【摘 要】
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Wireless communication involving un-manned aerial vehicles (UAVs) is expected to play an important role in future wireless networks.However,different from conve
【机 构】
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National Mobile Communications Research Laboratory,Purple Mountain Laboratories,College of Electroni
【基金项目】
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This work was supported in part by the Program for Innovative Talents and Entrepreneur in Jiangsu Province under Grant 1104000402,in part by the Research Fund by Nanjing Government under Grant 1104000
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Wireless communication involving un-manned aerial vehicles (UAVs) is expected to play an important role in future wireless networks.However,different from conventional terrestrial communication systems,UAVs typically have rather limited onboard energy on one hand,and require additional flying en-ergy consumption on the other hand.This renders energy-efficient UAV communication with smart en-ergy expenditure of paramount importance.In this pa-per,via extensive flight experiments,we aim to firstly validate the recently derived theoretical energy model for rotary-wing UAVs,and then develop a general model for those complicated flight scenarios where rigorous theoretical model derivation is quite challeng-ing,if not impossible.Specifically,we first investigate how UAV power consumption varies with its flying speed for the simplest straight-and-level flight.With about 12,000 valid power-speed data points collected,we first apply the model-based curve fitting to ob-tain the modelling parameters based on the theoretical closed-form energy model in the existing literature.In addition,in order to exclude the potential bias caused by the theoretical energy model,the obtained measure-ment data is also trained using a model-free deep neu-ral network.It is found that the obtained curve from both methods can match quite well with the theoretical energy model.Next,we further extend the study to ar-bitrary 2-dimensional (2-D) flight,where,to our best knowledge,no rigorous theoretical derivation is avail-able for the closed-form energy model as a function of its flying speed,direction,and acceleration.To fill the gap,we first propose a heuristic energy model for these more complicated cases,and then provide exper-imental validation based on the measurement results for circular level flight.
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