Automobile Engineering is a vehicle engineering branch. Automobile Engineering deals with mechanical, electrical, electronic, hydraulic, pneumatic components along with software and safety components, and they are used for the design, manufacture, and service of vehicles such as bicycles, scooters, cars, buses, trucks, and others. The three main functions in this area are production, development, and manufacturing. The study of automotive engineering includes the design, development, manufacture, and testing of vehicles or vehicle components from the stage of conception to the stage of production.
In the automobile, advanced high-speed, lightweight, versatile electronics components such as microprocessor, microcontroller, and reconfigurable hardware are used for different performances such as automatic gearing, automatic opening of windows and doors, automatic speed control with barrier detection, and the others. With the advancement of electronic chips, parts, and others, automotive engineering has recently been improved with some advanced future in vehicles.
Compact, high-precision sensor technology plays a major role in improving performance in automotive technology. The RADAR sensor, the pressure sensor, the temperature sensor, the fuel sensor, the rain sensor, the ultrasonic sensor, the exhaust sensor, the inertial sensor, the motion sensor, the wheel speed sensor, the transmission sensor, the accelerator pedal angle sensor, the mirror sensor, the chassis-level sensor, the headlight sensor, the motor position sensor, the throttle position sensor, the HVAC sensor, the mass airflow sensor, the oxygen sensor, the spark knock sensor, the coolant sensor, the noise detection sensor, the vibration sensor, the steering sensor, and other sensors are used for the enhancement of the automobile. A car engine management system, including engine sensors, relays (mechanical, electromechanical, and other types), and actuators, consists of a wide variety of sensor devices working together. The luxurious automobile offers intelligent observation, Gesture recognition, 3D mapping of the traffic situation, and other advanced future.
The manufacturing domain also deals with the production and assembly of all automotive components.
In this branch, students will learn various subjects like Material Science and Metallurgy, Engineering Thermodynamics, Kinematics and Theory of Machines, Basics of Automobile Systems, Automotive Manufacturing Processes and Technology, Fluid Mechanics and Hydraulics Machines, Fundamentals of Machine Design, Transport Management and Laws, Automobile Engines, Control Engineering, Heat Transfer, Dynamics of Machinery, Oil Hydraulics And Pneumatics, Alternative Fuels and Power Systems, Automotive Electricals and Electronics, Vehicle Maintenance and Garage Practice, Automobile Chassis and Body Engineering, Two and Three Vehicle Technology, Special Purpose Vehicle, Vehicle Testing and Homologation, Computer-Aided Design, Design of Heat exchangers, Renewable Energy Engineering, Computational Fluid Dynamics, Computer-Aided Manufacturing, Energy Conservation and Management, Vehicle Dynamics, Automobile Component Design, Oil Hydraulics and Pneumatics, Automobile Air Conditioning System, Computer Integrated Manufacturing in Automobile Industry, Computer Integrated Manufacturing in Automobile Industry, Applied Industrial Engineering in Automobile, Automotive And Combustion Engine Technology, Noise, Vibration & Harshness And Safety.
After this course, students will design, construct, analyze, and test the software for different applications like commercial, industrial, military, automobile, aerospace, aviation, defense, and others.
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