Track Categories

The track category is the heading under which your abstract will be reviewed and later published in the conference printed matters if accepted. During the submission process, you will be asked to select one track category for your abstract.

Aerospace sector deals with the human effort in science and engineering around our atmosphere of Earth (also called as aeronautics) and of the surrounding space (also called astronautics). Aerospace organizations perform various functions such as designing, manufacturing, operating, and maintaining aircraft and researches for all possible contingencies. Aerospace activity is a very diverse field and has commercialization and connection with industrial and military applications. Aerospace engineering has mainly  two  branches:
Aeronautical 
Astronautical Engineering.
 Aerospace Engineering is evolving and a few new technologies are on the course that involves carbon capture and storage, investment in renewable sources of energy, alternative fuels are seen as vital R&D needs of the World.
 

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  • Track 1-1Aircraft Structure
  • Track 1-2Artificial intelligence in aircraft design
  • Track 1-3Engine integration of light sport aircraft
  • Track 1-4Aircraft icing physics and anti-/de-icing technology
  • Track 1-5Aeroelasticity
  • Track 1-6Digital Avionics
  • Track 1-7Conversion of Micro Turbojet Engine To Micro Turboprop Engine
  • Track 1-8Commercial aircraft application possibilities and research
  • Track 1-9High-speed engine and turbofan technologies
  • Track 1-10Operation processes and engines theory
The most basic definition of vibration is "Periodic To-and-fro motion about its mean position is called vibration". It is a mechanical phenomenon where oscillations occur about an equilibrium point. The word vibration comes from the Latin word vibrationem which means ("shaking "). The oscillations may be periodic, such as the motion can be seen on the pendulum.
 
This topic provides key concepts of, uncertainty modelling, vibrational analysis, and vibration control. Vibration focuses on the basics of mathematical modelling, computational results and assessment in the performance of system components. Vibrating systems such as beams, strings, plates and membranes, vibration isolation, critical speeds, the balancing of rotating and reciprocating machinery are some of the major concepts of vibration. Basic principles of control theory will be presented from feedback control systems.
 

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  • Track 2-1Machinery noise and vibration
  • Track 2-2Vibro-acoustic modelling and analysis
  • Track 2-3Multibody dynamics and control
  • Track 2-4Dynamics of aerospace structures
  • Track 2-5Automotive noise and vibration (NVH)
  • Track 2-6Machine Specific Vibrations (i.e. fans, pumps, motors, turbines, gear-boxes, etc.)
  • Track 2-7Vibration Control
  • Track 2-8Vibration Techniques and Methodology
  • Track 2-9Condition Monitoring
Refrigeration and cooling is a process of eliminating heat from a low-temperature medium and transferring it to a high-temperature medium. The transfer of heat is done with the help of mechanical equipment and is also be driven by various other means such as heat, magnetic & electricity means. This process cools a closed space by removing heat from it following the definition of cold "absence of heat". 
A compressor is a tool for a refrigeration system that pumps refrigerant and increases the pressure of the refrigerant vapour.
Refrigeration process uses a refrigerant with boiling and condensation to cool a surface or volume.
 

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  • Track 3-1 Vapor compression refrigeration system
  • Track 3-2 Vapour absorption refrigeration system
  • Track 3-3Steam Jet Refrigeration
  • Track 3-4 Capacity control methods
  • Track 3-5Characteristics of HFO refrigerants
  • Track 3-6Magnetic refrigeration
  • Track 3-7Cryogenics materials and refrigerants
Fluid Mechanics deals with the mechanical properties of gasses and fluids. Mechanics are often divided into liquid statics,( the investigation of liquids terribly still) or liquid motion,( the investigation of the impact of powers on sleek movement) which explains strain in liquid mechanics, connects in liquid mechanics, Thermo liquid mechanics, machine liquid progress and Fluid parts of gasses and fluids. Mechanics are divided into liquid statics or liquid motion.
Fluid dynamics helps us to know the varied aspects of nature like ocean currents, weather pattern and even blood circulation. 
Fluids don't seem to be like to flow in continuous media within the manner.   Bernoulli and Euler along with others have assumed, for that they're composed of discrete molecules. The molecules, however, are too little. Except in gases at terribly low pressures, the quantity of molecules per millilitre is thus huge that they have not to be viewed as individual entities. There are many liquids which are as called liquid crystals, within which the molecules are packed along in such some way on build the properties of the medium regionally anisotropic, however, the overwhelming majority of fluids (including air and water) are isotropic. In mechanics, the state of associate isotropic fluid can also be identified by shaping its temperature, mean mass per unit volume, density, its and its speed, and therefore the positions and velocities of individual molecules have no direct connection.

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  • Track 4-1Boundary layer flows
  • Track 4-2Thermodynamics analysis of fluid flow
  • Track 4-3Newtonian and Non-Newtonian flows
  • Track 4-4Turbulent motion in pipe
  • Track 4-5Kinematics and Dynamics of fluid flow
  • Track 4-6Drag , lift & buoyancy in fluids
  • Track 4-7Compressible and Incompressible Flows
  • Track 4-8Rheological Behaviour of Fluids
  • Track 4-9Microfluids
  • Track 4-10Laminar and turbulent flows
  • Track 4-11Electrophoresis And Microfludics
Electronic systems related to flight is illustrated by the term ‘avionics’. Avionics covers the inner sensors and management systems inside the craft by these various mobile communication and navigation systems to ‘stealth’ aircraft style and control systems. The activities here are connected to interests of the framing, engine, systems and instrumentation makers throughout style, take a look at and manufacture, also because of thein-service aspects of operation and maintenance. The merging of the words aviation and physical science, astronautics are all of the electronic devices and systems that perform personal functions, used on any craft.
Modern astronautics could be a substantial portion of military craft disbursal, accounting for any place between 20-60% of the full price of a personal craft. As technology continues to boost, thus will the burden of astronautics upon the civilian craft business also.
 
The astronautics in the most craft are going to be upgraded many times throughout the lifetime of the framing. This makes astronautics one in every of the foremost vital sectors within the regional business and it's a serious leader within Great Britain.
 

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  • Track 5-1Advances in aerospace technology
  • Track 5-2Emerging avionics technology
  • Track 5-3Rocket theory and design
  • Track 5-4 Navigation systems
  • Track 5-5 Aerodynamic forces and structural flexibility
  • Track 5-6 Advanced theoretical models
  • Track 5-7 Aeroelasticity and loads
  • Track 5-8 Aircraft systems
Applied Mechanics covers a wide range of topics and academic disciplines which includes experimental learning and analysis,  and numerical modelling. 
 
Applied mechanics portrays the conduct of a body, in either a starting condition of rest or of movement, subjected to the activity of powers. Applied mechanics removes all the barriers between the physical hypothesis and its application to innovation. It is utilized in numerous fields of designing, particularly mechanical building and structural designing. In this specific situation, it is regularly alluded to as Engineering Mechanics.
 
In practical, applied mechanics is useful in formulating new ideas, interpreting phenomena, theories, experimental and computational tools. Mechanics is also related to thermodynamics" the study of heat" and electromechanics "the study of electricity and magnetism".
 

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  • Track 6-1Nonlinear Dynamic Modelling
  • Track 6-2Plasticity and Nonlinear Material Modelling
  • Track 6-3Damage Mechanics, Fracture and Fatigue
  • Track 6-4Structural Stability and Buckling Phenomena
  • Track 6-5 Micro Electromechanical Systems
  • Track 6-6Dynamic Instability and Buckling
  • Track 6-7Computational and Experimental Mechanics
  • Track 6-8Surface Engineering and Contact Mechanics
Any machine that extracts and imparts energy to a continuously moving stream of fluid can be called a turbomachine. The Examples of turbomachines are ship propeller, windmills, waterwheels, hydraulic and gas turbines, pump and compressor. In general, there are two kinds of turbomachines.
These are open and closed turbomachines.
Some open turbomachines are propellers, windmills, unshrouded fans which generally act on an infinite extent of fluid.
 Closed machines operate on a limited amount of fluid as it has to pass through a housing or casing or any closed environment.
Types of turbomachines:
Power producing and power absorbing machines 
Axial and radial flow turbomachines 
Single stage and multistage turbomachines
Thermal and hydro turbomachines
 

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  • Track 7-1 Transformers, generators and turbines
  • Track 7-2 Aero-jet engines
  • Track 7-3 Turbomachinery Design, Performance and Operation
  • Track 7-4 Compressors and fans
  • Track 7-5Turbomachines for Clean Power and Propulsion,
  • Track 7-6Aviation and industrial gas turbines

The UAV is an acronym for Unmanned Aerial Vehicle, which is a flying machine with no pilot on load up. UAVs can be a remote-controlled flying machine (e.g. flown by a pilot at a ground control station) or can fly self-rulingly in view of pre-modified flight designs or more perplexing unique robotization frameworks. UAVs are as of now utilized for various missions, including observation and assault parts. For the motivations behind this article, and to recognize UAVs from rockets, a UAV is characterized as being fit for controlled, managed level flight and fueled by a stream or responding motor. Additionally, a journey rocket can be thought to be a UAV, however, is dealt with independently on the premise that the vehicle is the weapon. The acronym UAV has been extended now and again to UAVS (Unmanned Aircraft Vehicle System). The FAA has embraced the acronym UAS (Unmanned Aircraft System) to mirror the way that these mind-boggling frameworks incorporate ground stations and different components other than the genuine airborne vehicles.

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  • Track 8-1Aerodynamics and air frame configurations
  • Track 8-2Design for stealth
  • Track 8-3Payload types
  • Track 8-4Control station for UAV
  • Track 8-5Communication between Control station and UAV
  • Track 8-6Control and Stability of UAV
  • Track 8-7State Space Control
  • Track 8-8Electric aircraft concept for unmanned air vehicles and military aviation
  • Track 8-9Interoperability
Heat transfer is the process of transfer of heat from high-temperature medium to low-temperature medium. According to thermodynamics, heat transfer is the motion of heat throughout the boundary of the system because of the temperature gradient between the system and its surroundings. The heat transfer can also take place within the system because of the fact that sometimes there is a  temperature difference at various points inside the system.
 
Modes of Heat Transfer:
 
There are three modes of heat transfer between the two bodies: 
Conduction, 
Convection and
 Radiation. 
 
These have been described below:
 
Conduction:
                      The transfer of heat between two solid bodies is referred to as conduction. It depends on the temp difference of the two hot and cold bodies. Example of conduction heat transfer is when two bodies at a different temperature kept in contact with each other so due to the tem[p difference the cold body start getting heat from the hotter body.
 
Convection:
                      Convection is defined as the transfer of heat between the solid surface and a liquid. Let us consider an example. when a pot of water is boiled the heat from the solid body is transferred to the water.
Radiation: 
                    When two bodies are at distances from each other and there is a temp difference, in this case, the heat transfer from one body to another is called as radiation heat transfer. In the case of the radiation heat transfer, there are no media which is different from conduction and convection. Heat from the sun is the best example for radiation.
 

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  • Track 9-1Conduction, Convection and Radiation Heat Transfer
  • Track 9-2Environments and Heat Transfer
  • Track 9-3Heat Exchangers, Other Heat Transfer Devices
  • Track 9-4Heat Pipes
  • Track 9-5Thermophysical Properties
  • Track 9-6Heat Transfer Enhancement
  • Track 9-7Direct Numerical Simulations (DNS)
  • Track 9-8Phase Change Phenomena
  • Track 9-9Fuel Cells

Computational fluid dynamics is a subject that has multiple practical applications in everyday life. Quoting the basic requirement of the fast speed and accurately orientated results, the computational fluid dynamics has a huge role to play. CFD generally uses numerical analysis and algorithm to analyse the problems of fluid flow and provides accurate results using computers. Various researches have been carried out to develop software’s which can yield accurate results of complex problems of turbulent flow .the fundamentals of CFD comes from navies stokes theorem. Methods were developed to solve the linearized potential equations. With the rise in the market of computers and growing computational power, the field of Computational Fluid Dynamics became an important tool for finding accurate solutions for fluid flows. In a CFD analysis, physical properties like velocity,  temperature, density, pressure, and viscosity of fluid flow is an examination. Computer power available paced development of the three-dimensional method.

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  • Track 10-1Discretization methods
  • Track 10-2CFD-modelling
  • Track 10-3Hybrid multizonal
  • Track 10-4Coupling numerical computational
  • Track 10-5Compressibility and shock waves
  • Track 10-6Two-phase flow
  • Track 10-7CFD-modelling of free interfaces
  • Track 10-8Three methods of CFD calculations for a turbine last stage – exhaust hood designing
  • Track 10-9Biomedical Engineering
  • Track 10-10Solution algorithms
  • Track 10-11Unsteady Aerodynamics
Any device that has the capacity to convert heat energy generally from fuel into mechanical energy is known as engine or heat engine. Engines are widely used in automobile industries. The engine is also called the heart of an automobile.  The engine is classified into two types:
 
1. External combustion (E.C.) Engine
it is a type of engine in which combustion of fuel takes place outside the cylinder. In this type of engine when heat is generated by the burning of fuel is used to convert the water or other fluid into steam. Sometimes this high-pressure steam used to rotate a turbine and generated energy. 
2. Internal Combustion (I.C.) Engine
It is a type of engine in which combustion of fuel takes place inside the engine. When the fuel is burnt inside the engine cylinder, it generates a high temperature and pressure inside the engine hence driving it to produce power which is used to rotate the wheels of the vehicle. 
 

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  • Track 11-1Engine Design and Mechanical Development
  • Track 11-2 Intake exhaust management and advanced filters
  • Track 11-3Combustion engines and advancement
  • Track 11-4 Power-train Design ,Calibration and optimization
  • Track 11-5 Heavy-Duty, On- and Off-Highway Engines
  • Track 11-6Large Bore Engines
  • Track 11-7Emissions Control Systems
Aerodynamics is the way air moves around different. Aerodynamics explain how an aeroplane is able to fly at such height without any external support. Anything that moves around air falls under the concept of aerodynamics.for instance -when a rocket blasts off the launch pad or a kite moves around in the sky. Aerodynamics also covers the area on cars. Aerodynamics also contains projectile motion features, Aero warming, Aero-motor combustors and Aero-versatile displaying.
Aerodynamics is the science of moving air around the solid bodies. Aerodynamics almost follows the equations of fluid mechanics equations like turbulence, boundary layer theory, and ideal gas assumption etc.
Aerodynamics provides the study of the behaviour of aircraft along with the knowledge of flow control.
 

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  • Track 12-1Automotive Aerodynamics
  • Track 12-2Race car design and optimisation
  • Track 12-3Supersonic,Transonic and Subsonic Aerodynamics
  • Track 12-4Vehicle to Vehicle Aerodynamic Interaction/Stability
  • Track 12-5Drag Reduction Techniques
  • Track 12-6Fundamental Flow Regimes and Structures
  • Track 12-7Acoustic requirements and sound quality for EVs and HEVs and fully autonomous vehicles
  • Track 12-8Aero-acoustics technologies, duct acoustics and combination of acoustic and thermal performance optimization
Robotics may be a branch of engineering and science that may be the technology of the future. Artifitial Inteligence deals with the planning, construction, operation and use of robots mechanical tools still as laptop systems for the management, sensory feedback, and knowledge process.Robotics is  the science of building devices that physically interact to the surrondings. the foremost helpful robots have it away exactly, powerfully, repeatedly, tirelessly, fast, or some mixtures of those. The foremost fascinating robots perhaps even have the intelligence beyond imagination. This conferenc can cowl the basics of AI, that specialize in the tngible and intangible concepts of robotics.
 
Automation is known as the technology by which a method or procedure is performed without any human effort. By the help of automation it is now more easier to make  use of various management systems for operating instruments like heavy machines in, boilers , heat treating ovens, stabilization of ships,  factories, craft and for different applications and vehicles with minimal or reduced human intervention.
  • Track 13-1Human-robot interaction
  • Track 13-2Motion planning and algorithms
  • Track 13-3Mechatronics
  • Track 13-4 Hydraulic/Pneumatic Systems
  • Track 13-5Cognitive robotics
  • Track 13-6Maccepa
  • Track 13-7Mechanical actuators
Materials processing is simply defined as  “unit operations” used in the manufacturing  of raw-materials 
 and completing them into finished goods.  The operations is performed in  industries and the industrial processes with the use of various mechanical or chemical procedures,with a view to  produce  products in large quantities or batches. It is the process that  changes  a crude material state into completed parts or items with the help of some mechanical or chemical equipment. It includes  nano mechanics along with multi-physical science, Synthesis, material portrayal,  Nano-material preparing .Various other processes like material handling and properties, Material stream and ignition are also focussed.
Materials processing nowadays has become materials cycle. There are many ways to process materials. . Some of them are:
Powder Processing (metals and ceramics in powder form)
Bulk Deformation Processing (metals in bulk or sheet form)
Casting (liquid metals and semisolids polymers)
 
  • Track 14-1Microwave Processing of Materials
  • Track 14-2Surface Engineering / Coatings
  • Track 14-3Advanced Composite and Hybrid Processes
  • Track 14-4Laser Processing Technology
  • Track 14-5Function Test and Evaluation Technology
  • Track 14-6Modeling and Simulation of Manufacturing Processes
Hydrodynamics is a division of mechanical engineering which deals with a force acting on the fluids. It is also a branch of physics, related with motion and action of water and other liquids dynamics of liquids. It is simply related to the mechanical properties of fluids. It is the subdivision of fluid dynamics that deals with liquids, including hydrostatics and hydrokinetics. It is the study of the motion of fluids, including non-compressible liquids exposed to internal and external forces. Hydrodynamics is the study of materials where the materials are compressed and they undergo pressurized conditions causing them to behave more like liquids. The word hydrodynamics means  "water motion" which means the science of forces acting on or exerted by fluids.
The study involves the movement in fluids hence called Hydrodynamics. Moving fluids can be water in a drinking fountain,  or air over an aeroplane’s wing, crude oil in a pipeline etc
 
This topic describes the basic principles of physics,  several levels of mathematics and statistical mechanics. Calculus and linear algebra (matrix and tensor mathematics) along with differential equations are the key topics in maths.
 
Advanced fluid dynamics studies non-linear flow. These are more areas that are complex. Higher order differential equations, topologies, Chaos theory and complex algebras are the backbone of hydrodynamics.
 

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  • Track 15-1Heat Transfer with Non-Newtonian Fluid Flow
  • Track 15-2Aerodynamic and Hydrodynamic Flows
  • Track 15-3Theoretical hydrodynamics
  • Track 15-4Linear and non-linear waves and current
  • Track 15-5Ship and naval hydrodynamics
  • Track 15-6Fluid-structural interactions and hydroelasticity
  • Track 15-7Environmental hydrodynamics
  • Track 15-8Two phase and wet steam flows

 Energy is “the capacity to do work”.In this universe, there are many forms of energy, and by that energy, we can do different things. Energy can be found in many things and takes many forms. There kind of energy for moving objects is called kinetic energy. Potential energy is defined as the energy that is stored in an object when the body is in rest. We use energy to do work and make all movements. When we eat food our bodies converts the food into energy so as to do work. When we run or walk, we ‘burn’ energy in our bodies in the form of calories. Vehicles also transform energy into work. Work means to move or force applied to cause a displacement. There are different kinds of sources of energy that runs the various machines in the industries. Sun is the primary source of energy. every element store some energy, but much is lost along the way in the form of heat into the environment.

Much like energy, the word power is something we hear a lot. In everyday life it has a wide range of meanings. In the field of physics , it has a very definite meaning. "It is the rate at which work is done" or similarly, at which energy is transferred.The unit used to measure power is the watt which has the symbol W. The unit is named after James Watt. You have probably come across the word watt often in electrical appliances and electronic devices  . The output of electrical components like  light bulbs or stereos is typically expressed in watts.

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  • Track 16-1 Smart Grid & Utility Applications
  • Track 16-2Plant Operations & Maintenance
  • Track 16-3Renewable & Sustainable Energy
  • Track 16-4Integration of Distributed Energy Resources
  • Track 16-5Power System Planning and Operation
  • Track 16-6 Nuclear Fuel Management
  • Track 16-7Energy Sources and Application advancement
  • Track 16-8Energy Storage and Renewable Energy Systems
  • Track 16-9Green technology
  • Track 16-10Power transmission and distribution
New technologies in vehicles is a fast-growing market where  Mechanics in cars, Air vehicle frameworks and advancements, Flight/Ground frameworks, mission arranging and operations and Dynamical investigation of vehicle frameworks are incorporated. Having technologies and utilities like sensors, machine learning, Internet of Things, big data analytics and artificial intelligence is changing the vehicular industry. The market for connected cars composed of technologies like sensors, internet-connected devices GPS is on a revolutionary phase. Let's say Clarion, a leading brand in vehicle information solutions is converging with other Hitachi companies for working on the concept of vision-based advanced driver assistance system (ADAS) technologies. In addition to ADAS products and technologies, Clarion also provides a wide array of other automotive electronic and telematics control systems.

 

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  • Track 17-1Vehicle-to-vehicle recognition systems
  • Track 17-2Driverless vehicle components and technologies
  • Track 17-3Vehicle-to-roadside communication technologies
  • Track 17-4Advanced driver-assistance systems
  • Track 17-5Next-generation wireless communications
  • Track 17-6Automotive Control and Mechatronics

Aerospace technology is a type of tree in terms of its applications. The branches of this tree spread across every aspect of the subject. It almost covers the entire aerospace engineering department. Roles in the field of satellite communication is untouchable. Some of the key topics related to this field are remote sensing, navigation, satellite communication, astrology etc.

Remote sensing is the process of detecting and monitoring the parameters of an area by measuring the radiations emitted to the subjected area, there is a camera that collect remotely sensed images of the subjected area and the study is done on the basis of it/, which help researchers "sense" things about the Earth.

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  • Track 18-1Remote sensing and image interpretation
  • Track 18-2Airship design and developements
  • Track 18-3Remotely controlled airship design
  • Track 18-4Bio inspired and bio-mimetic micro flyers
  • Track 18-5Communications satellite applications
  • Track 18-6Navigation satellite applications
  • Track 18-7Satellite and launcher technology
  • Track 18-8Ultra wideband technologies for space applications
  • Track 18-9Science & astronomy
  • Track 18-10Astrobiology
Satellite communications illustrate the use of satellite in the field of wireless communications. The services provided by satellite communications covers voice and video transmissions, internet, fax, tv and radio channels.
 
Satellite communications offer communication which is able to perform transmission to long distances and may operate beneath circumstances that at times it would be inoperable for different styles of communication. Satellites employed in satellite communications sometimes be considered as geosynchronous orbit. A number of them square measure placed in extremely elliptical orbits. Satellite communications will offer world convenience. 
 

One of the most blessings provided by satellite communication is that the superior dependableness not likes different styles of communication. It doesn't want terrestrial infrastructure for operation but earth stations are also an important aspect of this kind of communication.

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  • Track 19-1Satellite Navigation & Satellite payload
  • Track 19-2Earth terminal systems
  • Track 19-3Astronomical Image Processing
  • Track 19-4 Doppler signature classifications
  • Track 19-5 Ballistic tracking
  • Track 19-6satellite communications
  • Track 19-7 Stochastic control systems
  • Track 19-8 GPS multipath
  • Track 19-9MTI radar
  • Track 19-10Remote sensing satellite applications