JP2000326274A - Acting robot - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize a robot enabling a person to feel the affinities thereto by obtaining various external informations by storing the information on a distance to the detection of a man, and the distinguishment of a man on the basis of the input of an image, recognizing the sound source direction and the voice on the basis of the input of voice, detecting the obstacle and the like by an ultrasonic sensor, and the like, and simultaneously executing the optimum processings. SOLUTION: An image input device 1 inputs an image of one of cameras of a stereo-camera to a man detecting device 2, and inputs the images of both cameras to a distance calculating device 3. The man detecting device 2 detects a man by image processing, and extracts a face area of the man to follow up the face area thereafter. A man distinguishing device refers the information on an image of the man stored in a man information storing part 5, and a voice input device 6 consists of three microphones attached to a body, and outputs the inputs to a voice source direction detecting device 7. An obstacle detecting device 10 calculates a distance value to an obstacle of every ultrasonic wave sensor 9 and holds the same, and a touch sensor 11 distiguishes a rubbed state and a tapped state and outputs the same.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an autonomous robot that plays a role as a pet at home or the like.

[0002]

2. Description of the Related Art At home, the development of autonomous robots that come into contact with humans with a position equivalent to that of pets has become common. For example, it has a dog-like shape, performs pre-programmed actions in response to human voice,
Robots have been developed that approach and approach colored objects.

[0003]

However, since the above-described robot cannot detect and identify a person, important functions as a pet, such as communicating with a person or becoming a specific person, are lost. And cause human beings to have a feeling of intimacy similar to pets. In order for humans to be close, the robot can detect the person there, identify who the person is, and provide information on whether the person likes or dislikes the person. There is a problem that it is necessary to make the robot behave like a pet based on these recognition results and information. At this time,
It is important to obtain various kinds of information from the outside world, perform appropriate processing at the same time, and behave like a pet.

[0004] The present invention has been made in view of such a point, and by responding to humans as much as possible as a pet by obtaining various external information and performing appropriate processing at the same time, It is an object of the present invention to provide a behavior control device for an autonomous behavior robot that allows a human to feel closeness.

[0005]

According to a first aspect of the present invention, there is provided an image input apparatus, a person detecting means for detecting a person from an image input by the image input apparatus, and a person detecting means for detecting a person. Distance calculation means for calculating a distance to a person, person identification means for identifying a person detected by the person detection means, person information storage means for storing information on the person, a voice input device, and the voice input device Sound source direction detecting means for detecting the direction of the voice input by, voice recognition means for recognizing the voice input by the voice input device, obstacle detection means for detecting an obstacle around the ultrasonic sensor, Contact detection means for detecting whether the object has been stroked or hit, person detection information detected by the person detection means, person identification information identified by the person identification means, and the sound source direction The robot behavior using the sound source direction detected by the output unit, the voice information recognized by the voice recognition unit, the obstacle information detected by the obstacle detection unit, and the contact information detected by the contact detection unit. An autonomous behavior robot comprising: a behavior control means for controlling the behavior control; a leg and a head movable under the control of the behavior control means; and a response output means for outputting a response under the control of the behavior control means. However, an input information storage unit that sequentially stores the outputs of the person detection unit, the person identification unit, the sound source direction detection unit, the voice recognition unit, the obstacle detection unit, and the contact detection unit,
With reference to the input information stored in the input information storage unit,
Using the obstacle information detected by the obstacle detection means, move the robot so as not to collide with surrounding obstacles, and when a person is detected by the person detection means, and when the sound source direction is detected by the sound source direction detection means, A movement control processing unit that ends when a contact is detected and when a contact is detected by the contact detection unit, and refers to input information stored in the input information storage unit, stops the robot on the spot, When the sound source direction is detected by the sound source direction detection means, the robot is turned in the direction, and a person search processing unit which ends when a person is detected by the person detection means and when no person is detected for a predetermined time, With reference to the input information stored in the input information storage unit, direct the robot to the direction of the person detected by the person detection means, When the distance to the person calculated by the distance calculating means is larger than a predetermined value and the obstacle detecting means does not detect an obstacle between the person and the person approaches the person, the distance is predetermined. When approaching is stopped when the value is smaller than the given value, a response corresponding to the recognized voice is output by the response output unit when the voice is recognized by the voice recognition unit, and when a contact is detected by the contact detection unit. A different response is output by the response output means depending on whether it has been stroked or struck, and when the person detected by the person identification means is identified, the information of the person stored in the person information storage means is referred to. And responds according to the person, and ends when the person is lost or when a predetermined voice is recognized. A dialogue processing unit that activates the movement control processing unit when the robot is activated, and activates the dialogue processing unit when the movement control processing unit ends because a person is detected by the person detection unit. When the movement control processing unit is terminated by the sound source direction detection unit and when the movement control processing unit is terminated by the contact detection unit, a person search processing unit is started, and the person search processing unit detects a person by the person detection unit. When the dialogue processing unit is started, the person search processing unit starts the movement control processing unit when it ends because a person is not detected for a predetermined time, and the dialogue processing unit loses a person. Activate the person search processing unit when it ends, activate the movement control means when it ends because the dialogue processing unit has recognized a predetermined voice,
An autonomous behavior robot characterized by comprising a control switching unit characterized in that:

The invention according to claim 2 is characterized in that the personal information storage means stores a favorable impression of a person in addition to the configuration, and the interaction processing unit in the action control means includes A correspondence table between the positivity and the distance, and when the person is identified by the person identification unit, the positivity of the person stored with reference to the person information storage unit is obtained. Is obtained, a distance value L2 to the person calculated by the distance calculating means is obtained, and the robot is moved away from the person when L1> L2, and the robot is moved when L1 <L2. 2. The autonomous behavior robot according to claim 1, wherein when the word is recognized by the voice recognition unit, a response is made by referring to the recognized word and a favorable impression of a person.

According to a third aspect of the present invention, in addition to the above configuration, the behavior control means has an input information analysis processing section, and the input information analysis processing section is stored in the input information storage section. When there are a plurality of outputs from the sound source direction detecting means, the output from the other sound source direction detecting means is deleted from the input information storage unit except for the newest one when there are a plurality of outputs from the sound source direction detecting means. When there are a plurality of outputs from the object detecting means, the output from the other obstacle detecting means is deleted from the input information storage unit while leaving only the newest output. 3. The autonomous behavior robot according to claim 1, wherein an output of the other contact detection unit is deleted from the input information storage unit while leaving only a new output.

[0008] The action control device for an autonomous action robot according to the present invention comprises a movement control process, a person search process, an interactive process, and a switching process for switching these processes.
It is characterized by appropriately processing various inputs such as identification, sound source direction detection, voice recognition, touch sensor, and obstacle detection by an ultrasonic sensor, and responding naturally like a pet.

[0009]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 shows a schematic configuration of a first embodiment of an autonomous behavior robot according to the present invention. An outline of the configuration and operation of the present apparatus will be described with reference to FIG. FIG. 5 shows an appearance of a robot assumed in the embodiment of the present invention. This device includes an image input device 1, a person detection device 2,
Distance calculation device 3, person identification device 4, person information storage unit 5,
Voice input device 6, sound source direction detection device 7, voice recognition device 8, ultrasonic sensor 9, obstacle detection device 10, touch sensor 11, action control device 12, leg motor 13, head motor 14, voice output device 15. Having.

The image input device 1 is a stereo camera. The image of one camera is input to the person detecting device 2 and the image of both cameras is input to the distance calculating device 3. The person detection device 2 detects a person by image processing, extracts a face area of the person, and thereafter tracks the face area. When a person is detected, a signal indicating detection is output to the behavior control device 12, and when a person is lost, a signal indicating that the person is lost is output to the behavior control device 12. The position information on the image of the face of the person held by the person detection device 2 can be referred to from the behavior control device 12. The face area extracted by the person detecting device 2 is supplied to the distance calculating device 3 and the person identifying device 4.

The distance calculation device 3 calculates a distance to a person by stereo matching. This distance value is stored in the distance calculation device 3 and can be referred to from the behavior control device 12. The person identification device 4 refers to the information of the face image of the person stored in the person information storage unit 5 to determine whether the detected person is a registered person or an unregistered person. Is determined, and the result is supplied to the behavior control device 12 when the result is obtained.

The voice input device 6 comprises three microphones attached to the body, and inputs from the microphones on the front of the body are supplied to the voice recognition device 8. In the voice recognition device 8, when the input voice matches any of the words registered in advance, the word is supplied to the behavior control device 12. Inputs from three microphones of the voice input device 6 are output to the sound source direction detection device 7. The sound source direction detection device 7 analyzes voice signals from a plurality of microphones, detects a direction in which the sound is generated, calculates a direction vector in a coordinate system fixed to the robot, and performs action control together with information that the sound is generated. Output to the device 12.

The ultrasonic sensors 9 are installed at the front, rear, left and right of the robot, and the output is supplied to an obstacle detecting device 10.
The obstacle detection device 10 calculates and holds a distance value to an obstacle for each ultrasonic sensor, and when one or more of these distance values is equal to or less than a predetermined distance, an obstacle is detected. It is determined that an object is present, and a signal indicating that an obstacle is present and its direction are supplied to the behavior control device 12. The distance information held by the obstacle detection device 10 can be referred to from the behavior control device 12. The touch sensor 11 is installed on the head of the robot, and supplies a signal that can identify the touch sensor to the action control device 12 when the touch sensor is stroked and when the touch sensor is hit.

As shown in FIG. 5, the leg motor 13 can independently rotate two wheels on the left and right of the lower part of the robot. The head motor 14 can rotate the head of the robot up, down, left, and right. The audio output device 15 is a speaker attached to the mouth of the robot. The behavior control device 12 includes a movement control processing unit 21, a person search processing unit 22, a dialog processing unit 23, a control switching unit 24, and an input information storage unit 25. In the input information storage unit 25,
Information output from the person detection device 2, the person identification device 4, the sound source direction detection device 7, the voice recognition device 8, the obstacle detection device 10, and the touch sensor 11 to the action control device 12 is sequentially stored.

The movement control processing unit 21, the person search processing unit 2
2. The dialogue processing unit 23 repeats until the loop processing is completed, and in the loop processing, refers to the storage unit 25 and, if there is any output information there, sends a corresponding instruction to the leg motor 13 and the head. The motor is sent to the motor 14 and the audio output device 15 to operate the legs to move the robot, operate the head, and output sounds. The information stored in the storage unit 25 will be referred to as input information from the behavior control device side.

Next, the operation of the behavior control device 12 of the present embodiment will be described in detail. FIG. 3 shows a schematic diagram of the behavior control device 12. First, the movement control processing unit 21 will be described with reference to FIG. The movement control processing unit 21
A loop (repetition) process is performed as shown in FIG. In the loop processing, the input information reference unit 211 and the control processing unit 2
The input information reference unit 211 extracts the oldest information from the input information stored in the input information storage unit 25 and passes it to the control processing unit 212. The control processing unit 212 sends a command corresponding to the passed input information to the leg motor 13 and the head motor 14, and then determines whether to exit the loop processing or continue the loop processing according to the input information. Make a decision. When the processing exits from the loop processing, the movement control processing unit 21 ends.

The operation of the control processing section 212 will be specifically described below. When the input information is the output of the obstacle detection device 10, a stop command is sent to the leg motor 13. Next, the leg motor 13 is turned in a direction opposite to the direction in which the obstacle exists.
Send an order to At this time, the loop processing is continued. When the input information is the output of the person detection device 2 and the content is the person detection, the process exits the loop. When the input information is the output of the sound source direction detection device 7, a command is sent to the leg motor 13 to direct the robot in the direction in which the sound was made, and the processing exits the loop processing. When the input information is the output of the touch sensor 11, the process exits the loop processing regardless of whether the input device is stroked or hit. If the input information is other than the above (including the case where the input information is empty), a command is sent to the leg motor 13 to advance the robot, and the loop processing is continued.

Next, the operation of the person search processing section 22 will be described. Like the movement control processing unit 21, the person search processing unit 22 includes a loop process. The loop processing includes an input information reference unit 211 and a control processing unit 212. The input information reference unit 211 extracts the oldest information from the input information stored in the input information storage unit 25 and It is passed to the control processing unit 212. In the control processing unit 212,
A command corresponding to the input information is sent to the leg motor 13 and the head motor 14, and it is determined whether to exit the loop processing or continue the loop processing according to the input information.
If the processing exits from the loop processing, the person search processing unit 22 ends.

The operation of the control processing section 212 will be specifically described below. If the input information is the output of the person detection device 2 and the content is the person detection, the process exits the loop. When the input information is the output of the sound source direction detection device 7, a command is sent to the leg motor 13 to direct the robot in the direction of the sound. At this time, the process does not exit the loop process. If the input information is other than the above (including the case where the input information is empty), the time since the person search processing unit 22 was started is checked, and when this time is longer than a predetermined time, the loop processing is performed. Exit.

Next, the operation of the dialog processing section 23 will be described. The interaction processing unit 23, like the movement control processing unit 21,
This is a loop process including an input information reference unit 211 and a control processing unit 212. The input information reference unit 211 extracts the oldest information from the input information stored in the input information storage unit 25, and extracts it from the control processing unit 21.
Hand over to 2. The control processing unit 212 sends a command corresponding to the passed input information to the leg motor 13, the head motor 14, and the audio output device 15, and according to the input information,
It is determined whether to exit the loop processing or continue the loop processing. If the processing exits from the loop processing, the interaction processing unit 23 ends.

Hereinafter, the operation of the control processing unit 212 will be specifically described. If the input information is the output of the person detection device 2 and the content is "I lost a person", the process exits the loop. When the input information is the output of the speech recognition device 8, the speech output device 15 outputs a speech corresponding to the recognized word. At this time, if the person identification result has already been obtained, a response according to the liking is made with reference to the liking of the identified person. For example, there is no response when the favorable impression is smaller than a certain value, or a command is sent to the head motor to turn sideways. Will end).
At this time, the loop does not exit. When the recognized word is a predetermined specific word, the process exits the loop. This means, for example, that the conversation ends when a human says “goodbye”.

When the input information is the output of the person identification device 4, the identification result is retained and the loop processing is not exited. When the input information is the output of the obstacle detection device 10, the robot is stopped, but the loop processing is not exited. When the input information is the output of the touch sensor 11, when the user is stroked, a sound expressing joy is output from the sound output device 15, and when the person can be identified, the liking of the person is increased. When the user is hit, a voice expressing anger is output from the voice output device 15, and when the person can be identified, the favorable impression of the person is reduced. If the input information is other than the above (including the case where the input information is empty), the position coordinates on the image of the center of the face of the person held in the person detection device 2 are referred to, and the position is determined as the center of the image. If it is more than a certain value away from the robot, the robot is moved so that the center position of the face is at the center on the image.

If the center position of the face is within a certain value from the center of the image and a person has already been identified, the positivity of the person is obtained from the person information storage unit 5 and the positivity is obtained. The distance value L1 set for each is acquired.
For example, when the positivity changes from 0 to 1, when the positivity is less than 0.3, the distance value L1 is La, 0.3.
Lb if less than 0.7 and Lc if more than 0.7
(La>Lb> Lc) is set in advance. Next, the distance value L2 to the person held in the distance calculation device 3 is acquired, and if L2> L1, the robot approaches the person by the distance Lt. Conversely, if L2 <L1, the robot is moved to the distance Lt. Only keep away from people.

Next, the operation of the control switching unit 24 will be described. The control switching unit 24 activates the movement control processing unit 21 when the autonomous behavior robot is activated. When the movement control processing unit 21 detects a person and terminates, the dialog processing unit 23 is activated. When the movement control processing unit 21 terminates by sound source direction detection and the touch sensor, the person search processing unit 22 is activated. When the person search processing unit 22 detects a person and ends the processing, the person search processing unit 22 starts the dialog processing unit 23. When the person search processing unit 22 ends the processing for a time longer than a predetermined time, the movement control processing unit 21
Start If the dialogue processing unit 23 ends after losing a person, it starts the person search processing unit 22, and if it ends after recognizing a specific word, it starts up the movement control processing unit 21.

Next, a second embodiment of the present invention will be described. In a second embodiment of the present invention, the image input device 1,
Person detection device 2, distance calculation device 3, person identification device 4, person information storage unit 5, voice input device 6, sound source direction detection device 7, voice recognition device 8, ultrasonic sensor 9, obstacle detection device 10, touch sensor 11, an action control device 12, a leg motor 13, a head motor 14, and a voice output device 15. The second embodiment of the present invention is different from the configuration of the first embodiment described above in that the action control device 12 has a person information analysis processing unit 26 as shown in FIG. It is different from the behavior control device 12 in one embodiment. Therefore, in the description of the second embodiment, the person information analysis processing unit 26 will be described below.

The personal information analysis processing unit 26 extracts all personal information stored in the personal information storage unit 25,
When there are a plurality of outputs from the sound source direction detecting device 7, the output from the other sound source direction detecting devices 7 is deleted from the person information storage unit except for the newest one, and the obstacle detecting device 1
When there are a plurality of outputs from 0, the output from the other obstacle detection device 10 is deleted from the person information storage unit, leaving only the newest output, and when there are a plurality of outputs from the touch sensor 11, only the newest output is output. The output from the other touch sensors 11 is deleted from the person information storage unit.

The preferred embodiment of the present invention has been described above, but the present invention includes embodiments embodied in various other forms without departing from the gist of the present invention.

[0028]

As described above, according to the present invention,
Appropriate processing of various inputs, such as detection and identification of people, sound source direction detection, voice recognition, obstacle detection by touch sensors and ultrasonic sensors, etc. An effect is obtained that an autonomous behavior robot such as an easy pet can be provided.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the overall configuration of a first embodiment of the present invention.

FIG. 2 is a diagram showing a processing flow of a movement control processing unit according to the first embodiment of the present invention.

FIG. 3 is a block diagram showing a behavior control device according to the first embodiment of the present invention.

FIG. 4 is a block diagram showing a behavior control device according to a second embodiment of the present invention.

FIG. 5 is a diagram schematically illustrating an appearance of the autonomous behavior robot according to the embodiment of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 image input device 2 person detection device 3 distance calculation device 4 person identification device 5 person information storage unit 6 voice input device 7 sound source direction detection device 8 voice recognition device 9 ultrasonic sensor 10 obstacle Object detection device 11 Touch sensor 12 Behavior control device 13 Leg motor 14 Head motor 15 Voice output device 21 Movement control processing unit 22 Person search processing unit 23 Dialogue processing unit 24 Control switching unit 25 ... person information storage unit 26 ... person information analysis processing unit 211 ... person information reference unit 212 ... control processing unit

Continued on the front page F-term (reference) 2C150 BA06 CA01 CA02 DA02 DA24 DA26 DA27 DA28 DF02 DF04 DF06 DF08 DF31 EB01 ED08 ED21 ED37 ED39 ED52 EE02 EF02 EF07 EF13 EF16 EF23 EF29 EF33 3F059 AA01 DB01 FCB AA10 BB15 CC06 CC08 DD06 DD18 GG01 GG06 GG10 GG24 LL01 LL08 LL11 LL17 MM03 MM09

Claims (3)

[Claims] An image input device; a person detecting unit for detecting a person from an image input by the image input device; a distance calculating unit for calculating a distance to the person detected by the person detecting unit; Person identification means for identifying a person detected by the person detection means, person information storage means for storing information on the person, a voice input device, and sound source direction detection for detecting the direction of the voice input by the voice input device Means, voice recognition means for recognizing the voice input by the voice input device, obstacle detection means for detecting an obstacle around the ultrasonic sensor, and contact detection means for detecting whether stroked or hit The person detection information detected by the person detection means, the person identification information identified by the person identification means, the sound source direction detected by the sound source direction detection means, and the sound Behavior control means for controlling the behavior of the robot using the voice information recognized by the voice recognition means, the obstacle information detected by the obstacle detection means, and the contact information detected by the contact detection means; An autonomous behavior robot comprising a leg and a head movable under the control of a control means, and a response output means for outputting a response under the control of the behavior control means, wherein the behavior control means comprises: the person detection means and the person identification. Means, an input information storage unit for sequentially storing the outputs of the sound source direction detection unit, the voice recognition unit, the obstacle detection unit, and the contact detection unit, and input information stored in the input information storage unit. See,
Using the obstacle information detected by the obstacle detection means, move the robot so as not to collide with surrounding obstacles, and when a person is detected by the person detection means, and when the sound source direction is detected by the sound source direction detection means, A movement control processing unit that ends when detected and when a contact is detected by the contact detection unit, and refers to input information stored in the input information storage unit, stops the robot on the spot, When the sound source direction is detected by the sound source direction detection unit, the robot is turned in the direction, and a person search processing unit that ends when the person is detected by the person detection unit and when no person is detected for a predetermined time, The robot refers to the input information stored in the input information storage unit and directs the robot to the direction of the person detected by the person detecting means. When the distance to the person calculated by the distance calculating means is larger than a predetermined value and the obstacle detecting means does not detect an obstacle between the person and approaches the person, the distance is predetermined. When approaching is stopped when the value is smaller than the given value, a response corresponding to the recognized voice is output by the response output unit when the voice is recognized by the voice recognition unit, and when a contact is detected by the contact detection unit. A different response is output by the response output means depending on whether it has been stroked or struck, and when the person detected by the person identification means is identified, the information of the person stored in the person information storage means is referred to. And responds according to the person, and ends when the person is lost or when a predetermined voice is recognized. And a dialogue processing unit that activates the movement control processing unit when the robot is started, and starts the dialogue processing unit when the movement control processing unit ends because a person is detected by the person detection unit. Then, when the movement control processing unit is terminated by the sound source direction detection unit and when the movement control processing unit is terminated by the contact detection unit, a person search processing unit is started, and the person search processing unit detects a person by the person detection unit. Therefore, when the process ends, the dialogue processing unit is started, and when the person search processing unit ends because no person is detected for a predetermined time, the movement control processing unit is started, and the dialogue processing unit loses sight of the person. If it is terminated because of it, start the person search processing unit,
An autonomous behavior robot, comprising: a control switching unit that activates a movement control unit when the dialog processing unit ends because of recognition of a predetermined voice. 2. The apparatus according to claim 1, wherein the personal information storage unit stores a favorable impression of a person in addition to the configuration, and a dialogue processing unit in the behavior control unit corresponds to the correspondence of the favorable impression and the distance in addition to the configuration. When a person is identified by the person identification means, the friendship of the person stored with reference to the person information storage means is obtained, and a distance value L1 corresponding to the friendship is obtained from the correspondence table. Obtaining a distance value L2 to the person calculated by the distance calculating means;
When 1> L2, move the robot away from the person and L1
2. The autonomous action according to claim 1, wherein the robot approaches the person when <L2, and responds by referring to the word recognized when the word is recognized by the voice recognition unit and the liking of the person. robot. 3. The behavior control unit further includes an input information analysis processing unit in addition to the configuration, wherein the input information analysis processing unit refers to input information stored in the input information storage unit, When there are a plurality of outputs from the sound source direction detecting means, the outputs from the other sound source direction detecting means are deleted from the input information storage unit except for the newest one, and a plurality of outputs from the obstacle detecting means exist. Sometimes, leaving only the newest output and deleting the output of the other obstacle detection means from the input information storage unit, and leaving only the newest output when there are a plurality of outputs by the contact detection means, The autonomous behavior robot according to claim 1, wherein an output of the contact detection unit is deleted from the input information storage unit.