KR101643751B1 - Robot with object tracking function - Google Patents

Abstract

The present invention relates to a robot capable of following an object, A traveling driving unit for traveling the robot body; A transmitter configured to transmit the set signal information held by the object to be tracked; A receiving unit installed in the robot main body and capable of communicating with the transmitting unit so as to receive signal information transmitted from the transmitting unit; A distance measuring unit installed on the robot body and measuring a distance between the robot body and the object; And a controller for controlling the travel driving unit to move the robot body to a point adjacent to the object when the transmitter is out of the receiving unit by a predetermined distance or more.
The robot capable of following the object according to the present invention confirms whether the object is an object to be tracked by using the RFID information received from the RFID tag possessed by the object, and if the object is the object to be tracked, So that the object can be tracked smoothly by controlling the object to be maintained at a constant distance from the object.
In addition, the robot capable of following the object according to the present invention reduces the noise of a sound source input in real time, continuously tracks the direction in which the current sound source occurs while considering the execution time of the sound source, The motion of the robot can be efficiently controlled.
The robot capable of following the object according to the present invention uses a filter to remove noise from the sound source, calculates the intensity of an input sound source input to the microphone, selects two microphones having a large intensity, calculates a time difference only in the selected channel By reducing the execution time of the sound source tracking, the position of the sound source can be constantly and quickly checked and updated, and the reliability of the system can be improved.

Description

Robot with object tracking function {Robot with object tracking function}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a robot having an object tracking function, and more particularly, to a robot having an object tracking function capable of continuously following a moving object at a predetermined distance.

Various types of applications have been developed due to the dramatic improvement of the robot's autonomous driving technology, and they are in the commercialization stage, but the driving and user interaction with the robot still remain at a low level.

User follow-up technology is a combination of interaction with user and driving technology, and it is convenient because it can receive various services from a user's perspective. For example, you can give a way, you can carry things with you, and so on.

Conventional techniques for realizing this are mostly using a very expensive laser scanner and image processing, which is disadvantageous in terms of commercialization.

In other words, in general, human recognition technology using image increases the cost of construction and requires a complicated image recognition algorithm. In addition, in the robot system in which the image is followed, the distance, the angle measurement and the human shape There is a problem that it is difficult to recognize.

In addition, there is a difficulty in estimating the position of a person even if the person following the robot is out of the recognition range of the robot, and the position and distance can be corrected through a precision scanner. However, have.

KR 10-2013-0045999 A KR 10-2013-0122231 A KR 10-2009-0030158 A

SUMMARY OF THE INVENTION The present invention has been made to solve the above conventional problems, and it is an object of the present invention to recognize an object using identification ID information provided in a moving object, follow the recognized object at a certain distance The object of the present invention is to provide a robot having an object tracking function.

According to an aspect of the present invention, there is provided a robot having an object tracking function, including: a robot body capable of traveling; A traveling driving unit for traveling the robot body; A transmitter configured to transmit the set signal information held by the object to be tracked; A receiving unit installed in the robot main body and capable of communicating with the transmitting unit so as to receive signal information transmitted from the transmitting unit; A distance measuring unit installed on the robot body and measuring a distance between the robot body and the object; And a controller for controlling the travel driving unit to move the robot body to a point adjacent to the object when the transmitter is out of the receiving unit by a predetermined distance or more.

The transmitter includes an RFID tag provided with an RFID, and the receiver includes an RF receiver for receiving RFID information transmitted from the RFID tag.

The transmitting unit includes a sound source generating unit for sending out a set sound source. The receiving unit includes a plurality of sound source acquiring units for acquiring sound sources sent from the sound source generating unit, a noise generating unit for reducing noise of the sound sources acquired by the sound acquiring unit, A sound source directing unit for detecting a start and an end of a sound source in a sound source whose noise is reduced through the noise canceling unit, a sound source direction recognizing unit for recognizing the direction of the sound source based on the energy and time difference of the sound source, And an azimuth angle detector for calculating the azimuth angle of the direction recognized by the sound source direction recognizer and sending azimuth information to the controller.

Wherein the control unit further comprises a buzzer for transmitting an alarm and the control unit is further configured to control the buzzer when the distance between the receiving unit and the transmitting unit is greater than a predetermined reference distance and the state in which the receiving unit and / And controls the buzzer to be operated when it exceeds a predetermined value.

The robot capable of following the object according to the present invention confirms whether the object is an object to be tracked by using the RFID information received from the RFID tag possessed by the object, and if the object is the object to be tracked, So that the object can be tracked smoothly by controlling the object to be maintained at a constant distance from the object.

In addition, the robot capable of following the object according to the present invention reduces the noise of a sound source input in real time, continuously tracks the direction in which the current sound source occurs while considering the execution time of the sound source, The motion of the robot can be efficiently controlled.

The robot capable of following the object according to the present invention uses a filter to remove noise from a sound source, calculates the intensity of an input sound source input to the microphone, selects two microphones having a large intensity, calculates a time difference only in a selected channel By reducing the execution time of the sound source tracking, the position of the sound source can be constantly and quickly checked and updated, and the reliability of the system can be improved.

1 is a perspective view schematically illustrating a robot having an object tracking function according to the present invention.
2 is a block diagram showing a configuration of a robot having an object tracking function according to the present invention.
3 is a block diagram showing a robot having an object tracking function further comprising an RFID tag and an RF receiver.
4 is a block diagram of another embodiment of a robot having an object tracking function according to the present invention.
FIG. 5 is a schematic view for explaining a method of calculating a direction of a sound source generating unit through a sound source obtaining unit of a robot having an object tracking function shown in FIG. 4;

Hereinafter, a robot having an object tracking function according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to FIG. 1, a robot having an object tracking function according to the present invention will be described in detail. 1 to 4, a robot having an object tracking function according to the present invention includes a robot body 10, a travel driving unit 20, a transmitter 30, a receiver 40, a distance measuring unit 50, and a control unit 60. [

The robot main body 10 is provided with a traveling wheel at a lower portion thereof so as to be able to travel, and a loading portion is provided at an upper portion thereof for loading objects.

The travel driving unit 20 is configured to travel the robot body 10 and includes a traveling drive motor that rotates the traveling wheels provided on the robot body 10 in both forward and reverse directions.

The transmitter 30 is carried by an object (an operator in this embodiment), and is configured to transmit set signal information. The transmitter 30 is preferably formed to be worn on the hand, arm, leg or waist. The object may be a person to be followed or another robot to be a follower.

The transmitter 30 includes an RFID tag 31 to which an independent identification ID is assigned, that is, an RFID tag, and a sound generator 32 for transmitting a sound source having a predetermined frequency band.

The RFID tag 31 may be a passive tag driven by electric power transmitted from a reader, but it is needless to say that an active tag can be applied.

The sound source generating unit 32 may include only a single frequency or may include a plurality of different frequencies.

The receiving unit 40 is installed in the robot body 10 and is capable of communicating with the transmitting unit 30 so as to receive signal information transmitted from the transmitting unit 30.

The reception unit 40 includes an RF receiver 41 for receiving RFID information transmitted from the RFID tag 31 and a plurality of sound source acquisition units 42 for acquiring sound sources transmitted from the sound source generation unit 32. [ A noise removing unit 43 for reducing the noise of the sound source obtained by the sound source obtaining unit 42, and a noise removing unit 43 for dividing the beginning and the end of the sound source by the noise reduction unit 43, A sound source direction recognizing unit 45 for recognizing the direction of the sound source on the basis of the energy and time difference of the sound source for which the noise is reduced; a sound source direction recognizing unit 45 for detecting an azimuth angle of the direction recognized by the sound source direction recognizing unit 45; And an azimuth angle detection unit 46 for transmitting the azimuth information to the control unit 60.

The RF receiver 41 applies a conventional RFID reader and transmits radio waves of a set frequency so as to read information from the RFID tag 31.

The sound source acquiring unit 42 may be implemented by two microphones. The plurality of microphones are disposed on the left and right sides of the robot body 10 at equal distances from the center of the front surface of the robot body 10.

The noise removing unit 43 removes noise other than the frequency band corresponding to the frequency of the sound source transmitted from the sound source transmitting unit to remove the noise, thereby increasing the recognition rate of the sound source direction in the sound source direction recognizing unit 45 .

The noise removing unit 43 removes noise by applying a filter (for example, a Kalman filter) to the sound source obtained through a plurality of microphones in real time in the sound source obtaining unit 42 and transmitted.

The above Kalman filter detects a good result even in a weak signal when a slight reception error occurs due to an obstacle. In addition, this filter is excellent in separation of signal and noise, and can prevent jumping of instantaneous position, and is used to stably detect accurate position, speed, and time.

The sound source director unit 44 detects a start point and an end point of the sound source from the sound source whose noise is reduced by the noise remover 43. The detection result of the precise starting point of the sound source detector 44 is very important in signal processing such as signal analysis, synthesis, coding and the like.

In particular, in the present invention, accurately extracting the start and end points of a signal greatly affects the performance of the time difference calculation. Therefore, the energy used for detecting the start and end points of the signal in real time, and the threshold for extracting the generation period of the signal are optimized values through the repetitive sound source tracking process.

Hereinafter, a sound source estimation process for obtaining a threshold value will be described. A threshold value is obtained for each of a plurality of pre-recorded signals in various situations according to the surrounding environment (for example, a quiet environment, a noisy environment, etc.) The average value, that is, the threshold value, is calculated. Therefore, the sound source detector 44 of the present invention calculates the interval energy for each frame of the voice signal received in real time, recognizes the start point of the signal if it is greater than the threshold value, Then, if the interval energy value is smaller than the threshold value, it is recognized as the end point of the signal.

The sound source direction recognizing unit 45 includes a sound source intensity extracting unit for extracting the intensity of the energy of the sound source, and a time difference calculating unit.

The sound source intensity extraction unit calculates the intensity of a signal using the section energy information. The time difference calculation unit determines two microphones in order of great intensity among the plurality of microphones. Then, Calculate the difference between the start time and end time of the signal.

The azimuth angle detector 46 determines the angle of the sound generator 32 with respect to the reference line with a time difference determined by the time difference calculator. At this time, the reference line as a reference is set on the basis of the direction that the robot main body 10 is looking at. For example, when the starting point or ending point of the sound source signal obtained in the microphone located on the right side of the starting point or the ending point of the sound source signal acquired in the left side microphone is late in time, the sound source generating unit 32 generates, And the detailed process can be calculated based on the amplitude information of the sound source signal, the traveling speed information, the distance information between the microphones and the sound generator 32, and the like.

The distance measuring unit 50 is installed on the robot body 10 to measure a distance between the robot body 10 and the object. The distance measuring unit 50 may be an ultrasonic distance measuring apparatus using ultrasonic waves.

The control unit 60 controls the travel driving unit 20 to move the robot body 10 to a position adjacent to the object when the transmitter 30 moves away from the receiver 40 by a predetermined distance . The control unit 60 adjusts the direction of the robot body 10 based on the reference line based on the azimuth angle detected by the azimuth detection unit 46.

The robot having the object tracking function according to the present invention may further include a buzzer 35 for sending an alarm to the transmitter 30. The control unit 60 determines whether the distance between the receiving unit 40 and the transmitting unit 30 is equal to or greater than a predetermined reference distance and when the receiving unit 40 and the transmitting unit 30 are separated from each other by more than the reference distance And controls the buzzer 35 to operate when the reference time exceeds the set reference time. The receiving unit 40 can transmit a control signal for operating the buzzer 35 to the transmitting unit 30 and can receive a control signal transmitted from the receiving unit 40 to the transmitting unit 30 Respectively.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be appreciated that other embodiments are possible.

Therefore, the scope of the true technical protection of the present invention should be determined by the technical idea of the appended claims.

10: Robot main body
20:
30:
31: RFID tag
32: sound source generating unit
35: buzzer
40: Receiver
41: RF receiver
42: Sound source acquisition unit
43: Noise canceling
44: sound source director section
45: sound source direction recognition unit
46: azimuth angle detector
50: distance measuring unit
60:

Claims (4)

A robot main body capable of traveling;
A traveling driving unit for traveling the robot body;
A transmitter having a buzzer for holding an object to be tracked, transmitting set signal information, and sending an alarm;
A receiving unit installed in the robot main body and capable of communicating with the transmitting unit so as to receive signal information transmitted from the transmitting unit;
A distance measuring unit installed on the robot body and measuring a distance between the robot body and the object;
Wherein the control unit controls the travel driving unit to move the robot body to a point adjacent to the object when the transmitter is out of a predetermined distance or more from the receiver and the distance between the receiver and the transmitter is longer than a predetermined reference distance, And a controller for controlling the buzzer to operate when a state in which the state of the buzzer exceeds the reference distance exceeds a preset reference time. The method according to claim 1,
Wherein the transmitter comprises an RFID tag provided with an RFID,
Wherein the receiver comprises an RF receiver for receiving RFID information transmitted from the RFID tag. 3. The method of claim 2,
Wherein the transmitter includes a sound generator for transmitting a sound source,
The receiving unit may include a plurality of sound source acquiring units for acquiring sound sources transmitted from the sound source generating unit, a noise removing unit for reducing noise of the sound source acquired by the sound source acquiring unit, A sound source direction recognizing unit for recognizing a direction of a sound source on the basis of the energy and time difference of a sound source whose noise is reduced; and an azimuth angle of the direction recognized by the sound source direction recognizing unit And an azimuth angle detector for calculating azimuth angle information to the control unit. delete

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