CN208092540U - A kind of unmanned transport vehicle system in garden - Google Patents
A kind of unmanned transport vehicle system in garden Download PDFInfo
- Publication number
- CN208092540U CN208092540U CN201820310607.3U CN201820310607U CN208092540U CN 208092540 U CN208092540 U CN 208092540U CN 201820310607 U CN201820310607 U CN 201820310607U CN 208092540 U CN208092540 U CN 208092540U
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- garden
- unmanned transport
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- transport vehicle
- vehicle
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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- Control Of Position, Course, Altitude, Or Attitude Of Moving Bodies (AREA)
Abstract
The utility model discloses a kind of unmanned transport vehicle systems in garden, including application module, sensing module, decision-making module and execution module, wherein:The application module undertakes the responsibility of connection garden unmanned transport vehicle and user and administrator for dispatching, monitoring the unmanned transport vehicle in garden, realizes the data processing for receiving and sending with charge free express delivery or take-away;The application module includes client on remote server and vehicle, the remote server is connected with client on vehicle, client is connected with the decision-making module on vehicle, decision-making module sends the location information of the unmanned transport vehicle in garden to client on vehicle, this location information is sent to remote server by client on vehicle, remote server analyzes user information and the unmanned transport vehicle information in garden, then assigns the task to the unmanned transport vehicle in garden by client on vehicle and execute;The utility model is designed reasonably, it is simple in structure, it is at low cost, facilitate deployment, improves working efficiency, it is highly practical.
Description
Technical field
The utility model is related to unmanned vehicle technology fields, and in particular to a kind of unmanned transport vehicle system in garden.
Background technology
With the fast development of e-commerce, net purchase and the people for suscribing to take-away on the net are more and more, and still, entire industry encounters
Prodigious problem --- labour intensive leads to inefficiency and cost is excessively high, especially the last one kilometer of logistics, main at present
If courier and take-away person execute in garden;It is perfect with aging of population and the social welfare system, manpower and materials at
This is continuously increased, and this mode is badly in need of changing.
Utility model content
The shortcomings that the purpose of the utility model is to overcome the prior arts and deficiency provide a kind of simple in structure, at low cost
It is honest and clean, facilitate deployment, improve efficiency, the unmanned transport vehicle system in highly practical garden.
The purpose of this utility model is achieved through the following technical solutions:
A kind of unmanned transport vehicle system in garden, including application module, sensing module, decision-making module and execution module, wherein:
The application module undertakes the connection unmanned transport vehicle in garden and uses for dispatching, monitoring the unmanned transport vehicle in garden
The responsibility at family and administrator realizes the data processing for receiving and sending with charge free express delivery or take-away;The application module includes remote service
Client on device and vehicle, the remote server are connected with client on vehicle, and client is connected with the decision-making module on vehicle
It connects, decision-making module sends the location information of the unmanned transport vehicle in garden to client on vehicle, and client sends out this location information on vehicle
Remote server is given, remote server analyzes user information and the unmanned transport vehicle information in garden, then will by client on vehicle
Task is distributed to the unmanned transport vehicle in garden and is executed;
The sensing module is for perceiving the environment around the unmanned transport vehicle in garden and being digitized;The sensing module
Including camera module and ultrasonic radar module, the camera module is binocular camera, and setting is in the unmanned transport in garden
The front of vehicle vehicle body, the image data for detecting the unmanned transport vehicle vehicle front road area in garden;The ultrasonic radar
Module is made of multiple ultrasonic radars, is arranged in the front and two side of the unmanned transport vehicle in garden, for detect garden nobody
The obstacle information of transport vehicle vehicle front and two side areas;
The information and combining position information that the decision-making module is transmitted according to the sensing module make path planning, simultaneously
Decision-making module is responsible for the security function, communication function and scheme control function of the unmanned transport vehicle in garden;The decision-making module includes
Inertial Measurement Unit, satellite locator and electronic compass, the Inertial Measurement Unit, satellite locator and electronic compass are respectively mounted
The longitudinal axis rear portion of unmanned transport vehicle in garden, for detecting the unmanned transport vehicle vehicle body location information in garden and body gesture letter
Breath;
The execution module accurately executes the signal from the decision-making module, control the traveling of unmanned transport, braking,
It turns to and timely feedbacks;The execution module includes base plate electric machine, steering, braking system, drive system, locker and embedding
Enter formula processor, wherein the base plate electric machine and locker are all disposed on the unmanned transport vehicle in garden, the embeded processor
Input terminal be connected with the output end of the decision-making module, the output end of the embeded processor respectively with the steering system
System, braking system be connected with drive system, the embeded processor by instruction control the unmanned transport vehicle in garden traveling,
It turns to and brakes;
It is serial communication between the sensing module and the decision-making module;The Inertial Measurement Unit of the decision-making module and
It is serial communication between satellite locator and the decision-making module.
Preferably, the embeded processor of the execution module uses STM32F103 series embedded microprocessor chips.
Preferably, the braking system of the execution module uses exhaust brake equipment.
Preferably, the steering of the execution module uses electric power steering apparatus.
Preferably, the base plate electric machine of the execution module is using brushed DC servo motor or three-phase direct-current brushless electricity
Machine.
Preferably, the Inertial Measurement Unit of the decision-making module uses MPU6050 series three axis accelerometers.
Preferably, the satellite locator of the decision-making module uses the GPS positioning module of NEO-7N UBLOX series.
Preferably, the electronic compass of the decision-making module uses the electronic compass of HMC5883L series.
The operation principle of the utility model:
It is relatively fixed in view of the travel route of the unmanned transport vehicle in garden in the prior art, travel speed is relatively slow, work
It is single to make mode, the utility model is intended to free people from this repeated labor, and perceives garden using sensing module
The environmental information on unmanned transport vehicle vehicle body periphery draws out connecting way, and Inertial Measurement Unit and satellite locator is recycled to obtain
The position and attitude information for taking the unmanned transport vehicle in garden cooks up one for the unmanned transport vehicle traveling in garden by decision-making module
Track finally utilizes traveling momentum and the direction of the execution module control unmanned transport vehicle vehicle body in garden.
Specifically, the unmanned transport vehicle in garden is first obtained peripherally by client on the vehicle of application module from remote server
Figure and node listing, and map around the unmanned transport vehicle in garden and node listing are transferred to decision model using serial port
Block;The position of the unmanned transport vehicle in garden is judged by the Inertial Measurement Unit of decision-making module, satellite locator and electronic compass later
If posture information, not near nodal, judges whether having learned that whether check the unmanned transport vehicle in garden near nodal
On the road, if on having learned that road, the distance for reaching estimated node, and access path planning stage are calculated, if not in known road,
It reports an error and restarts;If in estimated near nodal, the access path planning stage, wherein decision-making module uses serial port by garden
The position and attitude information of the unmanned transport vehicle in area is transferred to client on vehicle.
Client combines the information obtained by decision-making module and sensing module to generate the unmanned transport vehicle in garden on vehicle
Driving trace, wherein camera uses binocular camera, and client obtains plane letter by usb bus from camera on vehicle
Breath and depth information, and it is partitioned by deep learning semantic segmentation algorithm the information of connecting way, then calculated by stereoscopic vision
Method matches to obtain correct depth information, builds the three-dimensional model of the unmanned transport vehicle vehicle front predeterminable area in garden;And it is ultrasonic
Wave radar uses array of ultrasonic sensors, and client obtains the unmanned transport in garden by serial communication from ultrasonic radar on vehicle
The obstacle information of vehicle vehicle body direction of advance.
Embeded processor receives the instruction of the control vehicle traveling of the client on vehicle, the unmanned transport in the control garden
The instruction of vehicle traveling includes braking instruction, steering order and motor speed control instruction, and above-metioned instruction passes through embeded processor
After processing, brake signal, turn signal, electricity are exported respectively to the braking system of execution module, steering, drive system respectively
Machine speed controling signal, wherein digital-to-analogue conversion is set between embeded processor and braking system, steering, drive system
Circuit, the voltage signal to export embeded processor are converted into the arteries and veins of control braking system, steering, drive system
Signal is rushed, to control the braking, steering and velocity of rotation of base plate electric machine.
The embeded processor of execution module receives the locker switch order of the client on vehicle, by embedded place
Become locker switching signal after reason device processing, controls opening and the closing of locker, when client needs picking, locker is beaten
It opens, after client confirms picking, locker is automatically closed.
Client updates path node list from remote server on vehicle, continues to enter the cycle stage according to aforesaid way,
Until reaching the predetermined area.Client notification client reaches the predetermined area on vehicle, after obtaining the barcode scanning confirmation of client, opens storing
Cabinet is unloaded.Client just returns to starting point after the unmanned transport vehicle picking in garden and reenters above-mentioned delivery process.
The utility model has advantageous effect below compared with prior art:
The utility model is designed reasonably, it is simple in structure, it is at low cost, facilitate deployment, improves working efficiency, it is highly practical;Energy
It provides automation unmanned transportation service for garden, saves manpower and time, than traditional artificial transport raising efficiency, and can be
Any time section is run;Unmanned transportation service provided by the utility model has data and information searching function, than traditional people
The defeated more preferable management of labour movement.
Description of the drawings
Fig. 1 is the system principle schematic diagram of the utility model;
Fig. 2 is the specific control system block diagram of the utility model;
Fig. 3 is the work flow diagram of the utility model.
Reference numeral is in figure:1, application module;11, remote server;12, client on vehicle;2, sensing module;21,
Camera;22, ultrasonic radar;3, decision-making module;31, Inertial Measurement Unit;32, satellite locator;33, electronic compass;4,
Execution module;41, base plate electric machine;42, braking system;43, steering;44, locker;45, drive system;46, embedded
Processor.
Specific implementation mode
The present invention will be further described in detail with reference to the embodiments and the accompanying drawings, but the implementation of the utility model
Mode is without being limited thereto.
As shown in Figures 1 to 3, the unmanned transport vehicle system in a kind of garden, including application module 1, sensing module 2, decision-making module 3
With execution module 4, wherein:
The application module 1 undertakes the connection unmanned transport vehicle in garden and uses for dispatching, monitoring the unmanned transport vehicle in garden
The responsibility at family and administrator realizes the data processing for receiving and sending with charge free express delivery or take-away;The application module 1 includes remote service
Client 12 on device 11 and vehicle, the remote server 11 are connected with client on vehicle 12, and client 12 is determined with described on vehicle
Plan module 3 is connected, and decision-making module 3 sends the location information of the unmanned transport vehicle in garden to client on vehicle 12, client on vehicle
This location information is sent to remote server 11 by 12, and remote server 11 analyzes the unmanned transport vehicle letter of user information and garden
Breath, then the unmanned transport vehicle in garden is assigned the task to by client on vehicle 12 and is executed;
The sensing module 2 is for perceiving the environment around the unmanned transport vehicle in garden and being digitized;The perception mould
Block 2 includes 22 module of 21 module of camera and ultrasonic radar, and 21 module of the camera is binocular camera 21, is arranged in garden
The front of the unmanned transport vehicle vehicle body in area, the image data for detecting the unmanned transport vehicle vehicle front road area in garden;It is described
22 module of ultrasonic radar is made of multiple ultrasonic radars 22, is arranged in the front and two side of the unmanned transport vehicle in garden, is used
In the obstacle information of the unmanned transport vehicle vehicle front in detection garden and two side areas;
The information and combining position information that the decision-making module 3 is transmitted according to the sensing module 2 make path planning, together
When decision-making module 3 be responsible for the security function, communication function and scheme control function of the unmanned transport vehicle in garden;The decision-making module 3
Including Inertial Measurement Unit 31 (IMU, Inertial Measurement Unit), satellite locator 32 and electronic compass 33, institute
The longitudinal axis rear portion that Inertial Measurement Unit 31, satellite locator 32 and electronic compass 33 are installed in the unmanned transport vehicle in garden is stated,
For detecting the unmanned transport vehicle vehicle body location information in garden and body gesture information;
The execution module 4 accurately executes the signal from the decision-making module 3, controls traveling, the system of unmanned transport
It moves, turn to and timely feedback;The execution module 4 includes base plate electric machine 41, steering 43, braking system 42, drive system
45, locker 44 and embeded processor 46, wherein the base plate electric machine 41 and locker 44 are all disposed within the unmanned transport in garden
Che Shang, the input terminal of the embeded processor 46 are connected with the output end of the decision-making module 3, the embeded processor
46 output end is connected with the steering 43, braking system 42 and drive system 45 respectively, the embeded processor
46 control traveling, steering and the braking of the unmanned transport vehicle in garden by instruction;
It is serial communication between the sensing module 2 and the decision-making module 3;The inertia measurement list of the decision-making module 3
It is serial communication between member 31 and satellite locator 32 and the decision-making module 3.
It is relatively fixed in view of the travel route of the unmanned transport vehicle in garden in the prior art, travel speed is relatively slow, work
It is single to make mode, the utility model is intended to free people from this repeated labor, and perceives garden using sensing module 2
The environmental information on unmanned transport vehicle vehicle body periphery draws out connecting way, recycles Inertial Measurement Unit 31 and satellite locator
32 obtain the position and attitude information of the unmanned transport vehicle in garden, and one is cooked up for the unmanned transport vehicle in garden by decision-making module 3
The track of traveling finally utilizes execution module 4 to control traveling momentum and the direction of the unmanned transport vehicle vehicle body in garden.
Specifically, the unmanned transport vehicle in garden is first obtained by client 12 on the vehicle of application module 1 from remote server 11
Surrounding map and node listing, and be transferred to map around the unmanned transport vehicle in garden and node listing using serial port
Decision-making module 3;Later by the Inertial Measurement Unit 31 of decision-making module 3, satellite locator 32 and electronic compass 33 judge garden without
The position and attitude information of people's transport vehicle, to check the unmanned transport vehicle in garden whether near nodal, if not sentencing near nodal
It is disconnected, if on having learned that road, to calculate the distance for reaching estimated node, and access path planning stage whether on having learned that road,
If not reporting an error and restarting in known road;If in estimated near nodal, the access path planning stage, wherein decision-making module 3 uses
The position and attitude information of the unmanned transport vehicle in garden is transferred to client 12 on vehicle by serial port.
Client 12 combines the information obtained by decision-making module 3 and sensing module 2 to generate the unmanned transport in garden on vehicle
The driving trace of vehicle, wherein camera 21 uses binocular camera 21, and client 12 passes through USB (Universal on vehicle
Serial Bus, universal serial bus) bus obtains plane information and depth information from camera 21, and passes through deep learning
Semantic segmentation algorithm is partitioned into the information of connecting way, then obtains correct depth information, structure by stereoscopic vision algorithmic match
The three-dimensional model of the unmanned transport vehicle vehicle front predeterminable area in building well area;And ultrasonic radar 22 uses ultrasonic sensor battle array
It arranges, client 12 obtains the obstacle of the unmanned transport vehicle vehicle body direction of advance in garden by serial communication from ultrasonic radar 22 on vehicle
Object information.
Embeded processor 46 receive on vehicle client 12 control vehicle traveling instruction, the control garden nobody
The instruction of transport vehicle traveling includes braking instruction, steering order and motor speed control instruction, and above-metioned instruction passes through embedded place
After managing the processing of device 46, braking letter is exported respectively to the braking system 42 of execution module 4, steering 43, drive system 45 respectively
Number, turn signal, motor speed control signal, wherein embeded processor 46 and braking system 42, steering 43, driving
D/A converting circuit is set between system 45, the voltage signal to export embeded processor 46 is converted into control braking system
The pulse signal of system 42, steering 43, drive system 45, to control the braking, steering and velocity of rotation of base plate electric machine 41.
The embeded processor 46 of execution module 4 receives 44 switch order of locker of the client 12 on vehicle, passes through
Become 44 switching signal of locker after the processing of embeded processor 46, control opening and the closing of locker 44, when client needs
When picking, locker 44 is opened, and after client confirms picking, locker 44 is automatically closed.
Client 12 updates path node list from remote server 11 on vehicle, continues to enter cycle rank according to aforesaid way
Section, until reaching the predetermined area.Client 12 notifies client to reach the predetermined area on vehicle, after obtaining the barcode scanning confirmation of client, beats
Open the unloading of locker 44.Client just returns to starting point after the unmanned transport vehicle picking in garden and reenters above-mentioned delivery process.
Wherein, STMicw Electronics (SGS-THOMSON can be selected in the embeded processor 46 of execution module 4
Microelectronics) the STM32F103 series embedded microprocessor chips of company, the embedded microprocessor of the series
Chip uses ARM Cortex-M3 core architectures, maximum operating frequency to reach 72MHZ, when the latent period of memory accesses
Up to 1.25DMisp.
Using exhaust brake equipment (EVB, Exhaust Value Brake), exhaust brake equipment passes through braking system 42
The mode of exhaust brake controls the braking of road sweeper vehicle body, and is beaten automatically by pressure wave in braking process by using exhaust valve
The phenomenon that opening increases the mechanism of a set of control exhaust valve travel, to realize that exhaust valve stays open during engine braking
The braking efficiency of engine is improved in one gap.
Steering 43 is using electric power steering apparatus (EPS, Electric PowerSteering), steering 43
Power steering is directly provided by electric boosted machine, eliminates power steering oil pump necessary to hydraulic power steering system 43, soft
Pipe, hydraulic oil, conveyer belt and loaded on a series of components such as belt pulleys on engine, not only save energy, but also environmental protection.
Base plate electric machine 41 uses brushed DC servo motor or three-phase direct-current brushless motor.
Inertial Measurement Unit 31 uses the MPU6050 series three axis accelerometers of InvenSense companies, angular speed complete
Lattice sensing range is ± 250 °, ± 500 °, ± 1000 ° with ± 2000 °/sec (dps), can accurately track quickly dynamic at a slow speed
Make, also, the full lattice sensing range of accelerator of user's programmable control is ± 2g, ± 4g, ± 8g and ± 16g.
Satellite locator 32 uses GPS (Global Positioning System, the whole world of NEO-7N UBLOX series
Positioning system) locating module, its positioning is expanded significantly with high sensitivity, low-power consumption, miniaturization, its tracking sensitivity
The characteristics of covering surface.
Electronic compass 33 is using the electronic compass 33 of the HMC5883L series of Honeywell (Honeywell) company, packet
High-resolution HMC118X series magnetoresistive sensors are included, and the integrated circuit for being attached to Honeywell patent includes amplifier, disappears automatically
Magnetic driven device, deviation calibration can make 12 analog-digital converters of the compass precision controlling at 1 °~2 °.
The utility model is designed reasonably, it is simple in structure, it is at low cost, facilitate deployment, improves working efficiency, it is highly practical;Energy
It provides automation unmanned transportation service for garden, saves manpower and time, than traditional artificial transport raising efficiency, and can be
Any time section is run;Unmanned transportation service provided by the utility model has data and information searching function, than traditional people
The defeated more preferable management of labour movement.
Above-mentioned is the preferable embodiment of the utility model, but the embodiment of the utility model is not by the above
Limitation, other any Spirit Essences without departing from the utility model under principle made by changes, modify, substitute, combine, simple
Change, should be equivalent substitute mode, be included within the scope of protection of the utility model.
Claims (8)
1. a kind of unmanned transport vehicle system in garden, which is characterized in that including application module, sensing module, decision-making module and execution
Module, wherein:
The application module for dispatching, monitor the unmanned transport vehicle in garden, and undertake the connection unmanned transport vehicle in garden and user and
The responsibility of administrator realizes the data processing for receiving and sending with charge free express delivery or take-away;The application module include remote server and
Client on vehicle, the remote server are connected with client on vehicle, and client is connected with the decision-making module on vehicle, certainly
Plan module sends the location information of the unmanned transport vehicle in garden to client on vehicle, this location information is sent to far by client on vehicle
Journey server, remote server analyzes user information and the unmanned transport vehicle information in garden, then is divided task by client on vehicle
The unmanned transport vehicle in dispensing garden executes;
The sensing module is for perceiving the environment around the unmanned transport vehicle in garden and being digitized;The sensing module includes
Camera module and ultrasonic radar module, the camera module are binocular camera, are arranged in the unmanned transport vehicle vehicle in garden
The front of body, the image data for detecting the unmanned transport vehicle vehicle front road area in garden;The ultrasonic radar module
It is made of, is arranged in the front and two side of the unmanned transport vehicle in garden, for detecting the unmanned transport in garden multiple ultrasonic radars
The obstacle information of vehicle vehicle front and two side areas;
The information and combining position information that the decision-making module is transmitted according to the sensing module make path planning, while decision
Module is responsible for the security function, communication function and scheme control function of the unmanned transport vehicle in garden;The decision-making module includes inertia
Measuring unit, satellite locator and electronic compass, the Inertial Measurement Unit, satellite locator and electronic compass are installed in garden
The longitudinal axis rear portion of the unmanned transport vehicle in area, for detecting the unmanned transport vehicle vehicle body location information in garden and body gesture information;
The execution module accurately executes the signal from the decision-making module, controls the unmanned traveling transported, braking, steering
And it timely feedbacks;The execution module includes base plate electric machine, steering, braking system, drive system, locker and embedded
Processor, wherein the base plate electric machine and locker are all disposed on the unmanned transport vehicle in garden, the embeded processor it is defeated
Enter end with the output end of the decision-making module to be connected, the output end of the embeded processor respectively with the steering,
Braking system is connected with drive system, and the embeded processor is controlled the traveling of the unmanned transport vehicle in garden by instruction, turned
To and braking;
It is serial communication between the sensing module and the decision-making module;The Inertial Measurement Unit and satellite of the decision-making module
It is serial communication between locator and the decision-making module.
2. the unmanned transport vehicle system in garden according to claim 1, which is characterized in that the embedded place of the execution module
It manages device and uses STM32F103 series embedded microprocessor chips.
3. the unmanned transport vehicle system in garden according to claim 1, which is characterized in that the braking system of the execution module
Using exhaust brake equipment.
4. the unmanned transport vehicle system in garden according to claim 1, which is characterized in that the steering of the execution module
Using electric power steering apparatus.
5. the unmanned transport vehicle system in garden according to claim 1, which is characterized in that the base plate electric machine of the execution module
Using brushed DC servo motor or three-phase direct-current brushless motor.
6. the unmanned transport vehicle system in garden according to claim 1, which is characterized in that the inertia measurement of the decision-making module
Unit uses MPU6050 series three axis accelerometers.
7. the unmanned transport vehicle system in garden according to claim 1, which is characterized in that the satellite positioning of the decision-making module
Device uses the GPS positioning module of NEO-7N UBLOX series.
8. the unmanned transport vehicle system in garden according to claim 1, which is characterized in that the electronic compass of the decision-making module
Using the electronic compass of HMC5883L series.
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CN201820310607.3U CN208092540U (en) | 2018-03-07 | 2018-03-07 | A kind of unmanned transport vehicle system in garden |
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CN201820310607.3U CN208092540U (en) | 2018-03-07 | 2018-03-07 | A kind of unmanned transport vehicle system in garden |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108303985A (en) * | 2018-03-07 | 2018-07-20 | 广东工业大学 | A kind of unmanned transport vehicle system in garden |
CN110378648A (en) * | 2019-07-09 | 2019-10-25 | 河南省吉立达机器人有限公司 | Unmanned dispatching carrier dispatches system and method |
CN114095664A (en) * | 2020-11-06 | 2022-02-25 | 北京京东乾石科技有限公司 | Camera parameter adjusting method and device |
-
2018
- 2018-03-07 CN CN201820310607.3U patent/CN208092540U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108303985A (en) * | 2018-03-07 | 2018-07-20 | 广东工业大学 | A kind of unmanned transport vehicle system in garden |
CN110378648A (en) * | 2019-07-09 | 2019-10-25 | 河南省吉立达机器人有限公司 | Unmanned dispatching carrier dispatches system and method |
CN114095664A (en) * | 2020-11-06 | 2022-02-25 | 北京京东乾石科技有限公司 | Camera parameter adjusting method and device |
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