CN209560365U - A kind of indoor moving service robot - Google Patents
A kind of indoor moving service robot Download PDFInfo
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- CN209560365U CN209560365U CN201821858501.3U CN201821858501U CN209560365U CN 209560365 U CN209560365 U CN 209560365U CN 201821858501 U CN201821858501 U CN 201821858501U CN 209560365 U CN209560365 U CN 209560365U
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Abstract
The utility model discloses a kind of indoor moving service robots, including walking chassis, it is arranged in walking chassis for measuring the fixed point module with the range information of environmental objects and the run trace information for recording walking chassis, the voice acquisition module of voice messaging in walking chassis and for acquiring user is set, speech recognition module, store the speech model library of speech samples model, main control module and the cartographic model library for storing indoor map information, speech recognition module respectively with voice acquisition module, speech model library is connected to identify control model;Main control module is connect respectively with speech recognition module, fixed point module, cartographic model library, walking chassis to control walking chassis mobile navigation according to control model, range information, run trace information and cartographic information;The design can be user's mobile navigation, accurately arrive at and formulate place, and user is able to use voice input, easy to operate, greatly improve intelligent level.
Description
Technical field
The utility model relates to indoor supervision area, especially a kind of indoor mobile robot.
Background technique
Now, in the large-scale place such as office building, commercial center, each position is all correspondingly provided with guiding instruction
Board, meanwhile, partial region is also possible to be provided with operating platform, convenient for user query itself or target position information or even portion
Divide operating platform that can support man-machine voiced interaction, the destination of user is learnt by speech recognition, is then user's formulation
Reasonable navigation routine, however, showing navigation routine merely, user is not easy to remember, can not also be arrived according to guiding direction board
Up to destination, therefore previous guiding direction board and operating platform function excessively limits to, and can not really realize that speech-sound intelligent is led
Boat.
Utility model content
In order to solve the above technical problems, the purpose of the utility model is to provide a kind of indoor speech-recognition services navigation
Robot.
The technical solution adopted in the utility model is:
A kind of indoor moving service robot, comprising:
Walking chassis;
Module is pinpointed, is arranged in walking chassis for measuring and the range information of environmental objects and record walking bottom
The run trace information of disk;
The voice messaging in walking chassis and for acquiring user is arranged in voice acquisition module;
Speech recognition module and the speech model library for storing speech samples model, speech recognition module respectively with voice
Acquisition module, the connection of speech model library are to identify control model;
Main control module and the cartographic model library for storing indoor map information, main control module respectively with speech recognition mould
Block, fixed point module, cartographic model library, walking chassis connection are according to control model, range information, run trace information and ground
Figure information controls walking chassis mobile navigation.
It further include the loudspeaker being arranged in walking chassis, main control module is connect to be controlled according to control model with loudspeaker
Loudspeaker casting.
Wireless transport module is connected on the main control module, main control module passes through wireless transport module and background monitoring end
Connection is to realize that data are transmitted.
It further include the input display module being arranged in walking chassis, input display module inputs operation for providing user
Instruction or display inquiry data;Input display module is connect with main control module.
It further include the context detection module being arranged in walking chassis, context detection module is for acquiring ambient image information
And/or environmental abnormality status information, main control module are connect with context detection module.
The context detection module includes the proximal end photographing module and/or flame for acquiring the first image information in environment
Sensor and/or smoke sensor device.
The fixed point module includes distance measuring unit and walking positioning unit, and distance measuring unit is used to measure and environmental objects
Range information, walking fixed point units are used to record the run trace information of walking chassis, main control module respectively with distance measuring unit with
And walking positioning unit connection.
The distance measuring unit includes the laser radar or sound for acquiring the range information of walking chassis and object in situ
Wave radar perhaps take the photograph with laser radar or sound radar or binocular stereo vision by binocular stereo vision camera main control module
As head connects.
The walking chassis includes the wheel group installing shell, driving motor group and being arranged in below installation shell, is driven
Dynamic motor group drives wheel group rotation, and the drive shaft of driving motor group is connect to drive wheel group to rotate with wheel group, master control mould
Block is connect to control the operation of driving motor group with driving motor group.
The walking positioning unit includes the volume in the drive shaft for be arranged in driving motor group to detect wheel group encoded radio
Code device, the encoder are connect with main control module.
The utility model has the beneficial effects that
The utility model indoor moving service robot, voice acquisition module acquire the voice messaging of user, speech recognition
Module matches voice messaging with speech samples model, to learn that user thinks the meaning of expression, identifies control model,
Such as the problem of destination to be reached or desired consulting;And information, range information and run trace are believed according to the map
Breath obtains the real position of indoor moving service robot, obtains destination locations according to control model combining cartographic information and makes
Determine navigation routine, main control module controls walking chassis according to navigation routine movement, to lead the way for user, accurately arrives at formulation
Place, user is able to use voice input, easy to operate, greatly improves intelligent level.
Context detection module is able to detect abnormal conditions or image information in environment, further passes through wireless transmission mould
Block realizes the upload of data, and background monitoring end can recognize field condition in time, and the camera at scene can also be called to carry out
Further image information collecting.
In addition to this, user can also carry out action queries on input display module, and from Information Mobile Service robot
It is deployed into corresponding information in the database of included database or background monitoring end, checks understanding convenient for user, function is complete
Face.
Detailed description of the invention
Specific embodiment of the present utility model is described further with reference to the accompanying drawing.
Fig. 1 is the structural schematic diagram of the utility model indoor moving service robot.
Fig. 2 is the functional block diagram of the utility model indoor moving service robot.
Fig. 3 is the speech processes flow chart of the utility model indoor moving service robot.
Specific embodiment
As Figure 1-Figure 2, a kind of indoor moving service robot, comprising:
Walking chassis 1;
Module 2 is pinpointed, is arranged in walking chassis 1 to walk for measuring with the range information of environmental objects and record
The run trace information on chassis 1;
The voice messaging in walking chassis 1 and for acquiring user is arranged in voice acquisition module 31;
Speech recognition module 32 and the speech model library 33 for storing speech samples model, speech recognition module 32 are distinguished
It connect with voice acquisition module 31, speech model library 33 to identify control model;
Main control module 4 and the cartographic model library 41 for storing indoor map information, main control module 4 respectively with speech recognition
Module 32, fixed point module 2, cartographic model library 41, the connection of walking chassis 1 according to control model, range information, run trace to believe
Breath and cartographic information control 1 mobile navigation of walking chassis.
Wherein, walking chassis 1 includes installation shell 11, driving motor group 12 and the vehicle being arranged in below installation shell 11
Wheel group 13, driving motor group 12 drive wheel group 13 to rotate, and the drive shaft of driving motor group 12 is connect with wheel group 13 to drive
Wheel group 13 rotates, and main control module 4 is connect to control the operation of driving motor group 12 with driving motor group 13, and driving motor group 12 is wrapped
The first forward/backward driving motor of driving wheel group 13 and the offset of driving wheel group 13 or so are included to control robot advance
Second driving motor in direction, specific connection structure can be realized by ordinary skill in the art means, herein without repeating.
In addition, main control module 4 can be made of CPU or MCU and its peripheral circuit, voice acquisition module 31 is microphone
Etc. sound component is adopted, speech recognition module 32 can be made of analog-to-digital conversion unit, processing unit, and analog-to-digital conversion unit is to voice messaging
The pretreatment of analog-to-digital conversion is carried out, processing unit matches the voice messaging of conversion with speech samples model.
Herein, it as shown in figure 3, the control method based on indoor moving service robot, is stored up in the speech model library 33
There are speech samples model and several control model corresponding with speech samples model, voice acquisition module 31 acquires user
Voice messaging, voice messaging is pre-processed, speech recognition module 32 extracts phonetic feature point in voice messaging, will be special
Sign point is matched with speech samples model to identify control model;
Information, range information and run trace information obtain the real position of indoor moving service robot according to the map
It sets, destination locations are obtained according to control model combining cartographic information and formulates navigation routine, main control module 4 controls walking chassis
1 is mobile according to navigation routine.
According to the identification of voice messaging, the place for wanting to reach can be learnt, by this place and cartographic information knot
It closes, can determine destination locations, and navigation routine is made by real position and destination locations, herein, by voice signal
The control model identified may include the setting of destination locations and navigation routine or to background monitoring end or service robot
The inquiry of public information, leader's office, Industry Control etc. in database.
After speech recognition module 32 extracts phonetic feature point, by the speech samples in phonetic feature point training speech model library
Model is to correct statistical relationship, while constantly receiving voice messaging, corrects speech samples model using newly-increased characteristic point
Statistical relationship, adjust probability so that identification it is more accurate.
It further, further include the loudspeaker 5 being arranged in walking chassis 11, main control module 4 is connect with loudspeaker 5 with root
It is broadcasted according to control model control loudspeaker 5, loudspeaker 5 herein can be realized robot and interact with the question and answer of user, according to language
Message breath identifies control model, wherein may include the inquiry etc. to public information, loudspeaker 5 can to this type of information into
Row casting.
Voice acquisition module 31 acquires the voice messaging of user, and speech recognition module 32 is by voice messaging and speech samples mould
Type is matched, to learn that user thinks the meaning of expression, identifies control model, such as destination to be reached or is thought
The problem of seeking advice from;And information, range information and run trace information obtain indoor moving service robot according to the map
Real position obtains destination locations according to control model combining cartographic information and formulates navigation routine, and the control of main control module 4 is gone
It is mobile according to navigation routine to walk chassis 1, to lead the way for user, accurately arrives at and formulates place, it is defeated that user is able to use voice
Enter, it is easy to operate, greatly improve intelligent level.
And it is single including distance measuring unit 21 and walking positioning to pinpoint module 2 on establishing robot reality position by the design
Member 22, distance measuring unit 21 are used to record walking chassis 1 for measuring with the range information of environmental objects, walking fixed point units 22
Run trace information, main control module 4 are connect with distance measuring unit 21 and walking positioning unit 22 respectively.
Distance measuring unit 21 includes the laser radar or sound wave thunder for acquiring the range information of robot and object in situ
It reaches perhaps binocular stereo vision camera main control module 4 and laser radar or sound radar or binocular stereo vision images
Head connection, such as the walking shell 11 of the design is cylindrical shape, then laser radar is arranged in columnar walking shell 11, In
Several scanning openings are evenly arranged in circumferential plane locating for laser radar on the side wall of walking shell 11, positioned at middle part
Laser radar can drive 360 degree rotation to scan ambient enviroment by a rotating electric machine.
Walking positioning unit 22 includes being arranged in the drive shaft of driving motor group 12 to detect wheel group encoded radio herein
Encoder, which connect with main control module 4, and the control signal that main control module 4 is obtained according to navigation routine controls machine
Device people is forward/backward or turns to, and encoder is able to record that the circle number of wheel group rotation, main control module 4 extrapolate machine again
The path of people's traveling.
Walking positioning unit 22 further includes surveying now relative to the inertia of the path position of starting point for detecting robot
Module is measured, main control module 4 is connect with inertia measurement module, and inertia measurement module herein can be gyroscope, angle transducer etc.
Angular movement detection part, to more accurately detect robot driving direction.
Run trace information can be extrapolated by the path travelled to robot and the direction deviated in walking process, together
When by each point on robot ambulation trace information and the combination of the range information of surrounding objects, be capable of forming accordingly
Figure information, while being navigated according to the position of robot for it.
It in addition to this, further include setting in the One On The Chassis context detection module 6 of walking, context detection module 6 is for acquiring
Ambient image information and/or environmental abnormality status information, main control module 4 are connect with context detection module 6, context detection module 6
Including the proximal end photographing module and/or flame sensor and/or smoke sensor device for acquiring the first image information in environment.
Meanwhile further including setting in the One On The Chassis input display module 7 of walking, input display module 7 is for providing user
Input operation instruction or show inquiry data;Input display module can be the touch display screen or fission of integral type herein
Display screen and key combination, input display module 7 connect with main control module 4, user can also input display module 7 it is enterprising
Row action queries, and be deployed into accordingly from the database of database or background monitoring end that Information Mobile Service robot carries
Information, check understanding convenient for user, it is full-featured.
In robot, wireless transport module 9 is connected on main control module 4, main control module 4 passes through wireless transport module 9
It is connect with background monitoring end to realize that data are transmitted.
It further, further include the alarm module 10, such as warning lamp, buzzer etc. being connect with main control module 2, in ring
When border detection module 6 occurs abnormal, control alarm module 10 is alarmed.
It further include the several of background monitoring end and setting each region indoors in addition, in monitoring system indoors
A distal end photographing module 8, background monitoring end are connect to control distal end photographing module 8 and run and receive far with distal end photographing module 8
The second image information for holding photographing module 8 to acquire, indoor moving service robot further include that setting is the One On The Chassis wireless in walking
Transmission module 9 and context detection module 6, main control module 4 are connect with wireless transport module 9 and context detection module 6 respectively,
Context detection module 6 acquires ambient image information (ambient image information herein, that is, described above by proximal end photographing module first
Image information) and/or environmental abnormality status information, main control module 4 by ambient image information and/or environmental abnormality status information with
And the real position of indoor moving service robot uploads to background monitoring end, background monitoring end control distal end photographing module 8 is adopted
Collect the second image information of indoor moving service robot position.
Wherein proximal end photographing module and distal end photographing module can be made of camera shooting ball machine and shooting tripod head, main control module
Or background monitoring end is connect with camera shooting ball machine, shooting tripod head respectively, camera shooting ball machine is arranged on shooting tripod head, main control module control
To adjust the shooting angle for imaging ball machine, shooting tripod head herein can drive camera shooting ball machine left and right turn for shooting tripod head operation processed
The camera lens elevation angle is adjusted with rotating upwardly and downwardly.
For distal end photographing module is compared to proximal end photographing module herein, since distal end photographing module is in relatively fixed
In the state of shoot, and depth camera can be used, the image being more clear can be shot, while distal end photographing module is normal
It can be standby mode under rule state, in the case where there are abnormal conditions, background monitoring end control distal end photographing module is actuated for clapping
It takes the photograph.
Further, the image information acquired based on proximal end photographing module and distal end photographing module, can carry out face
Identification and bone identification, determine whether as suspicious figure, to carry out the judgement of abnormal conditions.
Several Information Mobile Service robots can be set in floor, installing proximal end images mould in Information Mobile Service robot
Block, fixed point module, when there are abnormal conditions, background monitoring end gets the position that the robot of corresponding abnormal conditions information is sent
Confidence breath, and formulated according to the location information of other each Information Mobile Service robots for each Information Mobile Service robot
Navigation routine information is sent to the main control module of each Information Mobile Service robot to transfer by navigation routine information, background monitoring end
Each Information Mobile Service robot is towards there is the region moving tracing of abnormal conditions, thus can by several Information Mobile Service robots
Warning line is formed, the design can monitor the position of each Information Mobile Service robot in real time, when an abnormal situation occurs, adjust in time
It moves each Information Mobile Service robot to be tracked, before staff shows up confirmation, each Information Mobile Service robot can be mutual
Early warning defense mechanism is cooperatively formed, security protection quality is improved.
The foregoing is merely the preferred embodiments of the utility model, the utility model is not limited to above-mentioned embodiment party
Formula, if with essentially identical means realize the utility model aim technical solution belong to the protection scope of the utility model it
It is interior.
Claims (10)
1. a kind of indoor moving service robot characterized by comprising
Walking chassis;
Module is pinpointed, is arranged in walking chassis for measure and the range informations of environmental objects and recording walking chassis
Run trace information;
The voice messaging in walking chassis and for acquiring user is arranged in voice acquisition module;Speech recognition module and
The speech model library of speech samples model is stored, speech recognition module is connect with voice acquisition module, speech model library respectively;
Main control module and the cartographic model library for storing indoor map information, main control module respectively with speech recognition module, fixed
Point module, cartographic model library, walking chassis connection.
2. a kind of indoor moving service robot according to claim 1, it is characterised in that: further include setting at walking bottom
Loudspeaker on disk, main control module are connect to control loudspeaker casting according to control model with loudspeaker.
3. a kind of indoor moving service robot according to claim 1, it is characterised in that: connected on the main control module
There is wireless transport module, main control module is connect to realize that data are transmitted with background monitoring end by wireless transport module.
4. a kind of indoor moving service robot according to claim 3, it is characterised in that: further include setting at walking bottom
Input display module on disk, input display module input operation instruction or show inquiry data for providing user;Input
Display module is connect with main control module.
5. a kind of indoor moving service robot according to claim 1 or 4, it is characterised in that: further include that setting is expert at
The context detection module on chassis is walked, context detection module is used to acquire ambient image information and/or environmental abnormality status information,
Main control module is connect with context detection module.
6. a kind of indoor moving service robot according to claim 5, it is characterised in that: the context detection module packet
Include proximal end photographing module for acquiring the first image information in environment and/or flame sensor and/or smoke sensor device.
7. a kind of indoor moving service robot according to claim 1, it is characterised in that: the fixed point module includes surveying
Away from unit and walking positioning unit, distance measuring unit is used for for measuring with the range information of environmental objects, walking fixed point units
The run trace information of walking chassis is recorded, main control module is connect with distance measuring unit and walking positioning unit respectively.
8. a kind of indoor moving service robot according to claim 7, it is characterised in that: the distance measuring unit includes using
It is imaged in the laser radar or sound radar or binocular stereo vision of the range information of acquisition walking chassis and object in situ
Head, main control module are connect with laser radar or sound radar or binocular stereo vision camera.
9. a kind of indoor moving service robot according to claim 7, it is characterised in that: the walking chassis includes peace
Dress shell, driving motor group and the wheel group being arranged in below installation shell, driving motor group drive wheel group rotation, driving
The drive shaft of motor group is connect to drive wheel group to rotate with wheel group, and main control module is connect to control driving with driving motor group
The operation of motor group.
10. a kind of indoor moving service robot according to claim 9, it is characterised in that: the walking positioning unit
The encoder of wheel group encoded radio is detected in drive shaft including driving motor group is arranged in, the encoder and main control module connect
It connects.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112880833A (en) * | 2020-12-31 | 2021-06-01 | 重庆工程职业技术学院 | Intelligent human-computer interaction system |
CN112907599A (en) * | 2021-02-22 | 2021-06-04 | 佳木斯大学 | Measuring device for indoor design |
CN113917922A (en) * | 2021-10-09 | 2022-01-11 | 中建卓越建设管理有限公司 | Intelligent engineering consultation system |
-
2018
- 2018-11-12 CN CN201821858501.3U patent/CN209560365U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112880833A (en) * | 2020-12-31 | 2021-06-01 | 重庆工程职业技术学院 | Intelligent human-computer interaction system |
CN112907599A (en) * | 2021-02-22 | 2021-06-04 | 佳木斯大学 | Measuring device for indoor design |
CN112907599B (en) * | 2021-02-22 | 2022-02-15 | 佳木斯大学 | Measuring device for indoor design |
CN113917922A (en) * | 2021-10-09 | 2022-01-11 | 中建卓越建设管理有限公司 | Intelligent engineering consultation system |
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