Wireless-optical-communication-based cooperative IoT and IoUT system for ocean monitoring applications
This paper proposes the idea of a new cooperative communication between the Internet of Things (IoT) and the Internet of Underwater Things (IoUT) using wireless optical connectivity for ocean monitoring applications. We considered IoT communication using a hybrid radio frequency (RF)/free space opti...
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| Veröffentlicht in: | Applied optics (2004) 2021-10, Vol.60 (29), p.9067-9073 |
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| container_title | Applied optics (2004) |
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| creator | Naik, Ramavath Prasad Simha, G. D. Goutham Krishnan, Prabu |
| description | This paper proposes the idea of a new cooperative communication between the Internet of Things (IoT) and the Internet of Underwater Things (IoUT) using wireless optical connectivity for ocean monitoring applications. We considered IoT communication using a hybrid radio frequency (RF)/free space optical (FSO) link and IoUT using a underwater wireless optical communication (UWOC) link. Channel models for RF, FSO, and UWOC links are considered to be Rayleigh, Malaga with pointing errors, and hyperbolic tangent log-normal distributions, respectively. The outage probability and the bit error rate (BER) expressions for the proposed system are derived over the combined channel model, which includes the effects of attenuation, turbulence, and pointing errors. The BER results are plotted for various binary digital modulation schemes such as on–off keying, binary phase-shift keying, binary frequency-shift keying, and differential phase-shift keying over UWOC, hybrid RF/FSO and RF-UWOC, FSO-UWOC with end-to-end systems. BER results are extended for various turbulence regions and pointing errors of the FSO link. Monte Carlo simulation results authenticate the correctness of the results. |
| doi_str_mv | 10.1364/AO.435887 |
| format | Article |
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D. Goutham ; Krishnan, Prabu</creator><creatorcontrib>Naik, Ramavath Prasad ; Simha, G. D. Goutham ; Krishnan, Prabu</creatorcontrib><description>This paper proposes the idea of a new cooperative communication between the Internet of Things (IoT) and the Internet of Underwater Things (IoUT) using wireless optical connectivity for ocean monitoring applications. We considered IoT communication using a hybrid radio frequency (RF)/free space optical (FSO) link and IoUT using a underwater wireless optical communication (UWOC) link. Channel models for RF, FSO, and UWOC links are considered to be Rayleigh, Malaga with pointing errors, and hyperbolic tangent log-normal distributions, respectively. The outage probability and the bit error rate (BER) expressions for the proposed system are derived over the combined channel model, which includes the effects of attenuation, turbulence, and pointing errors. The BER results are plotted for various binary digital modulation schemes such as on–off keying, binary phase-shift keying, binary frequency-shift keying, and differential phase-shift keying over UWOC, hybrid RF/FSO and RF-UWOC, FSO-UWOC with end-to-end systems. BER results are extended for various turbulence regions and pointing errors of the FSO link. 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D. Goutham</creatorcontrib><creatorcontrib>Krishnan, Prabu</creatorcontrib><title>Wireless-optical-communication-based cooperative IoT and IoUT system for ocean monitoring applications</title><title>Applied optics (2004)</title><description>This paper proposes the idea of a new cooperative communication between the Internet of Things (IoT) and the Internet of Underwater Things (IoUT) using wireless optical connectivity for ocean monitoring applications. We considered IoT communication using a hybrid radio frequency (RF)/free space optical (FSO) link and IoUT using a underwater wireless optical communication (UWOC) link. Channel models for RF, FSO, and UWOC links are considered to be Rayleigh, Malaga with pointing errors, and hyperbolic tangent log-normal distributions, respectively. The outage probability and the bit error rate (BER) expressions for the proposed system are derived over the combined channel model, which includes the effects of attenuation, turbulence, and pointing errors. The BER results are plotted for various binary digital modulation schemes such as on–off keying, binary phase-shift keying, binary frequency-shift keying, and differential phase-shift keying over UWOC, hybrid RF/FSO and RF-UWOC, FSO-UWOC with end-to-end systems. BER results are extended for various turbulence regions and pointing errors of the FSO link. Monte Carlo simulation results authenticate the correctness of the results.</description><subject>Attenuation</subject><subject>Binary phase shift keying</subject><subject>Bit error rate</subject><subject>Communication</subject><subject>Errors</subject><subject>Internet of Things</subject><subject>Monitoring</subject><subject>Monte Carlo simulation</subject><subject>Optical communication</subject><subject>Radio frequency</subject><subject>Turbulence</subject><subject>Underwater communication</subject><subject>Wireless communications</subject><issn>1559-128X</issn><issn>2155-3165</issn><issn>1539-4522</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNpdkM9LwzAYhoMoOKcH_4OAFz1Ek7RJ0-MY_hgMdtnQW0nTL9LRJjVphf33ZmwnT-_Lx8PLx4PQPaPPLJP5y2LznGdCqeICzTgTgmRMiks0S7UkjKuva3QT457STORlMUP2sw3QQYzED2NrdEeM7_vJpTq23pFaR2iw8X6AkC6_gFd-i7VrUu62OB7iCD22PmBvQDvce9eOPrTuG-th6M4z8RZdWd1FuDvnHO3eXrfLD7LevK-WizUxvKQjMYW2WoKpGdWsyJmFWhpeS81qpWzZlJbVTClqGsbrwnJopNUsKxQIJUGwbI4eT7tD8D8TxLHq22ig67QDP8WKC0VlqdJEQh_-oXs_BZe-O1I8TzZpmainE2WCjzGArYbQ9jocKkaro_FqsalOxrM_De504w</recordid><startdate>20211010</startdate><enddate>20211010</enddate><creator>Naik, Ramavath Prasad</creator><creator>Simha, G. 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Goutham</au><au>Krishnan, Prabu</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Wireless-optical-communication-based cooperative IoT and IoUT system for ocean monitoring applications</atitle><jtitle>Applied optics (2004)</jtitle><date>2021-10-10</date><risdate>2021</risdate><volume>60</volume><issue>29</issue><spage>9067</spage><epage>9073</epage><pages>9067-9073</pages><issn>1559-128X</issn><eissn>2155-3165</eissn><eissn>1539-4522</eissn><abstract>This paper proposes the idea of a new cooperative communication between the Internet of Things (IoT) and the Internet of Underwater Things (IoUT) using wireless optical connectivity for ocean monitoring applications. We considered IoT communication using a hybrid radio frequency (RF)/free space optical (FSO) link and IoUT using a underwater wireless optical communication (UWOC) link. Channel models for RF, FSO, and UWOC links are considered to be Rayleigh, Malaga with pointing errors, and hyperbolic tangent log-normal distributions, respectively. The outage probability and the bit error rate (BER) expressions for the proposed system are derived over the combined channel model, which includes the effects of attenuation, turbulence, and pointing errors. The BER results are plotted for various binary digital modulation schemes such as on–off keying, binary phase-shift keying, binary frequency-shift keying, and differential phase-shift keying over UWOC, hybrid RF/FSO and RF-UWOC, FSO-UWOC with end-to-end systems. BER results are extended for various turbulence regions and pointing errors of the FSO link. 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| identifier | ISSN: 1559-128X |
| ispartof | Applied optics (2004), 2021-10, Vol.60 (29), p.9067-9073 |
| issn | 1559-128X 2155-3165 1539-4522 |
| language | eng |
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| source | Alma/SFX Local Collection; Optica Publishing Group Journals |
| subjects | Attenuation Binary phase shift keying Bit error rate Communication Errors Internet of Things Monitoring Monte Carlo simulation Optical communication Radio frequency Turbulence Underwater communication Wireless communications |
| title | Wireless-optical-communication-based cooperative IoT and IoUT system for ocean monitoring applications |
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