@techreport{oai:ipsj.ixsq.nii.ac.jp:00099316,
 author = {Kyungsoo, Lee and Tohru, Ishihara and Kyungsoo, Lee and Tohru, Ishihara},
 issue = {22},
 month = {Mar},
 note = {Energy-harvesting devices attract wide interest as replacements for primary batteries in low power embedded systems. This claims new energy efficient management techniques for the energy-harvesting systems dislike the previous management techniques. This paper evaluates a charge scheduling technique on a multi-banked supercapacitor architecture as well as a simple maximum point tracking algorithm (MPPT). We design an energy harvesting board with a multi-banked supercapacitor architecture, and operate it in a real system. The evaluation focuses on the energy loss reduction by the charge scheduling technique in the power supplier of the system., Energy-harvesting devices attract wide interest as replacements for primary batteries in low power embedded systems. This claims new energy efficient management techniques for the energy-harvesting systems dislike the previous management techniques. This paper evaluates a charge scheduling technique on a multi-banked supercapacitor architecture as well as a simple maximum point tracking algorithm (MPPT). We design an energy harvesting board with a multi-banked supercapacitor architecture, and operate it in a real system. The evaluation focuses on the energy loss reduction by the charge scheduling technique in the power supplier of the system.},
 title = {Evaluation of Charge Scheduling on a Multi-Banked Supercapacitor Architecture for Energy Harvesting Embedded Systems},
 year = {2014}
}