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Sir I am M.Tech student of Indian Institute of Technology Bombay and I am searching here for my syllabus so please can you give me the syllabus and tell me from where can I download the syllabus?
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Indian Institute of Technology, Bombay was established in the year 1958, It is the second-oldest institute of the Indian Institutes of Technology system. As you required for the IIT Bombay M Tech Syllabus, here is the same: I. Aerodynamics (AE1) Experimental Aerodynamics, Experimental Hypersonic Aerothermodynamics, Shock Waves and their applications, Computational Hypersonic Aerothermodynamics, Computational Fluid Dynamics, Computational Electromagnetics, Vortex and Particle methods, Vortex flows, Aero acoustics, Aircraft Design, Air Transportation, Turbulence modeling and applications, Computational studies of scramjet intakes, Supersonic mixing, Computation of high enthalpy flows, Turbulence and transport in magnetized plasmas, Plasma assisted flow control. II. Dynamics and Control of Aerospace Vehicles (AE2) Flight mechanics, guidance, navigation, tracking and control of launch vehicles, spacecraft, missiles, aircraft, mini aerial vehicles (MAV), Formation control of satellites, integrated navigation systems, airborne and spaceborne sensors and precision tracking systems, spacebased aircraft navigation; attitude dynamics and control, reentry dynamics and GN&C, HardwareInLoop Simulation, Cooperative missions for MAVs. III. Propulsion (AE3) Aircraft and Spacecraft Propulsion, Experimental and numerical studies on detonations, Combustion instabilities, Development of new techniques for emission reduction from combustion systems, Heat Transfer, Infrared Signatures of Aerospace Vehicles, Microchannel Cooling of Gas Turbine Blades, CFD of propulsive systems, Aerodynamic design and performance analysis of axial flow turbomachines, Flow control of turbomachines and internal duct flows, Computational hypersonic aerothermodynamics, Turbulence modeling and applications, Computational studies of scramjet engines, Supersonic mixing and combustion, Computation of high enthalpy flows, Turbulence and transport in magnetized plasmas, Plasma assisted combustion and flow control. IV. Aerospace Structures (AE4) Structural Health Monitoring, Wave Propagation, Aeroelasticity, Aeroservoelasticity, Structural Dynamics & Stability, Multidisciplinary Optimization, Mechanics of Materials (Metals, Metallic Alloys and Composites), Fracture and Fatigue in materials. B. 2) Biomedical Engineering (BM) [Department of Biosciences and Bioengineering] The Biomedical Engineering Group at IIT Bombay was set up in 1988. It is now a part of Department of Biosciences and Bioengineering (BSBE). Biomedical Engineering is one of the youngest disciplines in engineering and has made tremendous progress in the last 4 decades. This has been aided by rapid advancements in Semiconductor Technology, Information Technology, and Biotechnology. In the field of Biomedical Engineering, researchers with expertise in diverse areas work towards the unified goal of creating products and techniques for better health care. The backgrounds of faculty reflect the wide spectrum of expertise required to make better and more affordable health care a reality. Further, the students admitted to the programme have backgrounds in Engineering, Physical Sciences, Life Sciences and Medicine. The heterogeneous class composition promotes interaction between students and faculty of different backgrounds and provides opportunities for research in exciting interdisciplinary areas. Over the first two semesters, M.Tech. students are required to do substantial amount of course work to complement their undergraduate or masters level education. The third semester is devoted mostly to the M.Tech. projects although some courses may also be taken. The fourth semester is fully devoted to completion of the project. The curriculum has been designed to provide all students with a general background in Biomedical Engineering followed by more specific knowledge in the area of their choice. The former is achieved through core (for everyone ) and compulsory (for students with a particular background ) courses in the first semester. Electives taken during the second and third semester provide specialized knowledge in the area of the individual interest. In the first semester, students with backgrounds in life sciences and medicine are required to take compulsory courses in mathematics, electronic circuits and instrumentation. Students with backgrounds in physical sciences and engineering take courses in physiology. Further, everyone is required to present a seminar on a topic related to Biomedical Engineering under the guidance of a faculty member. There are other elective courses to be taken as well. In the second semester, all students have to go through a core course on Biostatistics and Design of Experiments. Students with backgrounds in physical sciences and engineering undergo a compulsory course in Clinical Physiology. All students are required to undergo a course on quantitative and experimental methods in physiology. The rest of the courses are electives which the students choose in consultation with the faculty adviser. Elective are offered in bioelectricity, ergonomics, medical instrumentation, bioMEMS, medical physics, physiological systems modeling, signal processing, etc. All students are required to take a course designated as an Institute Elective offered by another departments. In special cases, electives other than the institute elective may be taken from other departments after obtaining the due permissions. ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH • Bioinstrumentation for diagnostics and therapeutics • Biomaterials and tissue engineering, prostheses and medical devices • Bionanotechnology • Controlled drug delivery systems • Neurophysiology • Physiological system modelling and analysis Students can do their projects in, but not restricted to, the following areas: •Bioinstrumentation for early detection of carcinoma and tropical diseases, •Biointerfaces and Langmuir models of biological membranes, •Biomaterials and tissue engineering, •Biomedical transducers and sensors including biosensors and bioMEMS devices, •Bionanotechnology, •Biostatistics and mathematical modeling, •Cardiac electrophysiology and muscle mechanics, •Controlled drug delivery systems, •Diagnostic tools based on spectroscopic and imaging techniques, •Neurophysiology, •Prosthetic devices including aids for the handicapped, •Pulmonary surfactant replacements for therapeutics, •Signal processing, •Telemedicine and knowledge based systems RESEARCH FACILITIES Research in Biomedical Engineering is conducted in laboratories set up by core as well as associated faculty of the group. The various research labs and facilities available are as follows: •Biointerfaces laboratory for evaluation of surface phenomena in biological systems well equipped with specialized Langmuir Blodgett systems and surfactometers •Biomaterials Laboratory with facilities for the development and evaluation of novel materials for clinical applications •Biomedical Instrumentation Laboratory with standard test and measurement instruments such as digital storage oscilloscopes, signal generators, etc. •Biophotonics Laboratory to study the interaction of photons with tissues with a view to elicit information of tissue function and develop noninvasive diagnostic tools. •Cardiac Electrophysiology Laboratory with high speed data acquisition and signal conditioning modules for research into electrophysiology of ischemia and fibrillation. •Cellular Engineering Laboratory to conduct cellular and subcellular research. This Laboratory is equipped for cell and tissue culture as well as hybridoma research. •Haemorheology Laboratory, with instruments like cone and plate viscometer, red cell platelet aggregaometer for the evaluation of viscosity and flow parameters of biological fluids •Nerve and Muscle Physiology laboratory has facilities for experiments on skeletal, cardiac and smooth muscles •Work on Ergonomics and Biomechanics is carried on in the Ergonomics Laboratory in Industrial Design Centre (IDC) •Work on Medical Image Processing and Electrophysiological Signal Processing is carried on in Signal Processing and Artificial Neural Networks (SPANN Lab) Laboratory and the Instrumentation and Projects Laboratory in Electrical Engineering Department. The computing facility houses multiple workstations and servers. Fibreoptic local area network exists in the Institute. Students and faculty have access to the Institute facilities which include high end machines. The computing facilities are complimented by several PCs with data acquisition cards. B. 3) Chemical Engineering (CH) [Department of Chemical Engineering] A wide variety of courses are offered to enable a student to obtain proficiency in various facets of the Chemical Engineering Profession–Design, Production, Research and Development, and academics. The programme provides strong core courses together with a set of elective courses in the following areas : Biotechnology and BioSystems Engineering; Energy and Environment; Transport, Colloids and Interface Science; Catalysis and Reaction Engineering; Materials Engineering; Process Systems Engineering and Control. ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH • Biotechnology & BioSystems Engineering Metabolic & Genetic Engineering, Bioseparations, Bioinformatics, Systems Biology, Drug Discovery, Enzymology, Bioprocess Development, Vermiculture for Waste Management, Dehydration of Food Systems, Controlled Atmosphere Storage, and Process Development of Food Systems. • Energy and Environment Climate change, Coal Gasification, Energy Integration, Green Engineering, Renewable Resources, Waste Management, Pollution Control, Air Pollution Prediction & Control and Vermiculture. • Transport, Colloids and interface Science Fluidization, Granular flows, Powder Mixing, Membrane Separations, Rheology of Complex Fluids, Colloids, Solgels, Emulsions & Foams, Paints and Coatings, Microstructural Engineering, Aerosols, Electrohydrodynamics, Fluid Mechanics & Stability, Computational Fluid Dynamics, Heat & Mass transfer, Porous media, and Surfactants. • Catalysis and Reaction Engineering Catalysis, Multiphase Reaction, Bioreaction Engineering and Reactor Modelling, Process intensification & reactive distillation. • Materials Engineering Polymer materials, Polymer Reaction Engineering, Polymer Processing, Polymer Physics, Polyurethane, Rubber, Polymer Rheology, Ceramics, Polymers, Biomaterials, Drug Delivery, Food Engineering, Microscopy, Nanocomposites, Statistical Thermodynamics, and Supercritical Fluids. • Process Systems Engineering and Control Process Simulation, Optimization, Process Integration and Scheduling, Energy Conservation and Optimal Resource Management, Artificial Intelligence and Mathematical Modelling, Multiscale Modelling, Systems Identification and Process Safety Analysis, Nonlinear control, fault diagnosis. B. 4) Civil Engineering CE (CE1, CE2, CE3, CE4, CE5, CE6) [Department of Civil Engineering] The programme is geared to meet the growing demand for designers, consultants, development engineers, researchscientists and faculty. A student entering the M.Tech. programme in Civil Engineering can follow one of the following streams : (i) Transportation Systems Engineering(CE1) (ii) Geotechnical Engineering (CE2) (iii) Water Resources Engineering (CE3) (iv) Structural Engineering (CE4) (v) Ocean Engineering (CE5) (vi) Remote Sensing (CE6) ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH Transportation Systems Engineering (CE1) Modelling traffic flow, Urban regional transport network design, Transport planning models, Urban public transport operation and management; Economic evaluation, analysis and impact assessment; Landuse transport planning, Pavement analysis and design, Pavement maintenance management. FS, ANN, AI, GA, ES, GIS applications to transport modelling. Geotechnical Engineering (CE2) Geotechnical properties of soils, Soilstructure interaction, Foundation for offshore structures, Earth dam problems, Stability and Seepage, Mechanics of Swelling Soils, Rock Mechanics and tunneling, Soil dynamics, Pile foundations, Soil stabilization, Anchored geosynthetics, Reinforced soil structures and geosynthetics, Geotechnical centrifuge study, Optimization techniques and environmental geotechniques; Landslides. Water Resources Engineering (CE3) Real fluid flow, Dispersion in surface and ground water, Jets, Stratified flow, Fluid transients, Sediment transport in pipes and open channels, Mathematical and analogue models for ground water flows, Hydraulic structures, Hydrology, Optimization techniques in water resources Engineering, Water balance studies; Conveyance network; Urban water management; Urban water supply, Strom water and wastewater treatment and disposal. Structural Engineering (CE4) Earthquake engineering, Structural dynamics; Finite element techniques; Composite materials and mechanics; Earthquake disaster management; Reinforced and prestressed concrete; Computational mechanics; Wind effects on structures; Concrete technology; Steel structures; Strength, stability and dynamics of thin membranes; Plates and shells; Structural optimization; Structural response to impact and shock loading; Pressure vessels; Reliability analysis; Probabilistic design methods; Curved grid; Cable networks, Plastic analysis techniques; Inverse problems and artificial intelligence applications; Offshore Structures; Shell foundation. Ocean Engineering (CE5) This programme consists of developing basic as well as advanced level knowledge in the area of ocean engineering through course work and a dissertation. The course work involves exposure to fundamentals of fluid and water wave mechanics with relevance to ocean environment followed by hydrodynamics and structural application to a variety of ocean infrastructural developments including offshore structures, coastal and harbor structures. There are a large number of organizations in government bodies and public sector, research labs, private consultancy firms, and educational institutes that need candidates with such background. Remote Sensing (CE6) Development of methods and algorithms for digital analysis of remotely sensed data; Digital analysis of thermal and microwave SAR data; Digital terrain modelling; Remote sensing and spatial information analysis systems in hydrological modelling; Land degradation and soil erosion assessment; Spectral studies of crops and soils. Fuzzy, ANN and other approaches in remotely sensed data Analysis; Statistical analysis of geodetic and remote sensing data; Geodesy and geodetic techniques; Global positioning systems and its applications. B. 5) Computer Science and Engineering (CS) [Department of Computer Science and Engineering The M.Tech. programme in Computer Science is a flexible, second level programme offering students wide choice of electives from areas such as algorithms, programming languages, databases, machine intelligence, computer graphics and vision, networks, architecture, distributed computing and formal methods. The programme is aimed at generation of high quality technical manpower for Research, Design and Development in Computer Science and Computer Applications by exposing students to courses in theory as well as application areas. The department has strong ties with the computer industry and many M.Tech. students work on sponsored projects. ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH (i) Algorithms Algorithms and complexity; Combinatorics and graph theory; Geometric algorithms. (ii) Artificial Intelligence Image Processing, Pattern Recognition and Computer Vision; Intelligent systems and their applications–tutoring systems, Natural language understanding; Machine learning and neural networks. (iii) Computer Graphics, Computer Vision and Image Understanding Computeraided graphics design; Multimedia; High Performance computing; Visualization; Rendering; Graphics design and Animation; Computer vision; Image retrieval. (iv) Computer Networks Performance modeling of networks & distributed systems; Quality of service in distributed systems; Wireless LANs: analysis and design; Design, implementation and verification of network security protocols; Distributed control algorithms and operating systems. (v) Databases and Data Mining Object oriented, temporal parallel databases; Query optimization and transaction management; Hypertext mining and information retrieval; Data dissemination networks; Integrating mining with relational DBMS, temporal mining, integrating mining with OLAP, indexing multidimensional data, precomputation techniques, mining extensions and extending relational DBMS for e commerce, Widearea distributed database systems, forecasting and smart e business. (vi) Distributed Systems System Performance Evaluation, Distributed Client Server Information Systems, Scalable Services, Fault Tolerance, Distributed Object Based Systems, Autonomic/Adaptive Distributed Applications, Programming Models and Runtimes for Generic Agents, Information Appliances, Parallel Computing, Java Security, high performance cluster computing. (vii) Formal Methods Formal specification, design and verification of hardware and software systems including distributed systems; Logic, automata theory and their applications in reasoning about systems; Automated theorem proving; Model checking. (viii) Programming languages and Compilers Theory of code optimization; Optimizing and parallelizing compilers; Analysis and implementation of functional and logic programming languages; Theory of programming languages. (ix) RealTime and Embedded Systems Functional Programming Applications, reconfigurable computing, Automobile Telematics, Embedded control units. (x) Software Engineering Object oriented software development; Component architectures; Reengineering of software; Systems Analysis and Design, MIS systems, Project Management, Quality Assurance. B. 6) Earth Sciences (GS, PG ) [Department of Earth Sciences] The M.Tech programme of the department lays special emphasis on developing skills for exploration of mineral, petroleum and groundwater. The students of this programme have good placement opportunities in leading national and international mineral & oil exploration companies, Geological Survey of India, National Mineral Development Corporation, Atomic Mineral Division, Mineral Exploration Corporation and software companies. a. Geoexploration : GS The programme is structured such that the students can learn various aspects of mineral, petroleum and groundwater explorations. It offers wide ranging courses in exploration Well Logging, Basin Analysis, Marine Mineral Resources, Groundwater Hydrology, Environmental Geology and Hydrogeochemistry. b. Petroleum Geoscience : PG This Specialization is introduced from July 2007. It prepares graduates for a career in petroleum exploration and development. The course provides advanced skills in seismic interpretation, basin analysis and applied micropaleontology, sequence stratigraphy, reservoir sedimentology, petrophysics, wireline logging tools and data interpretation using workstations and software as used in the industry. ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH • Active Tectonics and Tectonics • Electromagnetism • Engineering Geology • Geochemistry • Geothermics • Geostatistics • Geomagnetism • GPS and Geodesy • Gravity and Magnetic • Hydrogeology • Isotope Geology • Igneous Petrology • Mineralogy • Micropalaeontology • Metamorphic Petrology • Ore Petrology and Ore deposit modeling • Organic Geochemistry • Petroleum Geology • Remote Sensing and GIS • Sedimentology • Structural Geology • Stratigraphy • Seismology • Volcanology • Numerical modelling in Geophysics B. 7) Electrical Engineering EE (EE1, EE2, EE3, EE4, EE5) [Department of Electrical Engineering] AREAS OF SPECIALIZATION Communication Engineering EE1 Control and Computing EE2 Power Electronics and Power Systems EE3 Microelectronics EE4 Electronic Systems EE5 ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH Communication Engineering (EE1) • Communication Systems • Communication Networks and Internet • Computational Electromagnetics • Image Processing and Computer Vision • Microwaves, RF and Antennas • Multimedia Systems • Optical Communication and Photonics • Signal Processing • Speech Processing • Wireless and Mobile Communication • Information Theory and Coding • Magnetic Resonance Imaging Control and Computing (EE2) • Linear Systems Theory • Optimal Control and Optimization • Modeling and Identification of Dynamical Systems • Control of Distributed Parameter Systems • Nonlinear Systems • Modern Filter and Network Theory • Behavioral Systems Theory 33 • Computational Methods in Electrical Engineering • Software and System Reliability • Cryptography and Security • GPUbased Computing Power Electronics and Power Systems (EE3) • FACTS, HVDC and Power Quality • Distributed Generation • Power System Restructuring • Wide Area Measurements and System Protection • EMI / EMC • Coupled Field Computations • Electrical Machines: Modeling, Analysis, Design and Control • Special Machines • Power Electronic Converters, Electric Drives • Power Electronics for Nonconventional Energy Sources • Reliability in Power Systems and Power Electronic Systems • Smart Grids for Energy Harvesting Microelectronics (EE4) • Devices and IC Technology • Reliability of Electronic Devices and Circuits • Device Simulation and Modeling • VLSI and System Hardware Design • CAD Tools • MEMS Design and Technology (including BioMEMS) • Flash Memory Devices • Organic Semiconductor Devices • CMOS Devices • Spintronic Devices • Photovoltaic Devices • Material Growth and Characterization Electronic Systems (EE5) • Electronic Instrumentation • Signal Processing Applications • Speech and Audio Processing • Biomedical Electronics • Embedded System Design B. 8) Energy Systems Engineering (EN) [Department of Energy Science & Engineering] Energy is a critical input required for development. Fossil fuel reserves in the country are limited and there is a need to develop viable cost effective alternatives. Renewable and Nuclear Energy can provide possible longterm solutions for the energy problems. There are problems in the large scale development and deployment of these alternatives that need to be addressed. In the short run, India has to aggressively pursue energy efficiency and Demand Side Management to improve the efficiency of supply and utilization devices and systems. The development of new energy technologies provides technological challenges as well as significant business opportunity. In order to help meet these challenge, the Department of Energy Science and Engineering (DESE) has been established with a mission to develop sustainable energy systems and solutions for the future. There is a requirement for high quality trained manpower in the energy sector. It also provides scope for engineering innovators/entrepreneurs. The M.Tech. programme offers a mix of compulsory courses and elective courses that can be chosen according to the specialization and interest of the students. The programme has two laboratories (Solar Energy and Energy Systems Laboratory) and a computational facility. In addition to this, the students are actively involved in the research and development activities of the Thermal Hydraulics facility, Gasification Laboratory, Heat Pump Laboratory (Mechanical Engineering), Power Electronics and Power Systems Laboratory (Electrical Engineering). DESE faculty have been organizing several Continuing Education Programmes on a continuous basis on Renewable Energy, Energy Management, Process Integration, Solar Passive Architecture and have initiated a series of programmes for the Nuclear Power Corporation. The department has established linkages with industries like Thermax, Forbes Marshall, BSES, Mahindra & Mahindra, BHEL and organization like Atomic Energy Regulatory Board, Ministry of New and Renewable Energy, International Energy Initiative and The Energy and Resource Institute which have sponsored M.Tech/Ph.D Projects, ensuring the relevance of the research output. ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH Energy Efficiency / Improvements in conventional Energy Systems. Heat pumps, Energy integration, Process integration for resource optimization, Pinch Analysis Development of techniques for optimization of Utility systems, Demand Side Management/Load Management in the Power Sector, Variable Speed Drives, Power Generation and Systems Planning, Energy Management and Auditing, Efficient Motor Drive Systems, Electronics Ballasts, Static VAR compensators, Illumination control, Power Electronics in Energy Efficient Systems, Electric Vehicles, Boilers and Fludised Bed Combustion, Exhaust Heat Recovery, Cogeneration, Building Energy Management, Efficient Air Conditioning Systems, Hydrogen Generation and Storage, Fuel Cells. Renewables Coal Gasification, Biomass Gasifier Design, Development and Testing, Liquid fuels from Biomass through the thermochemical and algal route, Microbial Hydrogen, Pyrolysis for liquid fuels and chemical, CNG Kit development, Testing of Solar Collectors and systems, Passive Solar Architecture, Development of Carbon PV cell, Decentralized Power Systems Grid Integration Issues, Hybrid Systems for Rural Electrification, Wind Energy, Low Cost Solar Drier, Fuel Cells, Thin film solar cells, Carbon nano tubes for hydrogen storage, Solar photovoltaic concentrator, Development of Engines of SVO, Biodiesel, Dual fuelling etc., Biodiesel manufacturing process. Complex Fluid Dynamics, Flow of Granular Materials, Multiphase flows, Computational Fluid Dynamics, Molecular Dynamic Simulation of Particulate Flows. Nuclear Nuclear Safety, Nuclear Waste management, Thermal Hydraulics Research, Computer Simulation Models for Analysis of Transients in Pressurized Heavy Water Reactor. Nuclear thermal hydraulics and safety, Analytical solution of multilayer heat conduction problems. Fellowships Several fellowships are normally available to DESE students ranging from 8000 to 15000 per month. Most of the fellowships also include tuition fee waiver. Fellowship will be offered on the basis of separate interviews. B. 9) Environmental Science & Engineering (EV) [Centre for Environmental Science & Engineering (CESE)] The interdisciplinary programme in Environmental Science and Engineering aims to offer a balanced training in scientific, engineering and social aspects of this field. The course has been designed to meet the requirements of industry, consultancy services, academic and R & D organizations related to Environmental Management, treatment of emission and effluents and remediation of contaminated environment. The programme provides ample choice of electives to enable students to delve deeper in to various aspects related to this discipline, i.e. Environmental Monitoring and Modeling, Environmental Impact Analysis, Environment Biotechnology, Industrial Air & Water Pollution Control, Industrial Ecology, Clean Technology and Hazardous Waste Management and Aerosol Science and Technology. Maharashtra Pollution Control Board under their MoU with IIT Bombay has provided financial assistance for fellowship for Two year M.Tech. Programme in Environmental Science and Engineering. ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH The research and development activities of the CESE encompass a wide spectrum of areas in Environmental Science and Engineering with special emphasis on the solution of real life environmental problems such as environmental monitoring, industrial air and water pollution control, solid and hazardous waste management, air and water quality modelling, environmental systems optimization, environmental microbiology and biotechnology, bioremediation, indoor air quality, aerosol science and technology, environmental impact assessment and global issues. B. 10) Geoinformatics & Natural Resources Engineering)(GNR) [Centre of Studies in Resources Engineering (CSRE)] Centre of Studies in Resources Engineering offers an M.Tech programme in Geoinformatics & Natural Resources Engineering which is multidisciplinary in nature. The emphasis of the programme is on the use of modern technological tools such as Satellite Remote Sensing, Geographic Information Systems, Global Positioning Systems, etc. for natural resources studies. The course provides a balanced coverage on natural resources exploration and management as well as on the application areas of interest such as Agriculture & Rural Development, Atmospheric Studies including Ozone Depletion, Coastal and Marine Environment, Digital Image Processing, Digital Photogrammetry, Natural Hazard Assessment and Disaster Mitigation, Snow, Avalanche and Glacial Studies, Terrain Evaluation, Water Resources (Surface and Ground water), High Performing Computing, etc. Due to multidisciplinary nature of the subject of Geoinformatics and Natural Resources Engineering, emphasis is laid on training the students with an integrated approach to various issues pertaining to natural resources exploration and scientific management using the most modern tools and techniques. The courses offered cover fundamentals to advanced topics in the use of Remote Sensing, GIS and GPS to natural resources of Land, Earth and Atmosphere as well as natural hazards and disasters. ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH Remote Sensing and GIS applications, Surface and ground water resources, Terrain evaluation, Landuse Planning, AgroInformatics and Rural Development, Sensor Network in Precision Agriculture, Mineral and hydrocarbon exploration, Snow and avalanche studies, Hazards of landslide, Drought and desertification, Marine and coastal environmental studies, Atmospheric remote sensing, Development of tools and techniques of spatial data processing, Digital Image processing, Stereo image analysis and digital cartography, Microwave remote sensing, Geocomputational systems, Climate change aspects, etc. B. 11) Industrial Engineering and Operations Research (IO) [Interdisciplinary Group in Industrial Engineering and Operations Research (IE&OR)] ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH The group is interested in research related to modeling, quantitative analysis and optimal resource allocation from decision problems in deterministic and stochastic contexts. Broad areas of application are in manufacturing systems, supply chains, logistics, transport including railways, finance, services, infrastructures and other industrial systems; application of quantitative methods in quality and maintenance management systems; development and application of decision support, intelligent and knowledge based systems. The specific problems of interest include: production planning, scheduling and control systems; management of inventories in production, distribution and service systems; industrial scheduling, facilities planning, project management, quality management, material management and productivity management; operation, planning and control related to CMS, MRP, flexible assembly, FMS, JIT, Supply Chains and ERP; reverse logistics and RFID applications, product variety management. Operations Research applications in management of technology and resource allocation; optimal control in stochastic systems; applications of game theory, modeling and simulation of supply chains, manufacturing and service systems; theory and applications of distributed simulation, discrete event and system dynamics simulations; applied stochastic models; scheduling and control of railways and other transport operations; time tabling of services, crew and vehicle scheduling for transport operations; optimization and design problems arising from ecommerce, including auctions and mechanism design for electronic exchanges; risk analysis and contract design; revenue management; quantitative models for financial engineering. Theory and applications of neural nets and fuzzy systems in manufacturing and management; development and applications of modern information systems for managing manufacturing, supply chain and service organizations. The IEOR programme is unique in its contemporary flavour, with new courses in Financial Engineering, Services Management, Knowledge Based Systems, Neural Networks, Supply Chain Management, Engineering Economy, Manufacturing systems to name a few. The programme is equally strong in background building, with updated courses in Optimization Techniques, Stochastic Models and Simulation. B. 12) Mechanical Engineering ME (ME1, ME2, ME3, ME4) [Department of Mechanical Engineering] Areas of Specialization 1. Thermal and Fluids Engineering (ME1) 2. Design Engineering (ME2) 3. Manufacturing Engineering (ME3) 4. Nuclear Engineering (ME4) ELIGIBILITY FOR ADMISSION as given in Table A.3 Eligibility for Admission to Different Disciplines. AREAS OF RESEARCH Thermal and Fluids Engineering (ME1) Fluid Mechanics, Fluid Machinery, Fluid Power Control and Fluidics, Analysis of Thermal Systems, Numerical prediction of convective and radiative heat transfer, Combustion, Fluidised bed combustion, Refrigeration and Airconditioning, Cryogenics, Miniature Cryorefrigerators, Food preservation, Performance Studies on IC Engines, Alternate Fuels, Nuclear Energy and Reactor Physics, Fuel Cells, Nuclear Reactor Thermal Hydraulics, Electronics Cooling, Microfluidics and Microscale Heat Transfer, Transport in porous media, Computational Fluid Flow and Heat Transfer, Analysis of Turbulent Flows, Low Temperature Plasma Modelling, Molecular Gas Dynamics, Enhanced Oil Recovery. Design Engineering (ME2) Stress and Vibration Analysis – Analytical, numerical (Finite Element and Boundary Element Methods) and experimental methods, Fatigue and FractureLinear elastic and elasticplastic fracture mechanics, Fracture of composite materials, Fatiguecreepcorrosion interaction, Tribology and Machinery Maintenance, Pressure Vessel Design, Computer Aided Simulation and Design Optimization, Linear and nonlinear vibrations, Chaos, Vehicle Dynamics, Rotor Dynamics, Acoustics and Noise, Active Vibration and Noise Control, Smart Structure, Robotics, Kinematics and control of Rigid and Flexible Manipulators, Microprocessor based control and automation, Mechatronics, Mobile Robots, Textile Machinery, MEMS. Manufacturing Engineering (ME3) CAD / CAM / CIM, CNC, Computer Assisted Process Planning, Design for Manufacturing and Assembly, Manufacturing Automation & Control, Intelligent Manufacturing Systems, Rapid Prototyping and Tooling. Design, Optimization and Modelling of Manufacturing Processes (Casting, Forming, Machining, and Welding), Precision and MicroManufacturing Processes, Computer Aided Tool Design. Applications of IE & OR in Manufacturing, Logistics, Quality and Maintenance Systems. Nuclear Engineering (ME4) Nuclear Reactor Theory, Nuclear Reactor Dynamics and Control, Nuclear Reactor Thermal Hydraulics, Nuclear Reactor Safety, Reliability and Probabilistic Risk Assessment. Fellowships There will be about four fellowships from Atomic Energy Regulatory Board (AERB) given to deserving M.Tech. Students. Those selected (based on an interview) will be offered and enhanced stipend of 20,000/, along with fee wavier. These students will be absorbed as Scientific Officer (C ) in AERB and would be required to execute a bond to serve the organisation for atleast three years. A similar Fellowship program is also likely to be available from Nuclear Power Corporation of India Ltd. (NPCIL). Complete syllabus is in the attachment, please click on it………………. Contact details: Indian Institute of Technology Adi Shankaracharya Marg, Powai, Mumbai, Maharashtra 400076 022 2572 2545
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