Bionic Prosthetic with Internet of things (IoT)
Abstract
The visually impaired (VI) people often experience difficulties when traveling on foot, when they are forced to the non-spreading side with vendors, animals and other obstacles. No single system can fully accommodate all their transportation needs. The proposed system aims to provide the appropriate VI assistance to assist their white cane using IoT principles. It detects any obstacles that lie down in its course and alerts the user to them and uses the Global Positioning System (GPS) technology that is part of any smart phone, to pinpoint the location of the VI where necessary. The answer system, which is basically a simple test, scares the user of any obstacle, and notifies the monitors directly about VI where you are now, made by moving VI links to a registered mobile number included in the Android app.
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Raghavan, Sriram. "Digital forensic research: current state of the art." CSI Transactions on ICT 1.1 (2013): 91–114.
Hauger, Werner K., and Martin S. Olivier. "The state of database forensic research." 2015 Information Security for South Africa (ISSA). IEEE, 2015.
Ziegler-Graham, Kathryn, et al. "Estimating the prevalence of limb loss in the United States: 2005 to 2050." Archives of physical medicine and rehabilitation 89.3 (2008): 422–429.
Mathur, Neha, et al. "A practical design and implementation of a low cost platform for remote monitoring of lower limb health of amputees in the developing world." IEEE Access 4 (2016): 7440–7451.
Mathur, Neha, Ivan Glesk, and Arjan Buis. "Issues in wearable mobile sensor platform for lower limb prosthetic users." 2015 17th International Conference on Transparent Optical Networks (ICTON). IEEE, 2015.
Islam, SM Riazul, et al. "The internet of things for health care: a comprehensive survey." IEEE access 3 (2015): 678–708.
Kumar, R., and M. Pallikonda Rajasekaran. "An IoT based patient monitoring system using raspberry Pi." 2016 International Conference on Computing Technologies and Intelligent Data Engineering (ICCTIDE'16). IEEE, 2016.
Wang, Yu, et al. "Impoved Hardware Design of IoT Prosthetic Device." 2018 Mid Atlantic Section Fall Meeting. 2018.
Fukuda, Osamu, et al. "Development of an IoT-based prosthetic control system." Journal of Robotics and Mechatronics 29.6 (2017): 1049–1056.
Clement, R.G.E., Kate E. Bugler, and Christopher W. Oliver. "Bionic prosthetic hands: A review of present technology and future aspirations." The surgeon 9.6 (2011): 336–340.
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