Indoor robot navigation system and method

An indoor robot and navigation system technology, applied in the field of indoor robot navigation system, can solve the problems of low practicability and no consideration of dynamic obstacles, and achieve the effect of high practicability

Inactive Publication Date: 2016-09-21
SUGAN TECH BEIJING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the disadvantage of the existing robot navigation system is that the static path planning algorithm of the robot navigation system completely relies on the static global map for path planning, and does not consider dynamic obstacles, so the practicability is not high

Method used

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  • Indoor robot navigation system and method
  • Indoor robot navigation system and method

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Experimental program
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Embodiment 1

[0022] combine figure 1 , this embodiment provides an indoor robot navigation system 100, applied to a robot, including;

[0023] Human-computer interaction device 1: used to receive the coordinates of the end position of the robot and the attitude information of the end position of the robot input by the user;

[0024] Data acquisition device 2: used to obtain the current position coordinates of the robot and the current position and posture information of the robot;

[0025] The data analysis device 3 is configured to use the first algorithm to generate a cost between the current point and the end point according to the end point position coordinates, the end point position and attitude information, the current position coordinates, the current position and attitude information, and the pre-acquired two-dimensional global static map Minimum global reference path;

[0026] The data acquisition device 2 is also used to update the local area map within a fixed radius from the...

Embodiment 2

[0055] combine figure 2 , this embodiment provides an indoor robot navigation method applied to a robot, including;

[0056] Step S1: The human-computer interaction device 1 receives the end position coordinates of the robot and the attitude information of the end position of the robot input by the user;

[0057] Step S2: the data acquisition device 2 acquires the current position coordinates of the robot and the current position and posture information of the robot;

[0058] Step S3: The data analysis device 3 uses the first algorithm to generate a cost between the current point and the end point according to the end point position coordinates, the end point position and attitude information, the current position coordinates, the current position and attitude information, and the pre-acquired two-dimensional global static map Minimum global reference path;

[0059] Step S4: The data acquisition device 2 updates the local area map within a fixed radius from the robot in rea...

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Abstract

The invention provides an indoor robot navigation system and method. The system comprises a man-machine interaction device, a data collection device and a data analysis device; the man-machine interaction device receives terminal-point position coordinate and terminal-point position attitude information input by a user; the data collection device obtains preset position coordinate and present position attitude information, updates a local area map in real time, and obtains a corresponding second coordinate of a dynamic barrier in a 2D global static map via coordinate transformation; and the data analysis device generates a global reference path via a first algorithm, and plans an optimal speed vector of a robot in next time by utilizing a second algorithm to obtain the optimal speed vector, and thus, the robot moves according to the optimal speed vector. The indoor robot navigation system and method are higher in practicality.

Description

technical field [0001] The invention relates to a robot navigation system and method in the field of artificial intelligence and automation, in particular to an indoor robot navigation system and method. Background technique [0002] Navigation technology is a method of guiding a certain device to move from the current starting point to the ending point of the specified route. Navigation technology has broad application prospects in transportation, home services, military fields, etc., and it is also one of the hot research technologies at present. In terms of transportation, navigation technology can be used to realize the autonomous driving of unmanned vehicles and avoid obstacles, and can also complete intelligent logistics scheduling in large warehouses; in terms of home services, it can help small robots like sweeping robots complete Indoor fixed-point movement; in the military field, navigation technology can be used in fixed-point strikes of missiles, fixed-point pat...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05D1/02
CPCG05D1/0255G05D2201/0207
Inventor 杭蒙陈震朱骋王皓月李经纬蒋申璐杨永全任海波杜新鹏
Owner SUGAN TECH BEIJING
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