The Development Powerful and Efficiency of Mahidolia Underwater Drone of Thailand

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Supakrit Solpikul
Chonticha Kaewanuchit
Sathit Kurathong
Worrapoj Oonanant
Busaba Supawattanabodee
Chamnong Thongprasert

Abstract

Mahidolia Underwater Drone is the first prototype of underwater fish drone with Artificial intelligence of The world which the body is “Mahidolia”. Mahidolia scientific name followed by the Admiral of Fleet His Royal Highness Somdej Chao Fa Mahidol Adulyadej Kromma Luang Songkla Nakarin who is the father of modern medicine , the father of public health of Thailand and the mention of conserving aquatic animal resources in Thailand to represent of symbolic approach so as to ideal empowerment of Mahidolia Underwater Drone to help mankind. Its development is considered as Unmanned Aerial Vehicle (UAV) - NARAI UAV. Its characteristic is a versatile. At the present, the using of underwater drone in the other countries appeares. For example, Power Ray, Trident, iBubble, and Biki. However, Mahidolia Underwater Drone of Thailand in the future will get advantage to medicine and public health. For example, assisting in patient care/ emergency injured outside the hospital or medical equipment transportation to accident point.

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How to Cite
Solpikul, S., Kaewanuchit, C., Kurathong, S., Oonanant, W., Supawattanabodee, B., & Thongprasert, C. (2018). The Development Powerful and Efficiency of Mahidolia Underwater Drone of Thailand. Vajira Medical Journal : Journal of Urban Medicine, 62(6), 489–500. Retrieved from https://he02.tci-thaijo.org/index.php/VMED/article/view/210916
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References

1. Sopikul S. The lamp of the conservation of aquatic resources inThailand : legend of the sea of Thailand, EN Newsletters 2010;17,84:14.

2. Government Gazette. Office of the prime minister the topic of appointed military rank (field Marshal for Capt. His Royal Highness Prince Mahidol) Book Number 115, Chapter 4, March 2,1998. Bangkok: Bureau of the Royal Household; 1998. p1.

3. Mahidol University. Admire of Mahidol. Bangkok:Mahidol University;2009,p. 332.

4. Sopikul S. Mahidoliamystacina : the fish of honor in Laem Sing fishing community area.In research& development, editor. Proceedings of the Rampai Panni Research Conference Graduate School “Research for Local Development”; 2010 June 14-15; p. 594-8.

5. Sopikul S.Established handout about the interdisciplinary network of the Royal Institute of Thailand under the Royal patronage HRH Princess MahaChakriSirindhorn (in the east of Thailand). Pilot Project of theMahidolia Conservation in Laemsing. Bangkok : Royal Institute of Thailand; 2009. p. 146 - 150.

6. Sopikul S. Mahidolia : living gem of ASEAN community which is elegant in global community. ASEAN – Thailand community newsletter 2011; 3 (4): 10 - 2.

7. Sopikul S. The peaceful struggle with the "Mahidol Goby" is an ideal culture. J Consol peace 2010; 2, 2: 7-8.

8. Sopikul S. Experience from education aviation courses with unmanned aerial vehicles. NARAI UAV 1st edition. Nakornpathom Province: Mahidol University Learning Center;2009. p 1-7.

9. Wikipedia, the free encyclopedia. Unmanned aircraft. Available at: http://th.wikipedia.org.Retrieved September 3,2013.

10. Army Aviation Battalion in 1st Cavalry Regiment. Unmanned Aerial Vehicle (UAV).Available at: http://www.geocities.ws/aircav1st/avnlink_files/uav.htm. Retrieved September 21, 2018.

11. Sattayalekha W.Demand for unmanned aircraft will grow to $ 80 billion by 2020. Available at: http://www.dae.mi.th /aeroblog/?tag= uavRetrieved September 13, 2018.

12. Pimthon C. UAV Classification. Available at: http://uavproject.org/index.php?option=com_content&view.Retrieved September 1, 2018.

13. Wikipedia. UAV?.Available at: http://en.wikipedia. org.Retrieved February 15, 2017.

14. Hormsab V. Unmanned Aerial Vehicle (UAV) Technology. Available at: http://www.vcharkarn.com. Retrieved June 1, 2018.

15. The Thai Research Fund (TRF). Unmanaged aircraft Team Bound Technologies. Available at: http://www.trf.or.th.Retrieved May 13, 2018.

16. Naval research and development office. Up and down in vertical unmanned aerial aircraft pilot research project. Available at: http://www.navy.mi.th.Retrieved July 3, 2018.

17. Mercado D, Maia M, Diez FJ. Aerial-underwater systems, a new paradigm in unmanned vehicles. J Intell& Robotic Sys 2018. DOI: https://doi.org/10.1007/s10846-018-0820-x

18. Mengc, L, Hirayamab, T, Oyanagi S. The development of underwater-drone equipped with 360-degree panorama camera in opensource hardware. Procedia ComputSci 2018; 129: 438–42.

19. Mengc L, Hirayamab T, Oyanagi S. Underwaterdrone with panoramic camera for automatic fish recognition based on deep l earning. IEEE Open Access 2018a; 6: 17880-17886. DOI : 10.1109/ACCESS.2018.2820326

20. Dong-Woo M, Hyeon-Seung K, Hyun-Sik K. (2015). Collaborative obstacle avoidance method of surface and aerial drones based on acoustic information and optical image. KII2015; 64, 7: 1081-7 http://dx.doi.org/10.5370/KIEE.2015.64.7.1081

21. AfifKasnoM.E, Aras MSM, Keong YE, Azis FA, Kassim AM, Harun MH, et al. Design analysis of Remotely Amphibian Vehicle (RAV) –underwater drone. JTEC 2017; 9, 3-2: 35-8.

22. Suyagin I. Russia’s underwater “doomsday drone”: Science fiction, but real danger. Bulletin Atomic Sci 2016; 72, 4: 243-6.

23. The power. Powerray. Available at http://www.thepower.co.th/knowledge/powerray-underwater-drone/. Retrieved October 21, 2018.

24. Openron. Trident: the next generation underwater drone. Available at :https://www.openrov.com/products/trident/video/ . Retrieved October 21, 2018.

25. Notilo Plus Company. Your autonomus underwater drone. Available at :https://ibubble.camera/?gclid=CjwKCAjwpKveBRAwEiwAo4Pqm8AhW-. Retrieved October 21, 2018. OOmE6wyDfCg3LNTdFXNd13ERODra3EDsS-sRQ0Ugiq40QoIRoCo7AQAvD_BwE. Retrieved October 21,2018.

26. Kickstarter. BIKI: first bionic wireless underwater fish drone. Available at https://www.kickstarter.com/projects/1114649432/biki-first-bionicwireless-underwater-fish-drone. Retrieved Ocutber 22, 2018.

27. Kaewanuchit C. A cross-sectional study on occupational stress of using Thai-JCQ among Thai immigrant employees in Bangkok: a path diagram. Pertanika J. Soc. Sci. & Hum 2017; 25, 1:189-204.

28. Kaewanuchit C, Sawangdee Y. A path analysis of mental health among Thai immigrant employees in Pranakron Si Ayutthaya Province. J Immigrant Minority Health 2016; 18, 4: 871-7.

29. Kaewanuchit C, Muntaner C, Dendoung S, Labonte R, Sutttawet C, Chiengkul W. The psychosocial stress model for Thai contract farmers under globalization: a path analysis model. Asian Biomed 2012; 6, 3: 385-95.

30. Sopikul S. The Mahidol smiling goby. Spectrum 2010; 17, 2: 19.