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Real Time kernel based Hot Spot Communication using Raspberry Pi

Publication Type : Journal Article

Source : International Journal for Scientific Research and Development, Vol. 3, No. 2, pp. 273 – 276, May 2015

Url : https://www.researchgate.net/publication/275346346_Real_Time_Kernel_Based_Hot_Spot_Communication_using_Raspberry_PI

Campus : Chennai

School : School of Engineering

Department : Computer Science and Engineering

Year : 2015

Abstract : The Real time application of an embedded Linux is essential in the area of device driver platform. Device driver plays a vital role of both hardware and software. For making these terms in bridge connectivity for the purpose of reliable data transfer Multi-tasking is most important to run the task in perfect scheduling process with a minimized time. Kernel development is necessary criteria to implement perfect scheduling process. Perfect scheduler will raise total gain of a system Boot loader in an initial loading Period of hardware. For any critical application in minimum time period, Total size of a kernel will be reduced. Parallel operation of multithreading can run sequentially in a hardware module. The aim about this project is to implement Real Time strategy of kernel development. In order to the reduced kernel size, Boot loader time, Boot loader Size with execution of multi-threading are the important execution terms. Configuration of raspberry Pi Processor in various commands sets in Embedded Linux by enabling of Wi-Fi Device by scratch process of various units in hardware. More number of devices can be accessed without any problem enabling N number of connections. The development of a kernel is finally changed into an image. That Backup structure will enabled by the Coreimage-minimal process. Implementations of the bit bake execution to form an image configuration. Finally a pure kernel with a Device Driver bride module is done.

Cite this Research Publication : K.Tamilselvan, A.Satheesh and S.Natarajan, “Real Time kernel based Hot Spot Communication using Raspberry Pi”, International Journal for Scientific Research and Development, Vol. 3, No. 2, pp. 273 – 276, May 2015

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