Title: APPLICATION_OF_A_SHUNT_ACTIVE_POWER_FILTER | <><><> >>>
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Description: APPLICATION_OF_A_SHUNT_ACTIVE_POWER_FILTER Each day our lives become more dependent on Embedded systems, digital information technology that in embedded in our environment. This includes not only the safety critical applications such as automotive devices and controls, railways, aircraft aerospace and medicals, but also communications, mobile worlds and e-worlds the smart home, factories etc. All of these have wide ranging impacts on society including security, privacy and modes of working and living more than 98% of processors applied today are in embedded systems and no longer visible to the customer as computers: in the ordinary sense. New processors and methods of processing, sensors actuators, communications and infrastructures are enablers for this very pervasive computing. They are in sense ubiquitous, that is, almost invincible to the user and almost omnipresent. As such they form the basis for a significant economic push. The need to carry some specific tasks by using hardware and software made the advent of Embedded Systems. This paper presents , Definition, Typical Embedded Systems Organisation, considering a digital camera as example, Different Categories of Embedded Systems and Practical Requirements of Embedded Systems. The future of technology at times becomes easier to predict. Computers will compute faster, materials will become stronger and medicine will cure more diseases. The technology that works at the nanometer scale of molecules Atom will an enable part of this future, enabling great improvements in future, it must be used in all the fields, in which the human present. Nanotechnology will touch our lives right-out to the water we drink and the air we breathe. Once we have ability to capture position and change the configuration of the molecule, we would be able to create filtration systems that will scrub the toxins from the air or remove hazardous organisms from the water we drink. Space will always open up to us in new ways. With the current cost of transporting pay loads into space being as, high as $20,000 per kg, little is being done to take the advantage of space. Nanotechnology helps us to deliver more machines of smaller size and greater functional it into space, paving the way for solar system expansion. The application of nanotechnology might even allow us to adapt our body for survive in space. We will able to expand control of systems from the macro level to the micro level and beyond, while simultaneously reducing the cost associated with manufacturing of products. In this paper, the basics of capturing an image, image processing to modify and enhance the image are discussed. There are many applications for Image Processing like surveillance, navigation, and robotics. Robotics is a very interesting field and promises future development so it is chosen as an example to explain the various aspects involved in Image Processing . The various techniques of Image Processing are explained briefly and the advantages and disadvantages are listed. There are countless different routines that can be used for variety of purposes. Most of these routines are created for specific operations and applications. However, certain fundamental techniques such as convolution masks can be applied to many classes of routines. We have concentrated on these techniques, which enable us to adapt, develop, and use other routines and techniques for other applications. The advances in technology have created tremendous opportunities for visual system and image processing. There is no doubt that the trend will continue into the future. TO DOWNLOAD THE PRESENTATION CLICK DOWNLOAD |
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Saturday, January 15, 2011
APPLICATION_OF_A_SHUNT_ACTIVE_POWER_FILTER
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