How to cite this paper
Shukri, S., Al-Sayyed, R., Al-Bdour, H., Alhenawi, E., Almarabeh, T & Mohammad, H. (2023). Internet of Things: Underwater routing based on user’s health status for smart diving.International Journal of Data and Network Science, 7(4), 1715-1728.
Refrences
Ahmad, I., Rahman, T., Zeb, A., Khan, I., Othman, M. T. B., & Hamam, H. (2022). Cooperative energy-efficient routing protocol for underwater wireless sensor networks. Sensors, 22(18), 6945.
Almobaideen, W., Krayshan, R., Allan, M., & Saadeh, M. (2017). Internet of Things: Geographical Routing based on healthcare centers vicinity for mobile smart tourism destination. Technological Forecasting and Social Change, 123, 342-350.
Almobaideen, W., Saadeh, M., Al-Anbaki, N., Zaghloul, R., & Aladwan, A. (2015, September). Geographical route selec-tion based on user public transportation and service preferences. In 2015 9th International Conference on Next Genera-tion Mobile Applications, Services and Technologies (pp. 144-149). IEEE.
Aravind, K., & Maddikunta, P. K. R. (2022). Multiobjectives for optimal geographic routing in IoT health care system. Complexity, 2022, 1-15.
Arianmehr, S., & Jabraeil Jamali, M. A. (2020). HybTGR: a hybrid routing protocol based on topological and geograph-ical information in vehicular ad hoc networks. Journal of Ambient Intelligence and Humanized Computing, 11, 1683-1695.
Buhalis, D., & Law, R. (2008). Progress in information technology and tourism management: 20 years on and 10 years af-ter the Internet—The state of eTourism research. Tourism management, 29(4), 609-623.
Chen, J., Wu, X., & Chen, G. (2008, October). REBAR: a reliable and energy balanced routing algorithm for UWSNs. In 2008 Seventh international Conference on grid and cooperative computing (pp. 349-355). IEEE.
Claudet, J., Lenfant, P., & Schrimm, M. (2010). Snorkelers impact on fish communities and algae in a temperate marine protected area. Biodiversity and Conservation, 19, 1649-1658.
Delgado, J. P. (2011). The impact on and opportunities arising from tourism to submerged sites. In Scientific Colloquium on Factors Impacting Underwater Cultural Heritage (p. 54).
Farooq, U., Ullah, M., Khan, R. U., Alharbi, A., Uddin, M. I., Haq, M. I. U., & Alosaimi, W. (2021). IDBR: IoT enabled depth base routing method for underwater wireless sensor network. Journal of Sensors, 2021, 1-8.
Glaesser, D., Kester, J., Paulose, H., Alizadeh, A., & Valentin, B. (2017). Global travel patterns: an overview. Journal of travel medicine, 24(4), tax007.
Ismail, M., Islam, M., Ahmad, I., Khan, F. A., Qazi, A. B., Khan, Z. H., ... & Al-Rakhami, M. (2020). Reliable path selec-tion and opportunistic routing protocol for underwater wireless sensor networks. IEEE Access, 8, 100346-100364.
Jabri, R., & Manaseer, S. (2018). Using a New Routing Metric in Paths Discovery Process for MAODV. Open Access Li-brary Journal, 5(4), 1-11.
Jassim, M., & Almobaideen, W. (2013). A segment-based tree traversal algorithm for enhancing data gathering in wire-less sensor networks. In Proceedings of the 2013 International Conference on Electronics, Signal Processing and Communication Systems (pp. 154-161). INASE.
Jornet, J. M., Stojanovic, M., & Zorzi, M. (2008, September). Focused beam routing protocol for underwater acoustic networks. In Proceedings of the 3rd International Workshop on Underwater Networks (pp. 75-82).
Khasawneh, A. M., Kaiwartya, O., Abualigah, L. M., & Lloret, J. (2020). Green computing in underwater wireless sensor networks pressure centric energy modeling. IEEE Systems Journal, 14(4), 4735-4745.
Lee, U., Wang, P., Noh, Y., Vieira, L. F., Gerla, M., & Cui, J. H. (2010, March). Pressure routing for underwater sensor networks. In 2010 Proceedings IEEE INFOCOM (pp. 1-9). IEEE.
Mahato, D. P., Sandhu, J. K., Gitanshu, & Dutta, K. (2020, January). Distributed routing for underwater wireless sensor networks using cuckoo search-ant colony optimization. In Proceedings of the 21st International Conference on Dis-tributed Computing and Networking (pp. 1-5).
Moshref, M., Al-Sayyed, R., & Al-Sharaeh, S. (2021). An enhanced multi-objective non-dominated sorting genetic routing algorithm for improving the QoS in wireless sensor networks. IEEE Access, 9, 149176-149195.
Moshref, M., Al-Sayyed, R., & Al-Sharaeh, S. (2022). Improving the quality of service in wireless sensor networks using an enhanced routing genetic protocol for four objectives. Indonesian Journal of Electrical Engineering and Computer Science, 26(2), 1182-1196.
Nicolaou, N., See, A., Xie, P., Cui, J. H., & Maggiorini, D. (2007, June). Improving the robustness of location-based rout-ing for underwater sensor networks. In Oceans 2007-Europe (pp. 1-6). IEEE.
Paraskevas, A., & Buhalis, D. (2002). Outsourcing IT for small hotels: The opportunities and challenges of using applica-tion service providers. Cornell Hotel and Restaurant Administration Quarterly, 43(2), 27-39.
Porter, M. E. (2001). Michael; ilustraciones Gibbs. Strategy and the Internet, 63, 78.
Rangel, M. O., Pita, C. B., Gonçalves, J. M. S., Oliveira, F., Costa, C., & Erzini, K. (2014). Developing self-guided scuba dive routes in the Algarve (Portugal) and analysing visitors' perceptions. Marine Policy, 45, 194-203.
Shakila, R., & Paramasivan, B. (2020). Withdrawn: Performance analysis of submarine detection in underwater wireless sensor networks for naval application.103293.
Stiller, C., Roß, F., & Witte, H. (2006). A handheld/server based assistance system for tourists with special needs. Data-base, 111(111), 111.
Su, H., Wang, Z., & An, S. (2013). MAEB: Routing protocol for iot healthcare.
Vasilescu, I., Kotay, K., Rus, D., Dunbabin, M., & Corke, P. (2005, November). Data collection, storage, and retrieval with an underwater sensor network. In Proceedings of the 3rd international conference on Embedded networked sensor sys-tems (pp. 154-165).
Xia, F., Yang, L. T., Wang, L., & Vinel, A. (2012). Internet of things. International journal of communication systems, 25(9), 1101.
Xie, P., Cui, J. H., & Lao, L. (2006). VBF: Vector-based forwarding protocol for underwater sensor networks. In NETWORKING 2006. Net-working Technologies, Services, and Protocols; Performance of Computer and Communication Networks; Mobile and Wireless Com-munications Systems: 5th International IFIP-TC6 Networking Conference, Coimbra, Portugal, May 15-19, 2006. Proceedings 5 (pp. 1216-1221). Springer Berlin Heidelberg.Yan, H., Shi, Z.J., Cui, J.H., 2008. Dbr: depth-based routing for underwater sensor networks, in: International conference on research in networking, Springer. pp. 72–86.
Yang, G., Dai, L., Si, G., Wang, S., & Wang, S. (2019). Challenges and security issues in underwater wireless sensor net-works. Procedia Computer Science, 147, 210-216.
Yoo, H. J., Cho, N., & Yoo, J. (2009, September). Low energy wearable body-sensor-network. In 2009 Annual Interna-tional Conference of the IEEE Engineering in Medicine and Biology Society (pp. 3209-3212). IEEE.
Almobaideen, W., Krayshan, R., Allan, M., & Saadeh, M. (2017). Internet of Things: Geographical Routing based on healthcare centers vicinity for mobile smart tourism destination. Technological Forecasting and Social Change, 123, 342-350.
Almobaideen, W., Saadeh, M., Al-Anbaki, N., Zaghloul, R., & Aladwan, A. (2015, September). Geographical route selec-tion based on user public transportation and service preferences. In 2015 9th International Conference on Next Genera-tion Mobile Applications, Services and Technologies (pp. 144-149). IEEE.
Aravind, K., & Maddikunta, P. K. R. (2022). Multiobjectives for optimal geographic routing in IoT health care system. Complexity, 2022, 1-15.
Arianmehr, S., & Jabraeil Jamali, M. A. (2020). HybTGR: a hybrid routing protocol based on topological and geograph-ical information in vehicular ad hoc networks. Journal of Ambient Intelligence and Humanized Computing, 11, 1683-1695.
Buhalis, D., & Law, R. (2008). Progress in information technology and tourism management: 20 years on and 10 years af-ter the Internet—The state of eTourism research. Tourism management, 29(4), 609-623.
Chen, J., Wu, X., & Chen, G. (2008, October). REBAR: a reliable and energy balanced routing algorithm for UWSNs. In 2008 Seventh international Conference on grid and cooperative computing (pp. 349-355). IEEE.
Claudet, J., Lenfant, P., & Schrimm, M. (2010). Snorkelers impact on fish communities and algae in a temperate marine protected area. Biodiversity and Conservation, 19, 1649-1658.
Delgado, J. P. (2011). The impact on and opportunities arising from tourism to submerged sites. In Scientific Colloquium on Factors Impacting Underwater Cultural Heritage (p. 54).
Farooq, U., Ullah, M., Khan, R. U., Alharbi, A., Uddin, M. I., Haq, M. I. U., & Alosaimi, W. (2021). IDBR: IoT enabled depth base routing method for underwater wireless sensor network. Journal of Sensors, 2021, 1-8.
Glaesser, D., Kester, J., Paulose, H., Alizadeh, A., & Valentin, B. (2017). Global travel patterns: an overview. Journal of travel medicine, 24(4), tax007.
Ismail, M., Islam, M., Ahmad, I., Khan, F. A., Qazi, A. B., Khan, Z. H., ... & Al-Rakhami, M. (2020). Reliable path selec-tion and opportunistic routing protocol for underwater wireless sensor networks. IEEE Access, 8, 100346-100364.
Jabri, R., & Manaseer, S. (2018). Using a New Routing Metric in Paths Discovery Process for MAODV. Open Access Li-brary Journal, 5(4), 1-11.
Jassim, M., & Almobaideen, W. (2013). A segment-based tree traversal algorithm for enhancing data gathering in wire-less sensor networks. In Proceedings of the 2013 International Conference on Electronics, Signal Processing and Communication Systems (pp. 154-161). INASE.
Jornet, J. M., Stojanovic, M., & Zorzi, M. (2008, September). Focused beam routing protocol for underwater acoustic networks. In Proceedings of the 3rd International Workshop on Underwater Networks (pp. 75-82).
Khasawneh, A. M., Kaiwartya, O., Abualigah, L. M., & Lloret, J. (2020). Green computing in underwater wireless sensor networks pressure centric energy modeling. IEEE Systems Journal, 14(4), 4735-4745.
Lee, U., Wang, P., Noh, Y., Vieira, L. F., Gerla, M., & Cui, J. H. (2010, March). Pressure routing for underwater sensor networks. In 2010 Proceedings IEEE INFOCOM (pp. 1-9). IEEE.
Mahato, D. P., Sandhu, J. K., Gitanshu, & Dutta, K. (2020, January). Distributed routing for underwater wireless sensor networks using cuckoo search-ant colony optimization. In Proceedings of the 21st International Conference on Dis-tributed Computing and Networking (pp. 1-5).
Moshref, M., Al-Sayyed, R., & Al-Sharaeh, S. (2021). An enhanced multi-objective non-dominated sorting genetic routing algorithm for improving the QoS in wireless sensor networks. IEEE Access, 9, 149176-149195.
Moshref, M., Al-Sayyed, R., & Al-Sharaeh, S. (2022). Improving the quality of service in wireless sensor networks using an enhanced routing genetic protocol for four objectives. Indonesian Journal of Electrical Engineering and Computer Science, 26(2), 1182-1196.
Nicolaou, N., See, A., Xie, P., Cui, J. H., & Maggiorini, D. (2007, June). Improving the robustness of location-based rout-ing for underwater sensor networks. In Oceans 2007-Europe (pp. 1-6). IEEE.
Paraskevas, A., & Buhalis, D. (2002). Outsourcing IT for small hotels: The opportunities and challenges of using applica-tion service providers. Cornell Hotel and Restaurant Administration Quarterly, 43(2), 27-39.
Porter, M. E. (2001). Michael; ilustraciones Gibbs. Strategy and the Internet, 63, 78.
Rangel, M. O., Pita, C. B., Gonçalves, J. M. S., Oliveira, F., Costa, C., & Erzini, K. (2014). Developing self-guided scuba dive routes in the Algarve (Portugal) and analysing visitors' perceptions. Marine Policy, 45, 194-203.
Shakila, R., & Paramasivan, B. (2020). Withdrawn: Performance analysis of submarine detection in underwater wireless sensor networks for naval application.103293.
Stiller, C., Roß, F., & Witte, H. (2006). A handheld/server based assistance system for tourists with special needs. Data-base, 111(111), 111.
Su, H., Wang, Z., & An, S. (2013). MAEB: Routing protocol for iot healthcare.
Vasilescu, I., Kotay, K., Rus, D., Dunbabin, M., & Corke, P. (2005, November). Data collection, storage, and retrieval with an underwater sensor network. In Proceedings of the 3rd international conference on Embedded networked sensor sys-tems (pp. 154-165).
Xia, F., Yang, L. T., Wang, L., & Vinel, A. (2012). Internet of things. International journal of communication systems, 25(9), 1101.
Xie, P., Cui, J. H., & Lao, L. (2006). VBF: Vector-based forwarding protocol for underwater sensor networks. In NETWORKING 2006. Net-working Technologies, Services, and Protocols; Performance of Computer and Communication Networks; Mobile and Wireless Com-munications Systems: 5th International IFIP-TC6 Networking Conference, Coimbra, Portugal, May 15-19, 2006. Proceedings 5 (pp. 1216-1221). Springer Berlin Heidelberg.Yan, H., Shi, Z.J., Cui, J.H., 2008. Dbr: depth-based routing for underwater sensor networks, in: International conference on research in networking, Springer. pp. 72–86.
Yang, G., Dai, L., Si, G., Wang, S., & Wang, S. (2019). Challenges and security issues in underwater wireless sensor net-works. Procedia Computer Science, 147, 210-216.
Yoo, H. J., Cho, N., & Yoo, J. (2009, September). Low energy wearable body-sensor-network. In 2009 Annual Interna-tional Conference of the IEEE Engineering in Medicine and Biology Society (pp. 3209-3212). IEEE.