Abstract:
Energy-efficient transport systems orientation including the up take of electric vehicles provides socio-economic opportunities that generate multiplie reflects fortrade, employment,
good quality of life,and improved health.Among many, electric
bicycle (e-bicycle)is attracting significant attention worldwide
due to its lightweight,compact design,andcheaperpricethan
other electric vehicles. Many smart e-bicycle solutions have been
advocated as important supportive tools to embrace-bicycles but
failed to continue the paradigm due to the weight of the bicycle
has increased. This paper proposes a novel approach to design
an electrically assisted bicycle prototype including hardware,
powerpack, and bicycle computer to control the motor using
physiological information and the bicycle sensor data.The study
presents the experimental results regarding fatigued etection based
on heartrate, heart rate vary ability, bike speed data,cadence , and
terrain data information for assisting the rider. Accordingly, the
novelty of this study is to optimize the weight of thee-bicycle and
implement a bicycle computer system to control the motor.
Citation:
Silva, N.C.D., Withanage, W.D.S.K., Jayasundara, V.K., Randombage, S.P., Randombage, P.M.T.S.A., Perera, W.M.K.G., De Silva, M.M. & Wijesiriwardhana, R. (2021). An experimental study on smart electric bicycle with optimized power pack. In A.M.H.S. Abeykoon & L. Velmanickam (Eds.), Proceedings of 3rd International Conference on Electrical Engineering 2021 (pp. 86-92). Institute of Electrical and Electronics Engineers, Inc. https://ieeexplore.ieee.org/xpl/conhome/9580924/proceeding