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This paper focuses on the problem of joint beamforming control and power allocation in the ad-hoc mmWave network. Over the shared spectrum, a number of multi-input-multi-output links attempt to minimize their supply power by simultaneously finding the locally optimal power allocation and beamformers in a self-interested manner. Our design considers a category of non-convex quality-of-service constraints, which are a function of the coupled strategies adopted by the mutually interfering ad-hoc links. We propose a two-stage, decentralized searching scheme, where the adaptation of power-levels and beamformer filters are performed in two separated sub-stages iteratively at each link. By introducing the analysis based on the generalized Nash equilibrium, we provide the theoretical proof of the convergence of our proposed power adaptation algorithm based on the local best response together with an iterative minimum mean square error receiver. Several transmit beamforming schemes requiring different levels of information exchange are compared. Our simulation results show that with a minimum-level requirement on the channel state information acquisition, a locally optimal transmit filter design based on the optimization of the local signal-to-interference-plus-noise ratio is able to achieve an acceptable tradeoff between link performance and the need for decentralization.
Wirelessly-powered sensor networks (WPSNs) are becoming increasingly important in different monitoring applications. We consider a WPSN where a multiple-antenna base station, which is dedicated for energy transmission, sends pilot signals to estimate
In this paper, we investigate the combination of non-orthogonal multiple access and millimeter-Wave communications (mmWave-NOMA). A downlink cellular system is considered, where an analog phased array is equipped at both the base station and users. A
This study demonstrates the feasibility of the proactive received power prediction by leveraging spatiotemporal visual sensing information toward the reliable millimeter-wave (mmWave) networks. Since the received power on a mmWave link can attenuate
In this paper, we propose a novel joint intelligent trajectory design and resource allocation algorithm based on users mobility and their requested services for unmanned aerial vehicles (UAVs) assisted networks, where UAVs act as nodes of a network f
We design a lightweight beam-searching algorithm for mobile millimeter-wave systems. We construct and maintain a set of path skeletons, i.e., potential paths between a user and the serving base station to substantially expedite the beam-searching pro