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A wheel chair is a mechanically operated device that allows the user to move about independently. This minimizes the user's personal effort and force required to move the wheelchair wheels. Furthermore, it allows visually or physically handicapped people to go from one location to another. Voice commands and button controls can be used to operate wheelchairs. In recent years, there has been a lot of interest in smart wheelchairs. These gadgets are very handy while traveling from one location to another. The devices can also be utilized in nursing homes where the elderly have difficulties moving about. For individuals who have lost their mobility, the gadgets are a godsend. Different types of smart wheelchairs have been created in the past, but new generations of wheelchairs are being developed and utilized that incorporate the use of artificial intelligence and therefore leave the user with a little to tamper with. The project also intends to develop a comparable wheel chair that has some intelligence and so assists the user in his or her mobility.

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References

  1. Amin MS, et al. Smart Wheelchair-An Implementation of Voice and Android Controlled System. 2021 International Conference on Digital Futures and Transformative Technologies (ICoDT2). IEEE, 2021.
     Google Scholar
  2. Kataria S, et al. A Novel IOT Based Smart Wheelchair Design for Cerebral Palsy Patients. 2021.
     Google Scholar
  3. Venkatesan, Mithra, et al. Voice-Controlled Intelligent Wheelchair for Quadriplegics. Computer Communication, Networking and IoT. Springer, Singapore, 2021: 41-51.
     Google Scholar
  4. Ahmed, Foez, et al., Design and Development of a Smart Wheelchair for the Disabled People. 2021 International Conference on Information and Communication Technology for Sustainable Development (ICICT4SD). IEEE, 2021.
     Google Scholar
  5. Varghese, Lijo Jacob, et al. Design and Implementation of a Machine Learning Assisted Smart Wheelchair in an IoT Environment. (2021).
     Google Scholar
  6. Ajay, Mekala, et al. Smart Wheelchair. AI and IoT‐Based Intelligent Automation in Robotics, 2021: 271-284.
     Google Scholar
  7. Tyagi, Anshul, et al. Smart Wheelchair for Disabled People. Research and Reviews: Advancement in Robotics, 2021;4.2.
     Google Scholar
  8. Chatterjee, Sudipta, and Sahadev Roy. A low-cost assistive wheelchair for handicapped & elderly people. Ain Shams Engineering Journal 2021.
     Google Scholar
  9. Basak, Sarnali, et al. Gesture-based Smart Wheelchair for Assisting Physically Challenged People. 2021 International Conference on Computer Communication and Informatics (ICCCI). IEEE, 2021.
     Google Scholar
  10. Karn, Pratiksha, et al. Smart Wheelchair with SMS Alert and Safety Features.
     Google Scholar
  11. Ahmad, Shamim, et al. A low SAR in-body antenna for wireless monitoring purpose of pacemaker system. 2019 4th International Conference on Electrical Information and Communication Technology (EICT). IEEE, 2019.
     Google Scholar
  12. Al Rakib, Md Abdullah, et al. Design and Simulation-Based Parametric Studies of a Compact Ultra-Wide Band Antenna for Wireless Capsule Endoscopy System at Inside Body Environment. International Journal of Electrical and Electronic Engineering & Telecommunications, 2021.
     Google Scholar
  13. Al Rakib, Md Abdullah, et al. Energy Harvesting Technology from Human Motion. 2020 2nd International Conference on Advanced Information and Communication Technology (ICAICT). IEEE, 2020.
     Google Scholar
  14. Mahamud, Md Sadad, et al. Mouchak-An IoT Basted Smart Beekeeping System Using MQTT. 2019 4th International Conference on Robotics and Automation Engineering (ICRAE). IEEE, 2019.
     Google Scholar
  15. Al Rakib, Md Abdullah, et al., Dry and Wet Waste Segregation and Management System. European Journal of Engineering and Technology Research, 2021;6.5: 129-133.
     Google Scholar
  16. G. M. Bhuiyan, et al. Local minimum in effective pairpotentials: Pseudopotential theory revisited. Cornell University Library, arXiv preprint arXiv:1710.07931, 2017.
     Google Scholar
  17. Mohaiminul Islam, et al. Effects of interionic pair interactions on atomic transport properties of liquid Al, Indian Journal of Physics, pp. 1-10, Springer India, 2021.
     Google Scholar
  18. Fysol Ibna Abbas, et al. Critical Properties of Segregation for Al1− xBix Liquid Binary Alloys. Journal of the Physical Society of Japan, 2020;89(11):114004.
     Google Scholar
  19. N. E Dubinin, et al. Effective Wills–Harrison Pair Interaction in Liquid Au. Russian Metallurgy (Metally), 2019; 8:835-837.
     Google Scholar
  20. G. M. Bhuiyan, et al. Local minimum in pair potentials of polyvalent metals: A limitation of pseudopotential theory. International Journal of Modern Physics B, 2019; 33(7).
     Google Scholar
  21. Fysol Ibna Abbas, et al. A study of thermodynamics of mixing for Al1− xSnx liquid binary alloy, Journal of non-crystalline solids, 2018;481:391-396, Publisher North-Holland.
     Google Scholar
  22. Fysol Ibna Abbas, et al. Energy of mixing and entropy of mixing for CuxAl1-x liquid binary alloys, arXiv preprint arXiv:1607.05827, 2016.
     Google Scholar
  23. Al Rakib, Md Abdullah, et al. IoT based Controlling of Power Grid. European Journal of Engineering and Technology Research, 2021; 6.6: 54-57.
     Google Scholar
  24. Al Rakib, Md Abdullah, et al. GSM Based Home Safety and Security System. European Journal of Engineering and Technology Research 2021;6.6: 69-73.
     Google Scholar
  25. S. Ahmad et al. Design of a Compact Simple Structural Dual-band Patch Antenna for Wireless On-body Medical and Sports Devices, 2021 2nd International Conference on Robotics, Electrical and Signal Processing Techniques (ICREST), IEEE, pp. 577-581, 2021.
     Google Scholar
  26. Al Rakib, Md Abdullah, et al. An Arduino Based Smart Hand Gloves for Load Control and Physician Notification, 2021 International Conference on Automation, Control and Mechatronics for Industry 4.0 (ACMI), IEEE, p 1-5, (2021).
     Google Scholar
  27. Al Rakib, Md Abdullah, et al. Low-Cost Pulmonary Ventilator for Patient Monitoring Covid19 Disease. Submitted to European Journal of Engineering and Technology Research (2021).
     Google Scholar
  28. Al Rakib, Md Abdullah, et al. A Meandered Line Patch Antenna at Low Frequency Range for Early Stage Breast Cancer Detection. Indonesian Journal of Electrical Engineering and Informatics (IJEEI) 2021; 9.3: 662-674.
     Google Scholar


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