READ ME File For 'Dataset for A Control Flow for Transiently-Powered Energy Harvesting Sensor Systems' Dataset DOI: 10.5258/SOTON/D1364 ReadMe Author: Samuel Wong Chang Bing, University of Southampton [OPTIONAL add ORCID ID] This dataset supports the publication: A Control Flow for Transiently-Powered Energy Harvesting Sensor Systems AUTHORS: Domenico Balsamo, Oktay Cetinkaya, Alberto Rodriguez Arreola, Samuel C. B. Wong, Geoff V. Merrett, Alex S. Weddell TITLE: A Control Flow for Transiently-Powered Energy Harvesting Sensor Systems JOURNAL: IEEE Sensors Journal PAPER DOI IF KNOWN: https://doi.org/10.1109/JSEN.2020.2993213 This dataset contains: Measurements for the step counter and the cycle computer. The figures are as follows: Fig. 3 Timekeeping mechanisms depending on event occurrence: (a) time-intertwined sensing; (b) capacitor decay; (c) wireless transmission. p.s. “E” is event and “T” is transmission. Fig. 4 Operational architecture of the proposed control flow. Fig. 5 Proposed control flow applied to the bicycle trip computer. Fig. 6 Operation of the transiently-powered EH bicycle trip computer,(a) ADC1 measures the peak voltage (orange trace), while ADC2 measures the pulse profile (blue trace); (b) the long-running computation split into consecutive power cycles using [4]. Fig. 7 Fabricated single-sided PCB of the bicycle trip computer. Fig. 8 Cycling speed vs. energy harvested. Fig. 9 Output voltage VC for each capacitor, in (a) Running mode (~120 steps per minute); (b) Walking mode (~70 steps per minute). Date of data collection: Data collected in the period 2018 - 2019 Information about geographic location of data collection: Experiments conducted at the University of Southampton Highfield Campus Licence: CC BY Related projects: NA Date that the file was created: May 2020