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Underwater Optical Sensor Network

Underwater Optical Sensor Network. Max Ruiz Professor Cody Youngbull NASA Space Grant. Abstract. Large potential for high speed underwater communication using optical networks Sensor technology is expanding in oceanography, geology, and defense systems

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Underwater Optical Sensor Network

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  1. Underwater Optical Sensor Network Max Ruiz Professor Cody Youngbull NASA Space Grant

  2. Abstract • Large potential for high speed underwater communication using optical networks • Sensor technology is expanding in oceanography, geology, and defense systems • “Sensorbot” nodes are being designed to operate in multi-hop networks • Each node records a set of data and uses optical transmission to communicate.

  3. System Requirements • Multi-hop network • Much like Cellphones today • Communication through optics • Analog filter design • Necessary for receiving data • Digital filter design • Microprocessors and FPGA

  4. Approach • Communication • Set baud rate (115.2k) • Employ communication protocol: IrDA • Filtering • Analog filter with large Signal to Noise Ratio • Digital filtering applies statistical filtering • Exhibit bit correction for very small bit error

  5. Future work • Solid communication platform established • Implement sensors • Devise sustainable power systems to increase life

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