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2024 | OriginalPaper | Buchkapitel

Cross-Medium Communication: Utilizing Relay to Achieve Air-Sea Cross-Medium Communication Technology and Applications

verfasst von : Zhigang Shang, Hongyu Zhang

Erschienen in: Proceedings of the 2nd International Conference on Internet of Things, Communication and Intelligent Technology

Verlag: Springer Nature Singapore

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Abstract

With the increasing demand for applications such as marine resource development, marine environmental exploration, and ocean cross-medium operations, the demand for interconnectivity in various physical environments is becoming increasingly high, especially for efficient interconnection between air and water environments. However, due to the different characteristics of air and water media, as well as the impact of harsh environments, smooth passage through the air-water interface faces significant difficulties. Currently, the most extensively used method in engineering is to use relays to achieve air surface and water interconnectivity. In this article, we investigated the current research on air-sea cross-medium relay communication and discussed future research directions. We hope to use this article to promote the research of air-sea cross- medium relay communication and achieve an efficient, high-speed, and robust air-sea cross- medium relay communication system.

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Wang, Z., Du, Y., Wei, K., et al.: Vision, application scenarios, and key technology trends for 6G mobile communications. Sci. Chin. Inf. Sci. 65(5), 151301 (2022)CrossRef

Sun, R, Liu, X., Lou, Y., et al.: Modeling of hierarchical vertical underwater wireless optical channel. Digit. Ocean Underwater Warfare (2022)

Dong, C., He, Y., Li, M., et al.: A portable very low frequency (VLF) communication system based on acoustically actuated magnetoelectric antennas. IEEE Antennas Wirel. Propag. Lett. 19(3), 398–402 (2020)CrossRef

Liao, X., Jiang, H., He, N.: Underwater time slot-hopping data transmission based on laser-induced acoustic waves. Chin. J. Lasers 49(18), 1806002–1806002+8 (2022)

Shang, Z., Li, M., An, Y., Yu, H., Wang, Y., Qin, J.: Data splitting method based on air-sea cross-domain gateway communication information transmission. In: 2022 IEEE International Conference on Unmanned Systems (ICUS), pp. 1518–1522. Guangzhou, China (2022)

Yunhai, Z.: Overview on development of marine environment monitoring equipment and technologies. Digit. Ocean Underwater Warfare 1(01), 7–14 (2018)

Bao, J.: Application and study on arctic sea ice buoys of Argos satellite communication system, Northeast Normal University (2023)

He, H., Wang, Y.: The Global positioning and global satellite communication system: the application of Inmarsat-C in communication areas. In: Eighth International Conference on Applications of Advanced Technologies in Transportation Engineering (2004)

Ali, M.F., Jayakody, D.N.K., Ribeiro, M.V.: A hybrid UVLC-RF and optical cooperative relay communication system. In: 2021 10th International Conference on Information and Automation for Sustainability (ICIAfS), pp. 13–18. IEEE (2021)

10.

Luo, H., Wu, K., Gong, Y.J., et al.: Localization for drifting restricted floating ocean sensor networks. IEEE Trans. Veh. Technol. 65(12), 9968–9981 (2016)CrossRef

11.

Dong, Y., Tang, S., Zhang, X.: Effect of random sea surface on downlink underwater wireless optical communications. IEEE Commun. Lett. 17(11), 2164–2167 (2013)CrossRef

12.

Zhang, H., Cheng, J., Wang, Z., et al.: On the capacity of buoy-based MIMO systems for underwater optical wireless links with turbulence. In: 2018 IEEE International Conference on Communications (ICC), pp. 1–6. IEEE (2018)

13.

Yadav, S., Vats, A., Aggarwal, M., et al.: Performance analysis and altitude optimization of UAV-enabled dual-hop mixed RF-UWOC system. IEEE Trans. Veh. Technol. 70(12), 12651–12661 (2021)CrossRef

14.

Li, S., Yang, L., da Costa, D.B., et al.: On the performance of RIS-assisted dual-hop mixed RF-UWOC systems. IEEE Trans. Cogn. Commun. Netw. 7(2), 340–353 (2021)CrossRef

15.

Guan, S., Wang, J., Jiang, C., et al.: MagicNet: the maritime giant cellular network. IEEE Commun. Mag. 59(3), 117–123 (2021)CrossRef

16.

Zhang, Y., Shang, H., Zhang, X., et al.: Development and sea test results of a deep-sea tsunami warning buoy system. Mar. Technol. Soc. J. 53(3), 6–15 (2019)

17.

Chen, H., Yin, F., Huang, W., et al.: Ocean surface drifting buoy system based on UAV-enabled wireless powered relay network. Sensors 20(9), 2598 (2020)CrossRef

18.

Ma, R., Wang, R., Liu, G., et al.: UAV-assisted data collection for ocean monitoring networks. IEEE Netw. 34(6), 250–258 (2020)CrossRef

19.

Wang, Q., Dai, H.N., Wang, Q., et al.: On connectivity of UAV-assisted data acquisition for underwater internet of things. IEEE Internet Things J. 7(6), 5371–5385 (2020)CrossRef

20.

Liu, L., Liao, Z., Chen, C., et al.: A seabed real-time sensing system for in-situ long-term multi-parameter observation applications. Sensors 19(5), 1255 (2019)

21.

Zhang, X., Tong, Y.-Z., Tian, Z.-Y., Wang, J.-H., Yao, Z.: Coverage and transmission bandwidth analyses of undersea-to-air magnetic induction communication with relay transmission. Acta Phys. Sinica 69(24), 305-312 (2020)

22.

Ma, H., Teng, J., Hu, T., et al.: Co-communication protocol of underwater sensor networks with quantum and acoustic communication capabilities. Wirel. Pers. Commun. 113, 337–347 (2020)CrossRef

23.

Liu, Z., Zhang, Y., Yu, X., et al.: Unmanned surface vehicles: an overview of developments and challenges. Annu. Rev. Control. 41, 71–93 (2016)CrossRef

24.

Yang, T., Jiang, Z., Sun, R., et al.: Maritime search and rescue based on group mobile computing for unmanned aerial vehicles and unmanned surface vehicles. IEEE Trans. Industr. Inf. 16(12), 7700–7708 (2020)CrossRef

25.

Xing, C., Jiang, J., Wan, Z., et al.: Research on localization method of acoustic beacon under cross-domain cooperation. In: 2022 3rd International Conference on Geology, Mapping and Remote Sensing (ICGMRS), pp. 417–420. IEEE (2022)

26.

Van, T.P., Dang, C.D.N.: Underwater searching based on AUV-ASV cooperation. In: 2022 16th International Conference on Ubiquitous Information Management and Communication (IMCOM), pp. 1–7. IEEE (2022)

27.

Shao, G., Ma, Y., Malekian, R., et al.: A novel cooperative platform design for coupled USV–UAV systems. IEEE Trans. Industr. Inf. 15(9), 4913–4922 (2019)CrossRef

28.

Wu, Y., Low, K.H., Lv, C.: Cooperative path planning for heterogeneous unmanned vehicles in a search-and-track mission aiming at an underwater target. IEEE Trans. Veh. Technol. 69(6), 6782–6787 (2020)CrossRef

29.

Cutler, S.: A search for the optimal file transfer protocol from surfaced UUVs to UAV relays and beyond. In: Ground/Air Multisensor Interoperability, Integration, and Networking for Persistent ISR IX, vol. 10635, pp. 287–300. SPIE (2018)

30.

Lv, Z., Zhang, J., Jin, J., et al.: Underwater acoustic communication quality evaluation model based on USV. Shock and Vibration (2018)

31.

Ding, W.-W., Huang, H.-C., Zhu, X.-K., et al.: New mobile oceanic seismic recording system and its application in marine seismic exploration. Prog. Geophys. 34(1), 0292–0296 (2019). (in Chinese)

32.

Yang, Y., Yao, J., Chen, D., Tong, F., Lan, W.: Cross-medium communication experiment of wave glider in extremely shallow sea. Digit. Ocean Underwater Warfare 5(04), 307–312 (2022)

Titel: Cross-Medium Communication: Utilizing Relay to Achieve Air-Sea Cross-Medium Communication Technology and Applications
verfasst von: Zhigang Shang
Hongyu Zhang
Verlag: Springer Nature Singapore
Buch: Proceedings of the 2nd International Conference on Internet of Things, Communication and Intelligent Technology
Print ISBN: 978-981-9727-56-8

Electronic ISBN: 978-981-9727-57-5

Copyright-Jahr: 2024
DOI: https://doi.org/10.1007/978-981-97-2757-5_27

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