Autonomous underwater vehicle based on optical fiber communication buoy

An underwater vehicle, optical fiber communication technology, applied in buoys, underwater ships, underwater operation equipment, etc., can solve problems such as inability to transmit large-capacity information in real time, effective optical fiber or cable length, operation difficulty and cost increase. , to achieve the effect of improving operation efficiency and target recognition rate, improving operation range, improving water safety performance and detection efficiency

Active Publication Date: 2021-05-28
中国船舶重工集团有限公司第七一0研究所
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, for aircraft with limited size and weight, the installed underwater acoustic communication has small size, narrow transmission bandwidth, low transmission rate, and is greatly affected by the underwater acoustic environment underwater, making it impossible to transmit large-capacity information in real time , can only monitor the underwater state of the aircraft and transmit information in some specific cases, such as emergency treatment through underwater acoustic communication
Autonomous unmanned underwater vehicles can only use dedicated communication interfaces or wireless data downloads after recovery for post-analysis and processing, which is inefficient for tasks that require timely processing and manual confirmation of target information
If optical fibers or cables are added to the aircraft, it is necessary to equip an operating mothership to follow the aircraft to carry out underwater operations. For places with complex or shallow waters, the difficulty and cost of the operation will be greatly increased, which will affect the efficiency of the operation, and the increased optical fiber or cable length valid

Method used

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  • Autonomous underwater vehicle based on optical fiber communication buoy
  • Autonomous underwater vehicle based on optical fiber communication buoy
  • Autonomous underwater vehicle based on optical fiber communication buoy

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0039] This embodiment provides an autonomous underwater vehicle based on an optical fiber communication buoy. Through the real-time communication between the optical fiber communication buoy equipped with a high-speed wireless transmission device and the control system or the operation mother ship, it can solve the problem that the general underwater autonomous vehicle cannot be used in a timely manner. Capacity transmission information, tail cable containment, information processing is not timely, information download needs to recover the aircraft and other issues.

[0040] like figure 2 As shown, the autonomous underwater vehicle based on the optical fiber communication buoy includes: the optical fiber communication buoy 15 and the vehicle body 14; A whole; when the autonomous vehicle reaches the set water area and needs to communicate, the optical fiber communication buoy 15 is detached from the aircraft body 14. After the optical fiber communication buoy is released, it fl...

Embodiment 2

[0056] On the basis of the above-mentioned Embodiment 1, this embodiment provides a specific implementation manner of the release mechanism 11 and the buoy connector 13:

[0057] like Figure 4 As shown, the release mechanism 11 includes a motor adapter 18, a spring 19 and a steel ball 20;

[0058] The motor 10 is a linear motor, the motor adapter 18 is a hollow cylindrical structure (ie a sleeve), one end of which is fixedly connected to the motor 10 (the fixing seat of the motor 10 ), and the motor output shaft 21 extends into the motor adapter 18 In the center hole of the motor adapter 18, it can move along the axial direction of the motor adapter 18, and the front end of the motor output shaft 21 is a tapered structure; the other end of the motor adapter 18 passes through the installation hole on the end cover 17, and the motor adapter 18 and the mounting hole on the end cover 17 are sealingly matched by a sealing ring, and the motor adapter 18 is fixed to the end cover 1...

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Abstract

The invention discloses an autonomous underwater vehicle based on an optical fiber communication buoy, belonging to the technical field of communication buoys. Through the real-time communication between the optical fiber communication buoy equipped with high-speed wireless transmission equipment and the control system or the operating mother ship, real-time and large-capacity transmission of the detected information can be realized, and it can get rid of the constraints of optical fibers or cables. The autonomous underwater vehicle includes a vehicle body and an optical fiber communication buoy; the optical fiber communication buoy is detachably installed on the aircraft body, and the optical fiber communication buoy is connected to the underwater vehicle body through an optical fiber for signal transmission; The communication buoy is equipped with high-speed wireless communication equipment consisting of an antenna and a circuit board of a high-speed wireless transmission station; when the autonomous vehicle arrives at the set water area and needs to communicate, the optical fiber communication buoy is separated from the aircraft body, and the optical fiber communication buoy floats to the water surface. High-speed wireless communication equipment realizes real-time communication between the aircraft body and the shore-based control system / operating mother ship.

Description

technical field [0001] The invention relates to an autonomous underwater vehicle, in particular to an autonomous underwater vehicle based on an optical fiber communication buoy, and belongs to the technical field of underwater vehicles. Background technique [0002] Autonomous unmanned underwater vehicles use their own energy and various detection equipment to complete marine exploration activities such as marine environment parameter acquisition, marine environment monitoring, underwater reconnaissance and communication, underwater target detection, identification and positioning, and underwater target search. In recent years, with the development of sensor technology and information technology, underwater vehicles have attracted more and more attention from various countries, and have become a hot spot in the development of marine engineering, which has further promoted the development of autonomous unmanned underwater vehicles towards intelligence, integration and precisio...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B63G8/00B63B22/08
CPCB63B22/08B63G8/001B63G2008/004B63G2008/005
Inventor 张亚军周迪锋齐彦生王光越胡测王永东唐娟胡必文崔峰
Owner 中国船舶重工集团有限公司第七一0研究所
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