Disaster Sites Roaming Smart Car with Hand Gesture Controller
DOI:
Abstract
This research is about an Internet of Things (IoT) project and research about smart car development. IoT is machine or device that can transfer data over a network without a connection between human-to-human or human-to-device interaction. One of the significant of IoT is the revolution of smart car. This project is a research about smart car that help civilian in distress that have been caught in a natural disaster like land slide or even an earthquake and traps in a collapsed building or it can be a smart car that can recon the site. This smart car can assist the rescue squad to detect that survivor by going through the small hole that been create by the collapsed building and give the rescue squad the where about of the survivor and provide information to the rescuer about the site. The smart car also have solar system to power the system and can run longer than powered only with battery. The smart can also have anti capsize that may make the smart car overturn in the disaster site while roaming in the disaster to detect the victims. This feature help the smart car easily to roam freely with the unstable environment. The smart car also provided with camera for the rescue squad to analyse the structure in the disaster and avoid to dig the rubble or disaster site and killed the victims and the user can gain the insight of the site and gain information more detailed. The smart car can be controlled with a globe type controller for easier the user to control the smart car in the unstable and fragile site.
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References
M. Dachyar, T. Yuri, M. Zagloel and I. R. Saragih, “Knowledge Growth and Development: Internet of Things (IoT),” Research, pp. 1-5, 2019.
A. Udayakumar, Machine Learning in Application Penetration Testing. [Online] Available: https: //www.Researchgate.Net/Publication/343007259_Machine_Learning_in_Application_Penetration_Testing, [Accessed: Dec. 12, 2022].
J. Gubbi, R. Buyya, S. Marusic and M. Palaniswamia, Internet of Things (IoT): A Vision, Architectural Elements, and Future Directions, Australia: University of Melbourne, 2018.
P. Brous, M. Janssen and P. Herder, “The Dual Effects of The Internet of Things (IoT): A Systematic Review of The Benefits and Risks of IoT Adoption by Organizations,” International Journal of Information Management, pp.1-6, 2019.
N. Huy-Trung, N. Quoc-Dung, N. Doan-Hieu and L. Van-Hoang, “PSI- Rooted Subgraph: A Novel Feature for IoT Botnet Detection Using Classifier Algorithms,” ICT Express, pp. 1-2, 2020.
A. Chia and C. Balash, “Towards an improved intuitive interface for Remotely Operated Vehicles,” Journal of Ocean Engineering and Science, vol. 5, no. 4, pp. 346 – 357, 2020.
J. Li and X. Li, “Design of Cooperative Driving System Based on VANET,” 2020.
Z. Feng-Li, J. Tao-Li and Y. Jian-Yang. Intelligent Tracking Obstacle Avoidance Wheel Robot Based on Arduino. Kunming University of Science & Technology, China: Elsevier B.V. 2019.
N. Bargellesi and M. Carletti. A Random Forest-Based Approach for Hand Gesture Recognition with Wireless Wearable Motion Capture Sensors., Italy: Padova IFAC, 2019.
D. Pagliari, L. Pinto, “Calibration of Kinect for Xbox One and Comparison between the Two Generations of Microsoft Sensors,” Sensors (Basel), vol.15, no. 11, 2015.
G. Cenedese, et al., “Currency Mispricing and Dealer Balance Sheets,” Journal of Finance, vol. 76, no. 6, December 2021
M. Sathiyanarayanan and S. Rajan, “MYO Armband for physiotherapy healthcare: A case study using gesture recognition application,” International Conference on Communication Systems and Networks, 2016.
C. Hwa, “the Impact of Social Media Influencers on Purchase Intention and the Mediation Effect of Customer Attitude,” Asian Journal of Business Research, vol. 7, pp. 19-36, 2017.
S. Ahmad, V. Popov and N. Shakev. Hand Gesture Based Concept of Human – Mobile Robot Interaction with Leap Motion Sensor. Technical University Sofia, Bulgaria: Elsevier Ltd. 2019.
A. A. Ismail, M. A. Azizi and A. Zariman, “Smart Water Level Indicator,” International Journal of Recent Technology and Applied Science, vol. 2, no. 1, pp. 48-58, 2020.
S. Shiji, N. M. Anand, A. Balachandran and P. Arun, “Hand Gesture Controller Surveillance Car,” Nehru College of Engineering and Research Centre, IJRESM, 2020.
G. D. Shivamadhu, A. Venkatesh, A. Alva, D. Nausheer and K. A. Devi, “PortaX Secure Automation System Using IoT: A Survey,” International Journal of Recent Technology and Applied Science, vol. 2, no. 1, pp. 66-74, 2020.
T. Tsuchida and S. Kano, “Landslide and Mudflow Disaster in Disposal Site of Surplus Soil at Higashi-Hiroshima Due to Heavy Rainfall in 2009,” Soils and Foundations, vol. 3, no. 54, pp. 621-628, 2014.
M. H. Hazhari, M. A. Azizi and A. Zariman, “Smart Delivery Agent,” International Journal of Recent Technology and Applied Science, vol. 2, no. 1, pp. 36-47. 2020.
J. Rossello, S. Becken and M. Santana-Gallego, “The Effects of Natural Disasters on International Tourism: A global Analysis,” Tourism Management, pp. 1-8, 2020.
Z. Z. Abidin, M. A. A. Zawawi, OOP-AR: Learn Object Oriented Programming Using Augmented Reality,” International Journal of Multimedia and Recent Innovation, vol. 2, no. 1, pp. 60-75, March 2020.
N. Norhalim and A. Ismail, An Early Development Process of an Augmented Reality-Based Healthy Diet Tool Prototype,” International Journal of Multimedia and Recent Innovation, vol. 2, no. 2, pp. 96-101, September 2020.
N. A. A. Edyanto, S. Z. Ramli, N. A. N. Ibharim, S. A. Zahari, M. A. A. Zawawi, Learn Idioms Using Augmented Reality,” International Journal of Multimedia and Recent Innovation, vol. 3, no. 1, pp. 11-16, March 2021.
N. F. Z. Zakaria, Z. Z. Abidin, M. A. A. Zawawi, S. N. Shuhada, Bloodbuddy: a Tracking System for Blood Donor Using GPS,” Journal of Engineering, Technology & Applied Science, vol. 2, no. 2, pp. 86-102, August 2020.
N. A. Z. Noor, and N. H. Hasbullah, “Sistem Temujanji Interaktif Berasaskan Web,” Journal of Engineering, Technology & Applied Science, vol. 2, no. 3, pp. 110-117, December 2020.
