Private Blockchain-Based Wireless Body Area Network Platform for Wearable Internet of Thing Devices in Healthcare

“…In [25], a task-offloading strategy based on blockchain and trust awareness (BBTAS), through which task-offloading requests are published as blockchain transactions and automatically and securely executed by smart contracts (SCs). A blockchain based on a private WBAN platform to assist wearable IoT devices in healthcare services was proposed in [26]. The platform implements a distributed architecture using WBAN to introduce decentralized configuration and ensure privacy between wearable IoT devices in the network.…”

“…The novelty of this article comes from the paradigm of blockchain of WBANs and task-offloading with DRL of the proposed work. √ × energy consumption management scheme Zhang et al [10,17] √ × total cost, load balance CTOS-DE, DNN-TOTA Deng et al [11] × √ stability, security CP-ABE Xiao et al [12] × √ security, reliability architecture model Wang et al [13] × √ security safety protocol Xu et al [14] × √ security, energy consumption security scheme Yuan et al [16,18] √ × throughput, overall utilization A3C, DQN-FATOA Yuan et al [19] √ × resource allocation TPOS Liao et al [20,23] √ × computing capacity, latency system modeling Ning et al [21] √ × system average cost system modeling Ren et al [24,25] × √ latency, security, reliability LSRDM-EH, BBTAS Baucas et al [26] × √ security private platform Son et al [27] × √ data integrity CP-ABE Proposed work √ √ system average cost, security, QoE D3QN…”

Task-Offloading Strategy of Mobile Edge Computing for WBANs

“…In [25], a task-offloading strategy based on blockchain and trust awareness (BBTAS), through which task-offloading requests are published as blockchain transactions and automatically and securely executed by smart contracts (SCs). A blockchain based on a private WBAN platform to assist wearable IoT devices in healthcare services was proposed in [26]. The platform implements a distributed architecture using WBAN to introduce decentralized configuration and ensure privacy between wearable IoT devices in the network.…”

“…The novelty of this article comes from the paradigm of blockchain of WBANs and task-offloading with DRL of the proposed work. √ × energy consumption management scheme Zhang et al [10,17] √ × total cost, load balance CTOS-DE, DNN-TOTA Deng et al [11] × √ stability, security CP-ABE Xiao et al [12] × √ security, reliability architecture model Wang et al [13] × √ security safety protocol Xu et al [14] × √ security, energy consumption security scheme Yuan et al [16,18] √ × throughput, overall utilization A3C, DQN-FATOA Yuan et al [19] √ × resource allocation TPOS Liao et al [20,23] √ × computing capacity, latency system modeling Ning et al [21] √ × system average cost system modeling Ren et al [24,25] × √ latency, security, reliability LSRDM-EH, BBTAS Baucas et al [26] × √ security private platform Son et al [27] × √ data integrity CP-ABE Proposed work √ √ system average cost, security, QoE D3QN…”

Task-Offloading Strategy of Mobile Edge Computing for WBANs