Titlebook: Wireless Power Transfer Algorithms, Technologies and Applications in Ad Hoc Communication Networks; Sotiris Nikoletseas,Yuanyuan Yang,Apos

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researchers, engineers, educators, and students.Includes sup.This book is the first systematic exposition on the emerging domain of wireless power transfer in ad hoc communication networks. It selectively spans a coherent, large spectrum of fundamental aspects of wireless power transfer, such as mob

灾难

Non-radiative Wireless Power Transmission: Theory and Applicationsetical and general framework to predict such performance for both inductive and capacitive coupled links. In order to facilitate a practical implementation, both impedance and admittance matrix representations are discussed and computational examples are provided.

compel

Distributed Coordination Protocols for Wireless Charging in Sensor Networks simulations demonstrate, one of our distributed protocols outperforms a known state-of-the-art method, while its performance gets quite close to the performance of the powerful centralized global knowledge method.

英寸

Non-radiative Wireless Power Transmission: Theory and Applicationsm solutions, a systematic approach based on circuit theory is needed and not yet available in the literature. In this chapter, by using a network formalism, the WPT link is modeled as a two-port network and a methodology to derive an equivalent circuit is proposed. This allows to compute in a rigoro

browbeat

Wireless Power Transfer Based on Metamaterialsilizing resonant coupling, the power transfer can be made more flexible than conventional inductive WPT. However, the range is still limited. In this chapter, we report research work on near-field wireless power transfer (WPT) based on metamaterials-related ideas, aiming to extend the range and impr

objection

Nutrient

Esalate

充气球

Unconventional Waveform Design for Wireless Power Transferenvelope and specifically multi-sine signals, and investigates the effect on the obtained RF-dc conversion efficiency of wireless power transmission. The time-varying envelope characteristic of such signals leads to a peak-to-average-power ratio (PAPR) greater than 1 (0 dB) and can have a profound e

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