SCIENCE CHINA Information Sciences, Volume 63 , Issue 10 : 202305(2020) https://doi.org/10.1007/s11432-019-2758-2

Analysis of 3D localization in underwater optical wireless networks with uncertain anchor positions

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  • ReceivedAug 27, 2019
  • AcceptedJan 10, 2020
  • PublishedSep 18, 2020



[1] Saeed N, Celik A, Al-Naffouri T Y. Energy harvesting hybrid acoustic-optical underwater wireless sensor networks localization.. Sensors, 2018, 18: E51 CrossRef PubMed Google Scholar

[2] Zeng Z, Fu S, Zhang H. A Survey of Underwater Optical Wireless Communications. IEEE Commun Surv Tutorials, 2017, 19: 204-238 CrossRef Google Scholar

[3] N. Saeed, A. Celik, T. Y. Al-Naffouri, at al. Underwater optical wireless communications, networking, and localization: A survey. Ad Hoc Networks, 2019, 94: 1-35. Google Scholar

[4] Saeed N, Celik A, Al-Naffouri T Y, et al. Underwater optical sensor networks localization with limited connectivity. In: Proceedings of 2018 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), Calgary, 2018. Google Scholar

[5] Akhoundi F, Minoofar A, Salehi J A. Underwater positioning system based on cellular underwater wireless optical CDMA networks. In: Proceedings of 2017 26th Wireless and Optical Communication Conference (WOCC), Newark, 2017. Google Scholar

[6] Saeed N, Celik A, Al-Naffouri T Y. Localization of Energy Harvesting Empowered Underwater Optical Wireless Sensor Networks. IEEE Trans Wireless Commun, 2019, 18: 2652-2663 CrossRef Google Scholar

[7] Saeed N, Celik A, Al-Naffouri T Y, et al. Robust 3D localization of underwater optical wireless sensor networks via low rank matrix completion. In: Proceedings of 2018 IEEE 19th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC), Kalamata, 2018. Google Scholar

[8] Mekonnen Z W, Wittneben A. Robust TOA based localization for wireless sensor networks with anchor position uncertainties. In: Proceedings of 2014 IEEE 25th Annual International Symposium on Personal, Indoor, and Mobile Radio Communication (PIMRC), Washington D C, 2014. Google Scholar

[9] V. Kumar, R. Arablouei, B. Kusy, et al. WLS-based self-localization using perturbed anchor positions and RSSI measurements,. arXiv Google Scholar

[10] Lui K W K, Wing-Kin Ma K W K, So H C. Semi-Definite Programming Algorithms for Sensor Network Node Localization With Uncertainties in Anchor Positions and/or Propagation Speed. IEEE Trans Signal Process, 2009, 57: 752-763 CrossRef ADS Google Scholar

[11] Suliman M A, Balla T, AlSharif M H, et al. Robust 3-D location estimation in the presence of anchor placement and range errors. In: Proceedings of 15th Workshop on Positioning, Navigation and Commun (WPNC), Bremen, 2018. Google Scholar

[12] Jia T, Buehrer R M. A new Cramer-Rao lower bound for TOA-based localization. In: Proceedings of MILCOM 2008-2008 IEEE Military Communications Conference, San Diego, 2008. Google Scholar

[13] Cheung K W, So H C, Ma W K. Least Squares Algorithms for Time-of-Arrival-Based Mobile Location. IEEE Trans Signal Process, 2004, 52: 1121-1128 CrossRef ADS Google Scholar

[14] Tarrio P, Bernardos A M, Besada J A, et al. A new positioning technique for RSS-Based localization based on a weighted least squares estimator. In: Proceedings of 2008 IEEE International Symposium on Wireless Communication Systems, Reykjavik, 2008. Google Scholar

[15] W. A. P. van Kleunen K. C. H. Blom N. Meratnia et al. Underwater localization by combining time-of-flight and direction-of-arrival. In: Proceedings of IEEE Oceans, Taipei, 2014. Google Scholar

[16] Ullah I, Liu Y, Su X. Efficient and Accurate Target Localization in Underwater Environment. IEEE Access, 2019, 7: 101415-101426 CrossRef Google Scholar

[17] Patwari N, Ash J N, Kyperountas S. Locating the nodes: cooperative localization in wireless sensor networks. IEEE Signal Process Mag, 2005, 22: 54-69 CrossRef ADS Google Scholar

[18] Angjelichinoski M, Denkovski D, Atanasovski V. Cramér?CRao Lower Bounds of RSS-Based Localization With Anchor Position Uncertainty. IEEE Trans Inform Theor, 2015, 61: 2807-2834 CrossRef Google Scholar