering ii) Transportation Planning and iii) Pavement Technology. The course is two years duration and offers many scopes after its successful passing.
M.Tech Programme in Environmental Geotechnology is an inter-disciplinary course covering topics from Geotechnical Engineering and Environmental Engineering. The programme will train engineers to develop environmentally sound solutions to geotechnical problems and to solve environmental engineering problems unique to several soil and subsurface conditions. The major core courses of the programme cover topics from Geotechnical Engineering, Environmental Protection and Pollution Control. The laboratory course connects materials covered in the classroom with observations made and data gathered in the field. A good number of electives are offered in areas such as Foundation Engineering in Difficult Soils, Waste Management, Wastewater Engineering, Earthquake Engineering, and Landslide Mitigation Methods etc.
M.Tech. Information Security is a postgraduate Information Technology Management programme. Information Security and Assurance will prepare you with the necessary skills for the protection of networks, communication, and data, as well as the knowledge base for planning, implementing, and managing enterprise level security and system integrity. You will become an expert IT security manager. Information Security will provide you with the knowledge and theoretical background as well as with the requisite skills and attitudes to succeed in this challenging yet eminent field. The programme offers a wide range of courses, both technical modules and modules dealing with social, legal and management aspects. The programme has three specializations: technology, digital forensics and management. The program focuses primarily on the technical and problem-solving skills associated with security implementation but adds instruction on project management and effective communications to help graduates prepare to take responsibility for the work of other technologists. Many of the courses below except the electives include writing assignments called GIAC Gold or Written Assignment.
M.Tech.Industrial Power System & Automation is a postgraduate Power System Engineering programme. The Master's degree course in Power and Automation concentrates on electrical power systems and automation technology. Students are introduced to the advanced theory and are part of research projects in their fields of specialization. Topics such as power systems analysis in the steady state and under transient conditions, system stability, protection and control, transmission and distribution system design and apparatus, and power system operations and planning are offered. The duration of the course is two years and it provides many career opportunities after its completion.
M.Tech. Electronics Design and Technology is a two-year postgraduate Electronics and Communication Engineering course. The course gives the knowledge of mathematics, basic science & electrical engineering fundamental to successfully compete for entry-level positions or pursue post-graduate studies in the related field. The program motivates the students towards contemporary professional and lifelong learning skills including hands-on lab practical, modern software, hardware software co-design & information technology to successfully compete in local, national & global engineering market.
M.Tech. Telecommunication Engineering is a postgraduate Telecom course. Telecommunication Engineering, also known as telecom engineering, is a major field of electronic engineering. The work ranges from basic circuit design to strategic mass developments. The duration of Master of Technology in Telecommunication Engineering is generally a two year but it may vary from institute to institute and also may be on a part-time basis by certain institutes. The syllabus for the course is divided into four semesters and some electives. M.Tech. (Telecommunication Engineering) is being offered in the country by many colleges and universities and it career orienting in nature.
M.Tech. Material Science & Technology is a postgraduate Material Science and Engineering course. Materials Science and Engineering is an interdisciplinary field, based on knowledge of physical, chemical and engineering sciences. This knowledge is used to design materials that suit applications, to meet specific functions and quality requirements. This demands insight into the physics that affect material properties. Students in materials science and engineering develop a fundamental understanding of materials at the nano, micro and macro scales, leading to specialization in such topics as biomaterials; chemical and electrochemical materials science and engineering; computational materials science and engineering; electronic, magnetic and optical materials; and structural materials.
M.Tech. High Voltage Engineering is a postgraduate Power System Engineering course. The course deals with the physical behaviour of equipment and systems for production, transmission and use of electrical energy, and with construction and characteristics of this equipment and systems. The major areas of research in high voltage engineering are Design of high voltage power apparatus, estimation of Electrical field strength in power apparatus, Development of methods of detecting faults during impulse voltage testing, estimation of overvoltage power apparatus, the study of Micro-arrays and development of Gene chips. The course includes studies and modelling of material properties in electric fields, material ageing, discharges and breakdown in gases, liquids, solids and complicated insulating systems (multi-phase systems). Also, modern high voltage measuring techniques together with testing and diagnostics of different components and apparatus are of importance.
M.Tech. Fluids Engineering is a postgraduate Energy Engineering programme. The course comprises core units of study in your specific field, along with electives in general engineering to broaden your knowledge. There is a strong focus on project work to allow you to enhance your self-directed learning skills. Both professional and research pathways are available within all specializations to allow you to gain outcomes that are directly related to industry or to complete a research project as preparation for a higher degree by research in your chosen engineering discipline.
Set in a picturesque landscape at the foothills of the Western Ghats, National Institute of Technology Calicut (NITC) is located about 22 kilometers north-east of Calicut City. National Institute of Technology Calicut is a Technical Institution of national importance set up by an Act of parliament(Act 29 of 2007) namely, the National Institute of technology Act 2007, which received the assent of the President of India on 5th June,2007. The provision of the Act have come into force with effect from 15th August,2007 as per Notification S.O.1384(E) dated 9th August, 2007 of the MHRD(Dept. of Higher Education),New Delhi. As per the provision of the said Act, this Institution runs on non profitable basis.
National Institute of Technology Calicut (NITC) has made a mark as a vibrant entity with proven successes over a broad spectrum. Its talent pool in education and research is well recognized. Technical education in NITC encompasses undergraduate and graduate students along with doctoral scholars, and a wider participation through outreach. It has a core of highly motivated faculty members and committed staff members. The Institute emphasizes the primacy of academic excellence to provide a supply of well-trained engineers and scientists ready to make a positive impact on industry, driving global, national, and regional economic growth. All the institutional stakeholders share a framework of common values that supports superior performance in education, research, and service. Institutional goals transcend internal and external boundaries. Leveraging specific strengths and targeting areas of development where there is opportunity for significant improvement are key areas to work upon.