Aerospace Engineering + Pilot Studies
Aeronautics is the science behind the design of vehicles and structures that interact with air, with application to aircraft and other flight vehicle. Aerospace engineers design, test, and supervise the manufacture of aircraft, spacecraft, and missiles. Those who work with aircraft are called aeronautical. Aerospace engineers develop new technologies for use in aviation, defense systems, and space exploration, often specializing in areas such as structural design, guidance, navigation and control, instrumentation and communication, and production methods. They also may specialize in a particular type of aerospace product, such as commercial aircraft, military fighter jets, helicopters, spacecraft, or missiles and rockets, and may become experts in aerodynamics, thermodynamics, celestial mechanics, propulsion, acoustics, or guidance and control systems. This professionally accredited degree covers a broad base of engineering, computational and analytical skills, as well as the specific knowledge and experience required for careers in the aeronautical industry.
The Aeronautical industry grows and changes rapidly from year to year, creating significant educational demands on our workforce. Nowadays cad software is being used in all department especially aeronautical. With the help of cad you can see the real model of the components .Day by day updating the cad software (eg Few years back they worked on the CATIA V5 cad software for aircraft wing now Photo/name of our past students and where are they studying now they are updated to CATIA V5 to CATIA V6).
In this course the student can understand the working principles of aircraft hydraulic and pneumatic system by practically as well as theoretically. The course will also enable the students to inspect a range of aircraft hydraulic and pneumatic systems and also analyze the hydraulic and pneumatic circuit diagrams. In this course, student can study and work on the subsonic, supersonic & hypersonic as like aerospace industry. This also examine the main design features of aircraft that are required to assist aircraft to fly safely. Student also investigate the forces that act on an aircraft in subsonic, supersonic & hypersonic flight such as lift, drag and thrust.
One of the dreams of the computing sector is to build an intelligent digital assistant that could serve people according to people’s nature. Building this type of intelligent machine is a big challenge to computer scientists. An intelligent machine must have atleast the following behaviors-vision, speech and voice recognition, smelling sense, learning from experience to solve new problems and coping with the unknown. This science of artificial intelligence (AI) is trying to overcome these challenges by combining the study of nature, understanding from humans’ intelligent behavior and brain function, other animal’s acute senses, with mathematics, statistics, logic and traditional computer science .some of AIs achievements include the NASA’s Mars Rover, Google’s Self-Driving Cars, IBM’s Watson, Microsoft’s Xbox 360 (the first gaming device to track human body movement) and much more.
This unit is designed to introduce the philosophy behind artificial intelligence, the most of efficient techniques of AI and various intelligent systems that helps us to overcome various challenges. This unit guides the student to investigate the emerging AI technologies which could save various real-world challenges and problems.
Architectural Design & Technology
The programme prepares students for careers in architectural offices and the building industry by integrating the relationship between conceptual solutions and working drawings. The first four levels of the technology programme, which are common to the Architectural Technician programme, are followed by an additional two levels of study concentrating on commercial detailing.
The curriculum emphasizes an in-depth understanding of the many facets of building and construction including residential and commercial building envelope design, working drawings, construction documentation, construction methods and materials and computer-assisted design and drafting. Students participate in a student-directed team project aimed at reconciling the many considerations in designing a building, including aesthetic and technical resolution.
This programme Automotive Engineering is specifically designed to enhance the employment and promotional opportunities of graduates in mechanical and automotive engineering. The programme considers in depth key areas of automotive technology. Its integrated design covers both the technological and management aspects of the motor industry. The programme aims to equip you with the theory and the practice of relevant materials, technologies and analytical tools to provide solutions for automotive design and manufacturing problems, provide the opportunity for you to use creativity and innovation in the application of technology to the development of the automobile focus on the links between vehicle programmes and the supporting skills of project management, develop your skills and application experience through case studies and project work & enhance your prospects of professional employment within the industry.
Aerospace Engineering & Space Technology
This program specializes in the design of space vehicles with a particular emphasis on rocket propulsion, space flight control, and satellite communication systems.
Familiarity with CATIA, a computer-aided design package popular in the aerospace industry, as well as industrial standard simulation software.
Design of a modern aerospace system requires a team of engineers, each with their own specialization. Development of the systems often transcends national boundaries to international flight, worldwide satellite communications and deep space exploration and is a truly international industry.
Data is everywhere in the world. Without knowing how to interpret this data it would be difficult to understand its meaning or make use of the data to increase the productivity of an organization. Data analytics is a range of processes that converts data into actionable insight using a range of statistical techniques. Data analytics is a relatively new term – it is an overarching term for all decision support and problem-solving techniques. Most of the time the term ‘data analytics’ and ‘business analytics’ are used interchangeably.
This unit will introduce the theoretical foundation of data analytics and a range of data analytic processes and techniques to provide hands-on experience for enhancing students’ skills.
Auto-focus cameras, car cruise control and automated airport baggage handling systems are examples of mechatronic systems. Mechatronics is the combination of mechanical, electrical and computer/controlled engineering working together in automated systems and ‘smart’ product design.
Among the topics included in this unit are: consideration of component compatibility, constraints on size and cost, control device used, British and/or European standards relevant to application, sensor types and interfacing , simulation and modeling software functions, system function and operation, advantages and disadvantages of software simulation, component data sheets, system drawings, flowcharts, wiring and schematic diagrams.
This course aims to provide a sound understanding of the fundamental scientific, engineering and managerial principles involved in motorsport, and their implementation within a high performance technology context.
You will cover design, construction and operation of competition vehicles, and related aspects of materials science, aerodynamics, structural analysis, vehicle systems, and management techniques related to motorsport.
You will be taught the skills required for the planning, execution and reporting of motorsport projects and to prepare them for a variety of roles in motorsport.
Developed in collaboration with leading motorsport companies, this programme prepares a career in the motorsport or high performance engineering.