Pawan Kotak scite author profile

Pawan Kotak

2Publications

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24Citation Statements Given

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Multi Scale modeling and intricate study of MEMS based elements in RFID systems

Pathak¹,

Joshi²,

Kotak³

2009

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In this paper we have implemented some of the complex modeling aspects such as Multi Scale modeling, MATLAB, Sugar based modeling and have shown the complexities involved in the device modeling of Nano RFID systems taking example of MEMS models. We have shown the modeling and simulation and demonstrated some novel ideas and library development for Nano RFID and its extension for MEMS devices. Reliability and packaging still remains one the major hindrances in practical implementation of Nano RFID based devices and multi scale analysis also can be used in that area. Therefore to work on it by modeling and simulation will play a very important role. Thus incorporating this we can design a Nano-RFID which can be used in areas like human implantation and complex banking applications. We have proposed modeling of RFID using the concept of multi scale modeling to accurately predict its properties for MEMS specific applications. Also we give the modeling of MEMS devices that are proposed recently that can see possible application in RFID. RF MEMS has been matured and its devices are being successfully commercialized but taking it to limits of nano domains and integration with singly chip RFID needs a practical modeling approach which is being proposed. We have modeled 2 MEMS based transponder and shown the distribution for multiscale modeling for Nano RFID.

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Modeling Nano enabled elements of solar and fuel cell

Pathak¹,

Joshi

Kotak³

et al. 2009

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Abstract-We have proposed a unified approach to the modeling and study of developments in the field of Nanotechnology and its application in futuristic Nano-enabled Cells. The necessity of a nonporous membrane has been eminent in recent fuel cells. The need for MEMS based models for porous silicon based membranes based on nano imprints technology has been met by modeling it in SUGAR in MATLAB environment. We have identified and categorized the domains of Nano enabled solar cells and have put forth a proposition for multi scale modeling of Solar cells. Multi scale modeling on HPC (High performance computing) of a Nano enabled solar cell is shown under MCCS (Microsoft compute cluster environment) environment using extreme optimization numerical library is implemented. Distribution and performance analysis of four levels of computation in a multi scale model is implemented with the distribution being carried out from classical semi-conductor to quantum levels as to accurately predict the behavior and properties of the solar cell as per the needs of the engineering of devices.

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Pawan Kotak

Multi Scale modeling and intricate study of MEMS based elements in RFID systems

Modeling Nano enabled elements of solar and fuel cell

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