Title :
Development of a scientific instrument interface module for cabled seafloor observatories based on industrial control technology
Author :
Ruihong Lan ; Yeqing Yue ; Hong Song ; Fengzhong Qu ; Dan Song ; Yingjun Xie ; Yong Cai ; Ying Chen
Author_Institution :
State Key Lab. of Fluid Power Transm. & Control, Zhejiang Univ., Hangzhou, China
Abstract :
Cabled seafloor observatories are subsea infrastructure for real-time, in-situ and 3-dimensional oceanographic observations. Data acquired by cabled seafloor observatories can be used for tsunami/earthquake forecast, environmental monitoring, research on climate change, etc. In our work, a Scientific Instrument Interface Module (SIIM) has been developed for the connection of underwater instruments with various power requirements and communication interfaces. It is a standard device interfacing between instruments and cabled seafloor observatories. Reliability and flexibility are emphasized during the design of SIIM to reduce maintenance cost. With the use of industrial control technology and modular design, the number and type of the instrument ports are configurable according to customer requirements.
Keywords :
climatology; cost reduction; data acquisition; earthquakes; environmental monitoring (geophysics); industrial control; maintenance engineering; oceanographic equipment; reliability; seafloor phenomena; tsunami; underwater equipment; 3D oceanographic observation; SIIM; cabled seafloor observatory; climate change; communication interface; data acquisition; earthquake forecast; environmental monitoring; flexibility; industrial control technology; instrument port; maintenance cost reduction; modular design; power requirements; reliability; scientific instrument interface module; standard device interface; subsea infrastructure; tsunami; underwater instruments; Control systems; Instruments; Observatories; Oceans; Ports (Computers); Power cables; Underwater cables; SIIM; cabled seafloor observatory; flexibility;
Conference_Titel :
Oceans - San Diego, 2013
