Poster: Connectivity topology generation with degree limitation for UOWN
Authors: 
Bin Han, Lei Wang, Jie Meng, Yu Tian, Chi Lin, Zhenquan Qin, Bingxian LuAuthors Info & Claims
Pages 1094 - 1095
Abstract
Underwater Optical Wireless Communication (UOWC) enables high-speed data transmission among Autonomous Underwater Vehicles (AUVs). However, due to cost and weight constraints, AUVs can only carry a limited number of directional optical transceivers. This implies that each AUV can communicate with only 1 to 2 neighbors simultaneously, complicating the establishment of an Underwater Optical Wireless Communication Network (UOWN). To address the networking problem with the degree constraint, we propose a topology generation method based on Hamiltonian paths. The topology achieves improved global connectivity at the cost of local optimality while satisfying the communication device limitations of AUVs. Preliminary results show that the generated topology can reduce the average communication overhead.
References
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Rodolfo W. L. Coutinho and Azzedine Boukerche. 2018. Exploiting Mobility to Improve Underwater Sensor Networks. In Proceedings of the 16th ACM International Symposium on Mobility Management and Wireless Access (Montreal, QC, Canada) (MobiWac'18). Association for Computing Machinery, New York, NY, USA, 89--94.
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N. Farr, A.D. Chave, L. Freitag, J. Preisig, S.N. White, D. Yoerger, and F. Sonnichsen. 2006. Optical Modem Technology for Seafloor Observatories. In OCEANS 2006. IEEE, Boston, MA, USA, 1--6.
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Ece Gelal, Gentian Jakllari, Srikanth V. Krishnamurthy, and Neal E. Young. 2009. Topology Management in Directional Antenna-Equipped Ad Hoc Networks. IEEE Transactions on Mobile Computing 8, 5 (2009), 590--605.
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Umesh Kumar, Himanshu Gupta, and Samir R. Das. 2006. A Topology Control Approach to Using Directional Antennas in Wireless Mesh Networks. In 2006 IEEE International Conference on Communications, Vol. 9. IEEE, Istanbul, Turkey, 4083--4088.
Index Terms
- Poster: Connectivity topology generation with degree limitation for UOWN
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Information
Published In
September 2023
1217 pages
ISBN:9798400702365
DOI:10.1145/3603269
- Chairs:
- Henning Schulzrinne,
- Vishal Misra,
- Program Chairs:
- Eddie Kohler,
- David Maltz
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Association for Computing Machinery
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Published: 01 September 2023
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