Abstract
Collaborative target tracking is one of the most important applications of wireless sensor networks (WSNs), in which the network must rely on sensor scheduling to balance the tracking accuracy and energy consumption, due to the limited network resources for sensing, communication, and computation. With the recent development of energy acquisition technologies, the building of WSNs based on energy harvesting has become possible to overcome the limitation of battery energy in WSNs, where theoretically the lifetime of the network could be extended to infinite. However, energy-harvesting WSNs pose new technical challenges for collaborative target tracking on how to schedule sensors over the infinite horizon under the restriction on limited sensor energy harvesting capabilities. In this paper, we propose a novel adaptive dynamic programming (ADP)-based multi-sensor scheduling algorithm (ADP-MSS) for collaborative target tracking for energy-harvesting WSNs. ADP-MSS can schedule multiple sensors for each time step over an infinite horizon to achieve high tracking accuracy, based on the extended Kalman filter (EKF) for target state prediction and estimation. Theoretical analysis shows the optimality of ADP-MSS, and simulation results demonstrate its superior tracking accuracy compared with an ADP-based single-sensor scheduling scheme and a simulated-annealing based multi-sensor scheduling scheme.
Highlights
A wireless sensor network (WSN) is usually deployed to monitor the physical phenomena in the geographic area covered by a large number of sensor nodes
Based on the above solar energy harvesting model, the sink performs the sensor scheduling by adaptive dynamic programming (ADP)-MSS to minimize the performance which consists of the predicted tracking accuracy and energy consumption
This paper introduces the to the optimal multi-sensor problem
Summary
A wireless sensor network (WSN) is usually deployed to monitor the physical phenomena in the geographic area covered by a large number of sensor nodes. The development of energy harvesting technologies has provided a new challenge of infinite-horizon sensor scheduling with finite energy harvesting capability for high-performance target tracking. We apply adaptive dynamic programming (ADP) to sensor scheduling for collaborative target tracking in an energy-harvesting WSN over an infinite horizon. An ADP-based sensor scheduling scheme for target tracking in an energy-harvesting WSN was proposed in [20], which made the sensor energy consumption and tracking accuracy optimal over the system operational horizon for WSNs. only one sensor was scheduled for each time step, and the tracking accuracy improvement was limited. Due to the energy harvesting capabilities, the motivation of this paper is to present a novel multi-sensor scheduling scheme for global performance optimization over an infinite horizon.
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