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FITEE
Front. Inform. Technol. Electron. Eng.  2018, Vol. 19 Issue (11): 1328-1339    DOI:
    
Use of a coded voltage signal for cable switching and fault isolation in cabled seafloor observatories  
Zhi-feng ZHANG, Yan-hu CHEN, De-jun LI, Bo JIN, Can-jun YANG, Jun WANG
State Key Laboratory of Fluid Power and Mechatronic Systems, Zhejiang University, Hangzhou 310027, China
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Abstract  Cabled seafloor observatories play an important role in ocean exploration for its long-term, real-time, and in-situ ob-
servation characteristics. In establishing a permanent, reliable, and robust seafloor observatory, a highly reliable cable switching
and  fault  isolation  method  is  essential.  After  reviewing  the  advantages  and  disadvantages  of  existing  switching  methods,  we
propose a novel active switching method for network configuration. Without additional communication path requirements, the
switching method provides a way to communicate with a shore station through an existing power transmission path. A coded
voltage signal with a distinct sequence is employed as the communication medium to transmit commands. The analysis of the
maximum  bit  frequency  of  the  voltage  signals  guarantees  the  accuracy  of  command  recognition.  A  prototype  based  on  the
switching method is built and tested in a laboratory environment, which validated the functionality and reliability of the method.

Key wordsCabled seafloor observatories      Cable switching and fault isolation      Coded voltage signal      Maximum bit frequency     
Received: 20 December 2016      Published: 13 June 2019
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Zhi-feng ZHANG
Yan-hu CHEN
De-jun LI
Bo JIN
Can-jun YANG
Jun WANG
Cite this article:

Zhi-feng ZHANG, Yan-hu CHEN, De-jun LI, Bo JIN, Can-jun YANG, Jun WANG. Use of a coded voltage signal for cable switching and fault isolation in cabled seafloor observatories   . Front. Inform. Technol. Electron. Eng., 2018, 19(11): 1328-1339.

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http://www.zjujournals.com/xueshu/fitee/     OR     http://www.zjujournals.com/xueshu/fitee/Y2018/V19/I11/1328


Use of a coded voltage signal for cable switching and fault isolation in cabled seafloor observatories

Cabled seafloor observatories play an important role in ocean exploration for its long-term, real-time, and in-situ ob-
servation characteristics. In establishing a permanent, reliable, and robust seafloor observatory, a highly reliable cable switching
and  fault  isolation  method  is  essential.  After  reviewing  the  advantages  and  disadvantages  of  existing  switching  methods,  we
propose a novel active switching method for network configuration. Without additional communication path requirements, the
switching method provides a way to communicate with a shore station through an existing power transmission path. A coded
voltage signal with a distinct sequence is employed as the communication medium to transmit commands. The analysis of the
maximum  bit  frequency  of  the  voltage  signals  guarantees  the  accuracy  of  command  recognition.  A  prototype  based  on  the
switching method is built and tested in a laboratory environment, which validated the functionality and reliability of the method.

关键词: Cabled seafloor observatories,  Cable switching and fault isolation,  Coded voltage signal,  Maximum bit frequency 
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