Joint time scheduling and transaction fee selection in blockchain-based RF-powered backscatter cognitive radio network

【Author】 Luong, Nguyen Cong; Anh, Tran The; Xiong, Zehui; Niyato, Dusit; Kim, Dong In

【Source】COMPUTER NETWORKS

【影响因子】5.493

【Abstract】In this paper, we develop a new framework called blockchain-and backscatter-aided Internet of Things (IoT) system. In the framework, IoT devices as secondary transmitters transmit their sensing data to a secondary gateway by using an RF-powered backscatter cognitive radio technology. The data collected at the gateway is then sent to a blockchain network for further verification, storage and processing. As such, the framework enables an IoT system to simultaneously optimize the spectrum usage and maximize the energy efficiency. Moreover, the framework ensures that the data collected from the IoT devices is verified, stored and processed in a decentralized but in a trusted manner. To achieve the goal, we formulate a stochastic optimization problem for the gateway under dynamics of the primary channel, uncertainty of the IoT devices, and unpredictability of the blockchain environment. In the problem, the gateway jointly decides (i) time scheduling, i.e., the energy harvesting time, backscatter time, and transmission time, among the IoT devices, (ii) the blockchain network, and (iii) a transaction fee rate to maximize the network throughput while minimizing the cost. To solve the stochastic optimization problem, we then propose to employ, evaluate, and assess a Deep Reinforcement Learning (DRL) algorithm with Dueling Double Deep Q-Networks (D3QN) to derive the optimal policy for the gateway. Simulation results clearly show that the proposed solution outperforms the conventional baseline approaches such as the conventional Q-Learning algorithm and non-learning algorithms in terms of network throughput and convergence speed. Furthermore, the proposed solution guarantees that the data is stored in the blockchain network at a reasonable cost.

【Keywords】Cognitiveradio; Ambientbackscatter; RFenergyharvesting; Blockchain; Timescheduling; Deepreinforcementlearning; IoT

【发表时间】2022 4-Sep

【收录时间】2022-08-15

【文献类型】实验仿真

【主题类别】

区块链应用-实体经济-通信领域