Modular ROV control system

A control system and modular technology, applied in the direction of three-dimensional position/channel control, etc., can solve the problems of system reliability and stability reduction, communication network paralysis, hardware board resources limited, etc., to ensure safe work or recycling, strong The effect of error correction and independent judgment ability, high intelligence and fault tolerance

Active Publication Date: 2015-08-19
HARBIN ENG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The control function of this method is relatively centralized and easy to implement, but it has relatively high requirements for the upper-layer processor. When the task increases, the efficiency and reliability of the controller will drop sharply. reduced reliability and stability
The use of centralized control will also make the scalability of the system worse, because the hardware board resources are limited, and once the number of cores of the watertight cable is determined, it cannot be changed at will, which makes the system unable to change the configuration of equipment and sensors at will. number, making the entire system almost non-upgradable
With the increasing difficulty of submarine operations and the increasingly complex missions, underwater robots will need to carry more and more sensors and various devices. The traditional centralized control method will not be able to meet the requirements of the control system.
[0006] Second, because underwater robots have not yet fully entered the industrialization, scientific research institutions traditionally tend to ignore the practical difficulties of front-line developers, and only aim at the realization of functions without considering the working methods and labor costs of development. As far as the software control system is concerned, the traditional software development model is not only difficult to meet the requirements in terms of development efficiency, but also the developed software system is not portable, it is difficult to maintain and upgrade the system, and it is even more difficult to perform flexibly with changes in work tasks. Composition and configuration
[0007] Third, the patent "A Distributed Underwater Robot Control System (CN1622062)", although it also uses a distributed control method, each of its sub-systems cannot arbitrarily access data in other distributed systems in the system, that is, inter-system Data cannot be shared and transmitted in real time and reliably, so the branch systems cannot work together efficiently and quickly
Since RS-485 only has a physical layer without hardware communication protocol, its communication protocol completely depends on the support of software, which increases the burden of system communication software; If it works in a multi-master mode, the reliability of its communication is inversely proportional to the load of the communication network
Especially when the system nodes work in multiple communication modes, the communication error rate and retransmission rate will double with the increase of network load, which may eventually lead to the paralysis of the entire communication network

Method used

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Experimental program
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Effect test

Embodiment 1

[0035] Implementation 1: If figure 1 As shown, the modular ROV control system includes a remote communication system, a motion planning processor, an attitude detection system, a robotic arm motion control system, a thruster control system, a video acquisition system, an underwater lighting control system, a hydraulic control system, an underwater surveillance system. The remote communication system is used to receive commands sent by the surface controller, and at the same time collect data from various sub-systems underwater for upload. The motion planning processor makes a comprehensive judgment based on the current state of the system and the commands sent by the water surface controller, and reasonably plans the motion control of the ROV. The position and attitude detection system is used to detect the attitude and depth of the ROV body. Information such as movement speed and underwater position. The robot arm motion control system controls the underwater master-slave ...

Embodiment 2

[0036] Implementation 2: If figure 2 As shown, according to the requirements of the operational ROV control system, the structure of the motion planning processor is divided into four parts: monitoring layer, control layer, execution layer, and data management layer. The main tasks are: data communication with various sensors, thrusters, manipulators and surface equipment; sensor data processing, dynamic positioning control and operation control.

Embodiment 3

[0037] Implementation 3: If image 3 As shown, the attitude detection system adopts dual CPU control mode. The ARM processor is used to collect the data information of the depth gauge, altimeter and ultra-short baseline, and the data collection speed is not high. At the same time, the processor is also responsible for sending data to the control system network and receiving commands. In addition, it also has the functions of important parameter setting and important data storage. The DSP processor has the function of high-speed calculation. Using it to collect and fuse the data of the attitude acquisition system and the Doppler current meter, the attitude of the ROV in three-dimensional space and the relative position underwater can be calculated in real time.

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Abstract

The invention relates to the technical field of underwater robots, and particularly relates to a deep ocean work-type modular ROV control system, which comprises a remote communication system, a motion planning processor, a gesture detection system, a manipulator motion control system, a propeller control system, a video acquisition system, an underwater light control system, a hydraulic control system, and an underwater monitoring system, wherein the remote communication system is used for receiving an order sent by a water surface controller, acquiring data of each underwater subsystem and uploading the data; and the motion planning processor carries out integrated judgment and reasonably plans ROV motion control according to the current system state and the order sent by the water surface controller. The problem that the system is low in automation is solved; a correction and automatic judgment ability is strong; when each sub part of the system is wrong, other sub parts can cooperate mutually, safety work or recovery of the system can be ensured, and intelligence is high, and the fault tolerance ability is high.

Description

technical field [0001] The invention relates to the technical field of underwater robots, in particular to a modularized ROV control system for deep sea operations. Background technique [0002] With the decrease of non-renewable resources on land, the development and utilization of marine resources has become more and more obvious in promoting human development and social progress. The development of marine resources such as oil and natural gas extends from the offshore to the deep sea. Because of its safety, efficiency, large operating depth, and ability to work underwater for a long time, underwater robots are increasingly becoming an important tool for the development of marine resources, especially for deep-sea exploration and deep-sea research. Operational ROV has become a research hotspot all over the world. Deep-sea operating ROV has developed rapidly because of its advantages such as good economy, high flexibility in launching and discharging, good environmental ad...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05D1/10
Inventor 魏延辉刘合伟周星合于园园杨子扬贾献强高苇杭胡佳兴
Owner HARBIN ENG UNIV
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