In case of aeronautics, it is necessary that the end user must know the basic concepts of mathematics and fundamentals of engineering theory in order to have the ability of conducting the designing, manufacturing, maintenance and repairing aircraft and engine. In specific higher mathematics, engineering mechanics, fluid mechanics, engineering thermodynamics, mechanical principles and design, design of aircraft, aero engine, design of aircraft controlling system, the basic and application of finite mega, aeronautical manufacturing technology are the primary concerns. But, on the other hand, the secondary disciplines are advanced connectivity technology, high efficiency NC machining technology in aeronautical industries, precision forming technology for aeronautical components, reliability test and evaluation technology for welding structure, welding equipment and quality control and preparation technology of metal based composite materials. Progressive works are still being carried out to solve the challenges that still exist in air transportation system such as air traffic congestion, safety and environmental impacts. Solutions to these problems really need innovative technical concepts, and dedicated research and development which include enabling fuel-efficient flight planning, and reduce aircraft fuel consumption, emissions and noise. For instance, aeronautics integrated service routers (ISR) video image processing design exploits high end digital signal processing hardware and algorithms, broad range of real time automatic image processing features, which enables any end user of still and video images to increase its ISR productivity dramatically. Aeronautics ISR video image processing capabilities can be easily integrated to any existing image source for real time and offline processing. Some of the aeronautics image processing features includes motion detection, video footprint using geographical registration on reference image, digital stabilizer, zoom and rotation, mosaicking, ISR video image compression, real time annotation on image (i.e. high resolution and update rate) and real time ISR video enhancements such as spatial filters, contrast, brightness etc.
Some of the best recent innovations in aerospace engineering include the Pilotless Cargo Chopper, Red Bull Stratos Pressure Suite, NASA Gravity Recovery and Interior Lab, Boeing PhanthomEye, Nano Quadroto Robots, Solazyme Solajet, Asteroid Anchors, Long Endurance Multi-Intelligence Vehicle, NASA PhoneSat, Mars Curiosity Sky Crane etc. With the largest direct impacts on the lives, advancements in aeronautics are the key to make flight more affordable and efficient. These advancements decrease pollutants and make flight faster, quieter, and safer for all. Research work on everything from biomedical science and space exploration to software simulation and satellites are carried out to attain its maximum efficiency. In near future, by providing a comprehensive experience and up to date information on technological developments in aeronautical engineering leads to latest innovations in diversified areas such as aeroacoustics, aircraft design, fluid dynamics, advanced materials / composites, aerodynamics, avionics, aircraft systems, aircraft structures, risk & reliability, noise control, aircraft propulsion, reliable energy propulsion, heat transfer flight mechanics, computational aerodynamics and helicopter aerodynamics etc.
This Laversab Aviation article was brought to you by Laversab Aviation Systems. At Laversab, a deep understanding of aeronautics is a must; and the team at Laversab is among the most knowledgeable about the discipline. Aeronautics is indeed an incredibly sophisticated discipline. For one to become well-versed in the discipline, it takes the understanding of hundreds of sophisticated concepts; some of them include: pitot static test equipment, air data test sets, RVSM test equipment.
No comments:
Post a Comment