Audio-visual detection system and method of robot under whole-sea deep water

A detection system and robot technology, applied in closed-circuit television systems, radio wave measurement systems, underwater operation equipment, etc., can solve the problems of slow uploading of image information, low quality of compressed images, and poor image compression performance, so as to increase the speed, The effect of good image compression quality and fast conversion speed

Pending Publication Date: 2019-07-19
HARBIN ENG UNIV
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Problems solved by technology

However, the traditional image compression performance is poor, the compressed image quality is low, a

Method used

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  • Audio-visual detection system and method of robot under whole-sea deep water
  • Audio-visual detection system and method of robot under whole-sea deep water
  • Audio-visual detection system and method of robot under whole-sea deep water

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Embodiment Construction

[0032] The following examples describe the present invention in more detail.

[0033] combine figure 1 , the full-sea deep underwater robot audio-visual detection system of the present invention comprises a buoy 1, an underwater acoustic communication sonar 4, a full-sea deep glass ball pressure chamber 5, two full-sea deep lights 6 and 7, and two full-sea depth cameras 8 And 9, microphone 10, audio-visual data acquisition module 11, image compression processing module 12, main control module 13 and altimeter 14.

[0034] Underwater acoustic communication sonar 4, full-depth glass ball pressure chamber 5, two full-depth lights 6 and 7, two full-depth cameras 8 and 9, microphone 10, audio-visual data acquisition module 11, image compression processing module 12. The main control module 13 and the altimeter 14 are installed in the underwater robot body 3; the buoy 1 is composed of GPS and communication sonar; the deep-sea glass ball pressure chamber 5 is composed of upper and l...

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Abstract

The invention provides an audio-visual detection system and method of a robot under whole-sea deep water. The audio-visual detection system comprises a buoy, underwater sound communication sonar, a compressive cabin, alighting lamp, a camera, a microphone, an altimeter, an audio-visual data acquisition module, an image compression processing module and a main control module. The compressive cabininputs electrical signals to the lighting lamp, the camera and the microphone through watertight wires, and the camera and the microphone transmit video image signals and sound signals back to the audio-visual data acquisition module. The image compression processing module is in TCP/IP full-duplex communication with the main control module, the main control module is in serial communication withthe underwater sound communication sonar, the underwater sound communication sonar is in semi-duplex underwater sound communication with the buoy, and the buoy is in radio communication with a mothership. According to the audio-visual detection system and method of the robot under the whole-sea deep water, the underwater robot is enabled to collect image, video and audio information from shallowsea to a depth of 11,000m, an improved wavelet transform image compression algorithm is used for compressing an image, and the image is transmitted to the buoy by underwater sound communication and transmitted to the mother ship by radio.

Description

technical field [0001] The invention relates to an underwater robot detection system, and the invention also relates to an underwater robot detection method. Background technique [0002] As the world's population continues to grow, the available resources on land are drastically reduced due to excessive exploitation. Therefore, the ocean, which is rich in resources, attracts people's attention. Today, marine space and resources have become the field of economic competition in the world today, and have also become a strategic base for the prosperity of a coastal country and nation. In order to develop marine resources and explore the unknown environment of the ocean, countries all over the world are actively developing ocean detectors. With the continuous attempts of countless scientists, the concept of underwater robots has become known. At present, underwater robots are divided into manned underwater robots and unmanned underwater robots, and unmanned underwater robots ...

Claims

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Application Information

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IPC IPC(8): G01S15/88B63C11/52H04N7/18
CPCG01S15/88B63C11/52H04N7/183
Inventor 盛明伟李俊李岳明秦洪德李晔曹建刘奕晖唐松奇
Owner HARBIN ENG UNIV
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