Apparatus and method for providing obstacle information in autonomous mobile vehicle
First Claim
1. An apparatus for providing obstacle information in an autonomous mobile vehicle, the apparatus comprising:
- a laser distance sensor disposed in a center of a front of the autonomous mobile vehicle and configured to detect a target object placed ahead of the autonomous mobile vehicle;
a sensor driving device configured to drive an elevation angle of the laser distance sensor;
a controller configured to control the sensor driving device;
a plurality of radars disposed on a lower front side of the autonomous mobile vehicle and configured to detect the target object ahead of the autonomous mobile vehicle; and
an operation unit disposed within the autonomous mobile vehicle and configured to perform specific data processing,wherein the operation unit comprises;
a sensor control unit configured to control the laser distance sensor through the controller;
a command generation unit configured to generate a series of commands according to operating environments of the autonomous mobile vehicle;
a laser distance sensor data acquisition unit connected to the laser distance sensor and configured to receive distance data for each angle therefrom;
a laser distance sensor data conversion unit configured to convert the distance data for each angle, received from the laser distance sensor, into virtual distance sensor data having a range of 360°
;
a radar data acquisition unit connected to the plurality of radars and configured to receive distance data for each angle;
a radar data conversion unit configured to convert the distance data for each angle, received from the radars, into virtual distance sensor data having the range of 360°
;
a data combination and generation unit configured to determine whether the target object exists by comparing the converted distance data for each of all the angles, received from the laser distance sensor, and the converted distance data for each of all the angles, received from the radars, if, as a result of the determination, the target object is determined to exist, storing the converted distance data for the angles, received from the radars, and if, as a result of the determination, the target object is determined not to exist, storing the converted virtual distance sensor data and generates distance data for each of the angles; and
a transmission unit configured to send the generated distance data for the angles to a collision avoidance unit of the autonomous mobile vehicle; and
wherein the laser distance sensor data acquisition unit compares the distance data for each of angles between 0° and
100°
, received from the laser distance sensor, calculates an inclination of the target object based on results of the comparison, if the inclination for each angle is smaller than a specific reference value, stores a greatest value from among the distance data for the angle as a distance value of the corresponding angle, and if the inclination for each angle is greater than the specific reference value, stores a smallest value from among the distance data for each angle as a distance value of the corresponding angle.
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Abstract
An apparatus for providing obstacle information in an autonomous mobile vehicle and a method thereof, in which a target object is determined to be what obstacle by combining pieces of information received from a laser distance sensor and radars, thereby enabling the autonomous driving of a vehicle. The apparatus and method for providing obstacle information in an autonomous mobile vehicle, which is capable of providing robust obstacle information not only in environments normal times, but also dust environments by combining a laser distance sensor and radars. A problem that an obstacle through which a mobile unit can pass, such as dust, is mistaken for an obstacle through which the mobile unit cannot pass can be solved.
46 Citations
8 Claims
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1. An apparatus for providing obstacle information in an autonomous mobile vehicle, the apparatus comprising:
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a laser distance sensor disposed in a center of a front of the autonomous mobile vehicle and configured to detect a target object placed ahead of the autonomous mobile vehicle; a sensor driving device configured to drive an elevation angle of the laser distance sensor; a controller configured to control the sensor driving device; a plurality of radars disposed on a lower front side of the autonomous mobile vehicle and configured to detect the target object ahead of the autonomous mobile vehicle; and an operation unit disposed within the autonomous mobile vehicle and configured to perform specific data processing, wherein the operation unit comprises; a sensor control unit configured to control the laser distance sensor through the controller; a command generation unit configured to generate a series of commands according to operating environments of the autonomous mobile vehicle; a laser distance sensor data acquisition unit connected to the laser distance sensor and configured to receive distance data for each angle therefrom; a laser distance sensor data conversion unit configured to convert the distance data for each angle, received from the laser distance sensor, into virtual distance sensor data having a range of 360°
;a radar data acquisition unit connected to the plurality of radars and configured to receive distance data for each angle; a radar data conversion unit configured to convert the distance data for each angle, received from the radars, into virtual distance sensor data having the range of 360°
;a data combination and generation unit configured to determine whether the target object exists by comparing the converted distance data for each of all the angles, received from the laser distance sensor, and the converted distance data for each of all the angles, received from the radars, if, as a result of the determination, the target object is determined to exist, storing the converted distance data for the angles, received from the radars, and if, as a result of the determination, the target object is determined not to exist, storing the converted virtual distance sensor data and generates distance data for each of the angles; and a transmission unit configured to send the generated distance data for the angles to a collision avoidance unit of the autonomous mobile vehicle; and wherein the laser distance sensor data acquisition unit compares the distance data for each of angles between 0° and
100°
, received from the laser distance sensor, calculates an inclination of the target object based on results of the comparison, if the inclination for each angle is smaller than a specific reference value, stores a greatest value from among the distance data for the angle as a distance value of the corresponding angle, and if the inclination for each angle is greater than the specific reference value, stores a smallest value from among the distance data for each angle as a distance value of the corresponding angle.- View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of providing obstacle information in an autonomous mobile vehicle, the comprising the steps of:
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generating a virtual distance sensor capable of detecting a range of 360°
of the autonomous mobile vehicle;receiving distance data for each of the angles from a laser distance sensor and radars; converting the distance data for each angle, received from the laser distance sensor, into data based on the virtual distance sensor; resetting the data of the virtual distance sensor to the distance data for each angle received from the radars; determining whether a target object exists by comparing the converted distance data for each of the angles and the distance data for each of the angles, reset in the virtual distance sensor, if, as a result of the determination, the target object is determined to exist, storing the distance data reset in the virtual distance sensor, and if, as a result of the determination, the target object is determined not to exist, storing the distance data converted into the virtual distance sensor data; sending the stored distance data for the angles to a collision avoidance unit of the autonomous mobile vehicle; wherein the step of receiving the distance data for each of the angles from the laser distance sensor includes the steps of; comparing the distance data for each of angles between 0° and
100°
, received from the laser distance sensor;calculating an inclination of the target object based on results of the comparison; if the inclination for each angle is smaller than a specific reference value, storing a greatest value from among the distance data for the angle as a distance value of the corresponding angle; and if the inclination for each angle is greater than the specific reference value, storing a smallest value from among the distance data for each angle as a distance value of the corresponding angle.
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Specification