Electronics, Vol. 13, Pages 2595: A Multi-Hop End-Edge Cooperative Computing Scheme for Power IoT

Electronics, Vol. 13, Pages 2595: A Multi-Hop End-Edge Cooperative Computing Scheme for Power IoT

Electronics doi: 10.3390/electronics13132595

Authors: Xue Li Xiaojuan Chen Guohua Li Xuguang Zhang Hongliu Yang

With the continuous development of the power Internet of Things (PIoT), smart devices (SDs) have been widely used in electric power inspections. Due to the limited resources of intelligent inspection SDs and the distance of overhead transmission lines, many inspection tasks cannot be processed promptly. This paper proposes a multi-hop-based end-edge cooperative computing (MHCC) scheme to address inspection task processing in power IoT. We formulate a multi-hop task offloading problem that minimizes the energy consumption of inspection SDs with delay constraints. We develop a JDPSO algorithm to solve the multi-hop task offloading problem and evaluate the algorithm’s performance based on numerous simulation experiments. The experimental results show that JDPSO reduces the system’s energy consumption by 56.30%, 48.56%, 78.87%, 50.89%, 30.85%, and 68.31%, and also reduces delay by 50.69%, 42.78%, 58.67%, 44.84%, 10.22%, and 62.88% compared to GA, RSA, SSA, MFO, DOA, and ALC schemes.