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Mobile Networks and Applications

Erschienen in:

08.10.2017

Dual-Domain Compressed Sensing Method for Oceanic Environmental Elements Collection with Underwater Sensor Networks

verfasst von: Wenjing Kang, Rui Du, Gongliang Liu

Erschienen in: Mobile Networks and Applications | Ausgabe 2/2018

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Abstract

Bandwidth and energy constraints of underwater wireless sensors networks necessitate an efficient data transmission between sensor nodes and the fusion center. This paper considers the data gathering underwater networks for monitoring oceanic environmental elements (e.g. temperature, salinity) and only a portion of measurements from sensors allows for oceanic information map reconstruction under compressed sensing (CS) theory. By utilizing the spatial sparsity of active sensors’ data, we introduce an activity and data detection based on CS at the receiver side resulting in an efficient data communication by avoiding the necessity of conveying identity information. For an interleave division multiple access (IDMA) sporadic transmission, CS-CBC detection that combines the benefits from chip-by-chip (CBC) multi-user detection and CS detection is proposed. Further, by successively exploring the sparsity of sensor data in spatial and frequency domain, we propose a novel efficient data gathering scheme named Dual-domain compressed sensing (DCS). Simulation results validate the effectiveness of the proposed scheme compared to IDMA-CS scheme and an optimal sensing probability problem related to minimum reconstruction error is explored.

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Domingo MC (2011) Securing underwater wireless communication networks. IEEE Wirel Commun 18(1):22–28CrossRef

Heidemann J, Zorzi M (2012) Underwater sensor networks: applications, advances and challenges. Philos Trans 370(1958):158–175CrossRef

Donoho DL (2006) Compressed sensing. IEEE Trans Inf Theory 52(4):1289–1306MathSciNetCrossRefMATH

Candès EJ, Romberg J, Tao T (2006) Robust uncertainty principles: exact signal reconstruction from highly incomplete frequency information. IEEE Trans Inf Theory 52(2):489–509MathSciNetCrossRefMATH

Han Z, Li H, Yin W (2013) Compressive sensing for wireless networks. Cambridge University Press, CambridgeCrossRef

Haupt J, Bajwa WU, Rabbat M, Nowak R (2008) Compressed sensing for networked data: a different approach to decentralized compression. IEEE Signal Process Mag 25(2):92–101CrossRef

Fazel F, Fazel M, Stojanovic M (2011) Random access compressed sensing for energy-efficient underwater sensor networks. IEEE J Sel Areas Commun 29(8):1660–1670CrossRef

Xue T, Dong X, Shi Y (2013) Multiple access and data reconstruction in wireless sensor networks based on compressed sensing. IEEE Trans Wirel Commun 12(7):3399–3411CrossRef

Liu GL, Kang WJ (2014) IDMA-based compressed sensing for ocean monitoring information acquisition with sensor networks. Math Probl Eng 1:1–13MathSciNet

10.

Schepker HF, Dekorsy A (2011) Sparse multi-user detection for CDMA transmission using greedy algorithms. In: Proceedings of the 8th ISWCS, pp 291–295

11.

Schepker HF, Bockelmann C, Dekorsy A (2013) Improving greedy compressive sensing based multi-user detection with iterative feedback. In: Proceedings of IEEE 78th VTC-Fall, pp 1–5

12.

Shim B, Song B (2012) Multiuser detection via compressive sensing. IEEE Commun Lett 16(7):972–974CrossRef

13.

Monsees F, Woltering M, Bockelmann C, Dekorsy A (2015) Compressive sensing multi-user detection for multicarrier systems in sporadic machine type communication. In: Proceedings of IEEE 81st vehicular technology conference, VTC Spring, pp 1–5

14.

Wang B (2012) Dynamic compressive sensing-based multi-user detection for uplink grant-free NOMA. IEEE Commun Lett 16(7):972–974CrossRef

15.

Chen X, Yu Z, Hoyos S, Sadler BM, Silva-Martinez J (2011) A sub-Nyquist rate sampling receiver exploiting compressive sensing. IEEE Trans Circuits Syst I 58(3):507–520MathSciNetCrossRef

16.

Candes EJ, Wakin MB (2008) An introduction to compressive sampling. IEEE Signal Process Mag 25(2):21–30CrossRef

17.

Baraniuk R, Davenport M, DeVore R, Wakin M (2008) A simple proof of the restricted isometry property for random matrices. Constr Approx 28(3):253–263

18.

Fornasier M, Rauhut H (2015) Compressive sensing. Springer, BerlinCrossRefMATH

19.

Zelnik-Manor L, Rosenblum K, Eldar YC (2011) Sensing matrix optimization for block-sparse decoding. IEEE Trans Signal Process 59(9):4300–4312MathSciNetCrossRef

20.

Bockelmann C, Schepker H, Dekorsy A (2013) Compressive sensing based multi-user detection for machine-to-machine communication. Trans Emerg Telecommun Technol Spec Issue Mach Mach Emerg Commun Paradigm 24(4):389–400

21.

Schepker HF, Bockelmann C, Dekorsy A (2013) Coping with CDMA asynchronicity in compressive sensing multi-user detection. In: Proceedings of IEEE 77th VTC-Spring, pp 1–5

22.

Schepker HF, Bockelmann C, Dekorsy A (2013) Exploiting sparsity in channel and data estimation for sporadic multi-user communication. In: Proceedings of 10th ISWCS, pp 1–5

23.

Mao R, Li H (2010) A novel multiple access scheme via compressed sensing with random data traffic. J Commun Netw 12(4):308–316CrossRef

24.

Ping L, Liu L, Wu K, Leung WK (2006) Interleave division multiple access. IEEE Trans Wirel Commun 5(4):938–947CrossRef

25.

Kusume K, Bauch G, Utschick W (2012) IDMA vs. CDMA: analysis and comparison of two multiple access schemes. IEEE Trans Wirel Commun 11(1):78–87CrossRef

26.

Eldar YC, Kuppinger P, Bölcskei H (2010) Block-sparse signals: uncertainty relations and efficient recovery. IEEE Trans Signal Process 58(6):3042–3054MathSciNetCrossRef

27.

Candes E, Romberg J (2007) Sparsity and incoherence in compressive sampling. Inverse Problems 23(3):969–985MathSciNetCrossRefMATH

28.

Pati Y, Rezaiifar R, Krishnaprasad P (1993) Orthogonal matching pursuit: recursive function approximation with applications to wavelet decomposition. In: Proceedings of the 27th Asilomar conference on signals, systems & computers, pp 40–44, Pacific Grove

29.

Majumdar A, Ward RK (2009) Fast group sparse classification. Can J Electr Comput Eng 34(4):136–144CrossRef

Titel: Dual-Domain Compressed Sensing Method for Oceanic Environmental Elements Collection with Underwater Sensor Networks
verfasst von: Wenjing Kang
Rui Du
Gongliang Liu
Publikationsdatum: 08.10.2017
Verlag: Springer US
Erschienen in: Mobile Networks and Applications / Ausgabe 2/2018
Print ISSN: 1383-469X
Elektronische ISSN: 1572-8153
DOI: https://doi.org/10.1007/s11036-017-0947-1

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