ICSET – 2016 scope covers, but not limited to, the following tracks and their related topics:
Track 1- Computer and Software Engineering
Computer-aided engineering, Cryptographic engineering, Information engineering, Tele-traffic engineering, Web engineering, Finite Element Analysis (FEA), Computational Fluid Dynamics (CFD), Multi-body dynamics (MBD), theory of computation, Information and coding theory, Algorithms and data structures, programming language theory, formal methods, artificial intelligence, computer architecture and engineering, computer performance analysis, computer security, computational science, computer networks, concurrent, parallel and distributed systems, data bases
Track 2- Mechanical & Metallurgical Engineering
Acoustical engineering, manufacturing engineering, Thermal engineering, Sports engineering, Vehicle engineering, Power plant engineering, Energy Engineering, metals and alloys Studies, Microwaves and Metals studies, material engineering studies.
Track 3- Electrical & Electronics Engineering
Electricity, electronics, electromagnetism, electronics, digital computers, power engineering, telecommunications, control systems, radio-frequency engineering, signal processing, instrumentation, and microelectronics, Control engineering, modeling of dynamic systems, the design of controllers using electrical circuits, digital signal processors and microcontrollers, Telecommunications engineering, Optical engineering, Power engineering.
Track 4- Civil Engineering
Ecological engineering, the design, monitoring and construction of ecosystems, Fire protection engineering, the application of engineering to protect people and environments from fire and smoke, Sanitary engineering, the application of engineering methods to improve sanitation of human communities, Wastewater engineering, environmental engineering, transportation and cleaning of black water, grey water, and irrigation water. Wastewater treatment and water reclamation, water and waste management, transportation networks, subdivisions, communications, hydrology, hydraulics, etc. Mining engineering, the exploration, extraction and processing of raw materials from the Earth, Foundation (engineering), the engineering of below ground foundations that support superstructures, Earthquake engineering, the behavior of structures subject to seismic loading, Wind engineering, Architectural engineering, application of engineering principles to building design and construction
Ocean engineering, the design of offshore structures, Environmental engineering Ecological engineering, the design, monitoring and construction of ecosystems. Fire protection engineering, the application of engineering to protect people and environments from fire and smoke Sanitary engineering, the application of engineering methods to improve sanitation of human communities, Wastewater engineering Wastewater engineering is a type of engineering that comes from civil engineering and environmental engineering, wastewater engineer determines the best way to transport or collect rainwater for human populations. Structural engineering, Earthquake engineering, the behavior of structures subject to seismic loading, Wind engineering, the analysis of wind and its effects on the built environment, Architectural engineering, application of engineering principles to building design and construction
Ocean engineering, the design of offshore structures. Mining engineering, transport engineering, Traffic engineering, Highway engineering, construction and design of highways, Railway systems engineering, Water resources engineering, Prediction, planning, development and management of water resources.
Track 5- Bio-Technology & Food Technology
Nucleic acids and molecular biology: novel studies on physical and functional characterization of genomes, expression of genomic information, development and application of technologies for the detection of single molecules and molecular interactions, identification of biotechnologically interesting new compounds, molecular bioinformatics and development of automated systems for the above-mentioned fields.
Physiology and biochemistry: biochemical and physiological studies of metabolisms and enzymes including intermediary metabolism of microorganisms, tissue culture and cell-free systems; bioregulatory investigations at the molecular level including transcription/translation control and growth/product synthesis relationships; design and engineering of products by molecular strategies, protein/enzyme engineering and modification; protein and metabolite secretion; molecular strategies for screening of new or modified products (e.g. pharmaceuticals, bioactive compounds, enzymes); product development based on enforced evolution and combinatorial strategies.
Biochemical and bioprocess engineering: reaction kinetics, design of reactors, downstream operations and software applications, research on cellular biology a