Table 1 - uploaded by Venkatesha Prasad
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60 GHz radio technology is highly promising since it can of-fer multi-Gbps data rate for short range wireless communi-cation. Hence it is able to support in-home wireless mul-timedia applications such as high-definition video stream-ing, ultra high speed content downloads, etc. Hitherto, the main research efforts have been on 60 GHz physical layer...
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Context 1
... where Rκ i is the transmission data rate using MCS κi. The achievable data rate using different modulation scheme is listed in Table 1. η is the proportion of overhead, η = to l/Rκ i +to , where to is the time 2 According to the prediction of WWRF meeting, seven tril- lion wireless devices serving seven billion people by 2017, which means there will be 1000 wireless devices provide ser- vices for one person [8]. ...
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Mekelweg 4, 2628 CD Delft, The Netherlands | +31 (0) 15 278 6272 | r.r.venkateshaprasad@tudelft.nl | Profile R. Venkatesha Prasad completed PhD from IISc, Bangalore, India in 2003. During PhD research, a scalable VoIP conferencing platform was designed. Many new ideas including a conjecture were formulated and tested by developing an application suite based on the research findings. The work involved understanding of network protocols, application design and human computer interface. Part of the thesis lead to a startup venture, Esqube Communication Solutions, headed by professors from IISc. He was leading a team of up to ten engineers, developing many real-time applications including bridging anonymous VoIP calls called Click-to-Talk for Ebay.com. While at Esqube, eight patent applications and three PCT applications were filed along with his colleagues. Esqube was selected as top 100 IT innovators in India in 2006 by NASSCOM and top 100 in promising companies in Asia by RedHerring in 2008. He worked for Esqube from 2006 to 2009 on a part-time basis as a senior design consultant. In 2005, he joined TUDelft as a PostDoc to work on the EU FP7 Magnet Project and the Dutch project PNP-2008 on Personal Networks (PNs). His work involved evolving PN network architecture and foreign communication. The work resulted in an ECMA report. He also started working on Cognitive Radio Networks (CRNs) and 60GHz networks for future homes. He is contributing to IEEE standards on CRNs. Now, his work involves the Internet of Things (IoT), Cyber Physical systems (CPS) and energy harvesting networks. He is working on EU funded projects iCore and SCOTT on IoTs and energy harvesting. At TUDelft, he has been supervising PhD and MSc students. He is teaching two courses after getting his diploma in 4TU University Teaching Qualification. The work at TUDelft resulted in 200+ publications. He is also contributing to the academic community by leading many IEEE activities, such as memberships of standards boards, leading technical committees, etc., apart from reviewing and organizing conferences and workshops.
