Game‐theoretic beamforming techniques for multiuser multi‐cell networks under mixed quality of service constraints

Abstract: The authors propose a game‐theoretic approach for the downlink beamformer design for a multiuser multi‐cell wireless network under a mixed quality of services (QoS) criterion. The network has real time users (RTUs) that must attain a specific set of signal‐to‐interference‐plus‐noise ratios (SINRs), and non‐RTUs whose SINRs should be balanced and maximised. They propose a mixed QoS strategic non‐cooperative game wherein base stations determine their downlink beamformers in a fully distributed manner. In the cas… Show more

“…In [6], a Stackelberg Bayesian game framework model is employed to investigate the power allocation problem of a two-tier downlink network. Furthermore, a multi-player game model of a multi-unit multi-user network is analyzed and researched, leading to the proposal of a corresponding game theory beamforming algorithm [8]- [10]. Game theory analysis, as depicted in [11], is conducted on the power allocation strategy between a wireless network and a smart jammer, with a related Stackelberg game method put forth.…”

Power Allocation Between a Distributed Multistatic Radar Network and a Smart Jammer Based on Non- Cooperative Game Theory

“…In [6], a Stackelberg Bayesian game framework model is employed to investigate the power allocation problem of a two-tier downlink network. Furthermore, a multi-player game model of a multi-unit multi-user network is analyzed and researched, leading to the proposal of a corresponding game theory beamforming algorithm [8]- [10]. Game theory analysis, as depicted in [11], is conducted on the power allocation strategy between a wireless network and a smart jammer, with a related Stackelberg game method put forth.…”

Power Allocation Between a Distributed Multistatic Radar Network and a Smart Jammer Based on Non- Cooperative Game Theory

Hybrid Beamforming Design for Downlink MU-MIMO-OFDM Millimeter-Wave Systems