Abstract
The most burning problem nowadays in our society is crime against women and children, which is spreading like a virus with upcoming generations. This paper aims at designing an electronic device which simulates his sensory nerves and motor nerves, which causes strong involuntary muscle contractions. This resists their movements for a certain span of time. Keeping in mind the situation of women in the society the device can only be operated by the one who owns, as it includes biometric touch sensors. The device produces extremely high voltage pulses in the range of 3 kV, with a rate of 5–10 pulses per second using boost convertor and voltage multiplier [1]. The high voltage zap causes pain in the body, numbness and loss of balance, this helps victim to escape to a safe place. No permanent injury is noticed from its use. The device uses a Bluetooth module to transmit data to mobile and it shares the location to registered contacts, whenever it is being used.
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Mehra, S., Singh, S.D., Kumari, S., Karatangi, S.V., Agarwal, R., Rai, A. (2020). Design and Implementation of Biometrically Activated Self-Defence Device for Women’s Safety. In: Mathur, G., Sharma, H., Bundele, M., Dey, N., Paprzycki, M. (eds) International Conference on Artificial Intelligence: Advances and Applications 2019. Algorithms for Intelligent Systems. Springer, Singapore. https://doi.org/10.1007/978-981-15-1059-5_14
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DOI: https://doi.org/10.1007/978-981-15-1059-5_14
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Online ISBN: 978-981-15-1059-5
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