REAP: Runtime Energy-Accuracy Optimization for Energy Harvesting IoT Devices

Abstract: The use of wearable and mobile devices for health monitoring and activity recognition applications is increasing rapidly. These devices need to maximize their accuracy and active time under a tight energy budget imposed by battery and small form-factor constraints. This paper considers energy harvesting devices that run on a limited energy budget to recognize user activities over a given period. We propose a technique to co-optimize the accuracy and active time by utilizing multiple design points with different energy-accuracy trade-offs. The proposed technique switches between these design points at runtime to maximize a generalized objective function under tight harvested energy budget constraints. We evaluate the proposed approach experimentally using a custom hardware prototype and fourteen user studies. The proposed approach achieves both 46% higher expected accuracy and 66% longer active time compared to the highest performance design point.