CN110689095A - RFID-based garage management method and system - Google Patents

Abstract

The invention relates to the field of garage management, and provides a garage management method and system based on RFID (radio frequency identification devices), which are used for solving the problem of low vehicle checking efficiency in a garage. The invention provides a garage management method based on RFID, which comprises the following steps: the cloud end periodically acquires the fixed RFID information of the storage position and the RFID identification information of the warehousing vehicles located at the same position as the storage position, if the acquisition is successful, whether the fixed RFID information of the storage position is consistent with the RFID identification information of the vehicles is judged, and if the fixed RFID information of the storage position is not consistent with the RFID identification information of the vehicles, the data stored in the cloud end is updated. The checking efficiency is greatly improved; the accuracy of the vehicle position is ensured, the pressure of daily management is reduced, and the time of links such as vehicle moving, warehouse leaving and the like is saved; and accurate reference data is provided for the reasonable allocation and planning of the GTT library positions.

Description

RFID-based garage management method and system

Technical Field

The invention relates to the field of garage management, in particular to a method and a system for managing a garage based on RFID.

Background

The existing garage checking technology mainly comprises bar code checking and RFID checking, and specifically comprises the following steps:

checking the bar code: a worker needs to develop software at a computer end, create an inventory task and then scan a bar code by using a bar code scanning gun to perform inventory; or a mobile data collector (PDA) is used for scanning bar codes and checking, and data are collected in two ways and then form a data table for comparison and reference of enterprises.

RFID (radio frequency identification) checking: the method has the advantages that workers need to develop a set of checking software at the handheld reader-writer end, can link the RFID modules on the equipment, and quickly acquire data of the RFID labels by utilizing the advantage of quick group reading of ultrahigh frequency RFID, so that compared with bar code checking, the method does not need to search for bar codes by personnel and scan the bar codes, and greatly improves checking efficiency;

the existing garage inspection is mainly realized by security guard or robot inspection.

And (4) security patrol inspection: the safety protection personnel regularly accomplish the task of patrolling and examining according to the position and the route that patrol and examine that need patrol and examine, generally adopt to some registration (every position of patrolling and examining all puts this and patrols and examines the registration book, and the personnel of patrolling and examining register the content on this by oneself after arriving the position point) or to the bit card (every position of patrolling and examining all has a position label, reads the position label through patrolling and examining equipment, and the representative patrols and examines personnel and have this position) two kinds of modes and patrol and examine, mainly patrol and examine some security protections, fire control etc. position, prevent that the potential safety hazard from to.

And (3) robot inspection: the robot system has the advantages that the robot system is used for polling, the camera is mounted on the robot, a route is planned in the polling robot system, robot guidance is carried out in the modes of geomagnetism, radar, laser and the like, when the robot walks according to an appointed path, the camera on the robot can be started to record and shoot, so that a polling task is met, and the robot simultaneously supports polling in two control modes of full autonomy and remote control.

2. The prior art has the following defects:

the current equipment of checing can't carry on and patrol and examine the function, and the current robot of patrolling and examining can only accomplish to patrol and examine the function, and can't help the enterprise to satisfy the demand of checing when patrolling and examining.

Checking the bar code: the checking efficiency is very low, and checking personnel are required to search the goods one by one and manually scan, code and check;

RFID (radio frequency identification) checking: each cargo is pasted with an RFID label, and the RFID automatic identification technology can be used for quickly checking, so that the efficiency is improved, but the checking personnel still need to hold a handheld machine to check, and the manpower is wasted;

and (4) security patrol inspection: the traditional inspection can not ensure the accuracy, and inspection personnel can check in the inspection task all day at one time and can not do inspection in the real sense;

and (3) robot inspection: the robot can replace the polling personnel to perform polling tasks in a large-scale field, the phenomenon that the polling personnel falsify is prevented, the investment of the personnel can be reduced, and the polling robot has no checking function.

Disclosure of Invention

The invention provides a garage management method and system based on RFID (radio frequency identification devices), which solve the technical problem of low vehicle checking efficiency in a garage.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

a garage management method based on RFID comprises a cloud side: the cloud end periodically acquires the fixed RFID information of the storage position and the RFID identification information of the warehousing vehicles located at the same position as the storage position, if the acquisition is successful, whether the fixed RFID information of the storage position is consistent with the RFID identification information of the vehicles is judged, and if the fixed RFID information of the storage position is not consistent with the RFID identification information of the vehicles, the data stored in the cloud end is updated.

The cloud acquires and stores the basic information of the corresponding vehicle and the transmitted RFID identification information, and meanwhile, the information stored in the cloud is updated regularly, so that daily management of the whole garage is realized.

The whole garage is managed through the cloud end, the efficiency is high, the labor cost is low, the time for searching, checking, scanning, stacking and checking each vehicle is reduced, and the checking efficiency is greatly improved; the accuracy of the vehicle position is ensured, the pressure of daily management is reduced, and the time of links such as vehicle moving, warehouse leaving and the like is saved; and accurate reference data is provided for the reasonable allocation and planning of the GTT library positions.

Preferably, the cloud side performs warehousing before regularly acquiring fixed RFID information of a warehouse location and acquiring RFID identification information of a warehousing vehicle located at the same position as the warehouse location, and the warehousing method includes: the cloud acquires basic data of the vehicle entering the garage and stores the data; sending the information of the position of the garage, wherein the information of the position of the garage comprises the information of unused parking places; acquiring RFID identification information of the vehicles entering the garage, and storing the corresponding basic data of the vehicles entering the garage together with the RFID identification information; the parking position of the warehousing vehicle is obtained, the fixed RFID identification information of the parking position of the warehousing vehicle, the RFID identification information of the warehousing vehicle and the basic data are stored together, the cloud end obtains the warehouse-out instruction, and the RFID identification information of the vehicle corresponding to the warehouse-out instruction and the RFID identification information of the corresponding parking space are sent. And setting an identifier for the vehicle when the vehicle is put in storage so as to realize accurate management.

Preferably, the manner of updating the data stored in the cloud is as follows: storing the RFID identification information of the storage position, the RFID identification information of the vehicle entering the storage at the same position and the basic data of the vehicle together, and replacing the original RFID identification information of the vehicle entering the storage corresponding to the RFID identification information of the storage position and the basic data of the vehicle; or storing the RFID identification information of the vehicle in storage and the basic data of the vehicle together with the RFID identification information of the storage position at the same position, and replacing the original RFID identification information of the vehicle in storage and the identification information of the storage position corresponding to the basic data of the vehicle.

Preferably, in the process of acquiring the RFID identification information of the vehicle entering the garage, which is located at the same position as the garage position, if the acquisition fails, the state of the garage position is set to an idle state. The position of the vehicle is changed frequently, and the utilization efficiency of the parking space can be effectively improved by updating the state of the storage space in time.

The garage management method based on the RFID further comprises a mobile terminal, wherein the mobile terminal acquires basic data of the vehicles entering the garage and generates RFID identification information of the vehicles entering the garage according to the basic data of the vehicles entering the garage; and transmitting the basic data and the RFID identification information of the vehicle. The mobile terminal is used for acquiring and transmitting basic data of the vehicle and simultaneously producing RFID identification information.

Preferably, after the base data of the warehousing vehicles are obtained by the movement, the stored base data of the warehousing vehicles are called, whether the base data of the warehousing vehicles have corresponding RFID identification information or not is judged, and if the base data of the warehousing vehicles do not have corresponding RFID identification information, the RFID identification information of the warehousing vehicles is generated according to the base data of the warehousing vehicles; and if the corresponding RFID identification information exists, sending an error prompt. The RFID identification information is typically generated only once, and multiple identical identifications can result in information errors.

The RFID-based garage management method further comprises an AGV end, wherein the AGV end acquires fixed identification information of a garage position and sends the fixed identification information of the garage position; and acquiring the RFID identification information of the warehousing vehicle at the same position as the warehouse position, and if the acquisition is successful, sending the RFID identification information of the warehousing vehicle. The AGV end is used for regularly acquireing the data of vehicle parking position in the garage, can replace the check personnel to sweep sign indicating number check one by one, can replace the personnel of patrolling and examining to accomplish numerous, the task of repeating nature such as tired outside indoor simultaneously to raise the efficiency, reduce cost.

Preferably, the fixed identification information of the storage position acquired by the AGV end at the same time is at least one, and the RFID identification information of the storage vehicles at the same position as the storage position acquired by the AGV end at the same time is at least one. The AGV end can simultaneously acquire the information of a plurality of vehicles and corresponding storage positions.

A garage management method based on RFID comprises a cloud end, an AGV end and a mobile end; the cloud end acquires basic data of the vehicle entering the garage through the mobile end and stores the data; the cloud sends the information of the garage position of the garage, and guides the garage entering vehicles to park, wherein the information of the garage position comprises the information of unused parking spaces; the mobile terminal generates RFID identification information according to the basic data of the warehousing vehicles, the cloud acquires the RFID identification information of the warehousing vehicles, and the corresponding basic data of the warehousing vehicles and the RFID identification information are stored together; the cloud acquires the parking position of the warehousing vehicle, and stores the fixed RFID identification information of the parking position of the warehousing vehicle, the RFID identification information of the warehousing vehicle and the basic data; the cloud acquires the fixed RFID information of the storage position and the RFID identification information of the warehousing vehicles which are located at the same position as the storage position through the AGV, judges whether the fixed RFID information of the storage position is consistent with the RFID identification information of the vehicles if the fixed RFID information of the storage position and the RFID identification information of the warehousing vehicles are successfully acquired, and updates the data stored in the cloud if the fixed RFID information of the storage position is inconsistent with the RFID identification information of the vehicles.

The RFID-based garage management system comprises a cloud end, an AGV end, a moving end, a storage position mark and a storage vehicle mark, wherein the cloud end is connected with the AGV end, the cloud end is connected with the moving end, the storage position mark is fixedly arranged on a storage position of a garage, and the storage vehicle mark is adhered to a storage vehicle; the AGV end comprises at least one AGV robot, and the AGV robot comprises an RFID reader-writer. The RFID read-write and AGV robot are combined, so that the information of vehicles and storage positions in a certain area can be read in batches, and the checking efficiency is improved.

Preferably, the application environment of the warehouse location identification is-55 ~ 105 ℃, the waterproof and dustproof grade of the warehouse location identification is at least IP67, the warehouse location identification can emit 120-degree radio frequency waves, the warehouse entry vehicle identification comprises a base material and a chip, the base material is one of coated paper and PET, the chip is an Impinj chip, and the back of the warehouse entry vehicle identification is provided with an adhesive layer.

Compared with the prior art, the invention has the beneficial effects that: the checking efficiency is greatly improved; the accuracy of the vehicle position is ensured, the pressure of daily management is reduced, and the time of links such as vehicle moving, warehouse leaving and the like is saved; and accurate reference data is provided for the reasonable allocation and planning of the GTT library positions.

Drawings

Fig. 1 is a schematic diagram of a method for managing a garage based on RFID.

Fig. 2 is another schematic diagram of a method for RFID-based garage management.

Fig. 3 is another schematic diagram of a method for RFID-based garage management.

Detailed Description

The following examples are further illustrative of the present invention and are not intended to be limiting thereof.

An RFID-based garage management method, as shown in fig. 1, in some embodiments of the present application, includes a cloud: the cloud end periodically acquires the fixed RFID information of the storage position and the RFID identification information of the warehousing vehicles located at the same position as the storage position, if the acquisition is successful, whether the fixed RFID information of the storage position is consistent with the RFID identification information of the vehicles is judged, and if the fixed RFID information of the storage position is not consistent with the RFID identification information of the vehicles, the data stored in the cloud end is updated.

The cloud acquires and stores the basic information of the corresponding vehicle and the transmitted RFID identification information, and meanwhile, the information stored in the cloud is updated regularly, so that daily management of the whole garage is realized.

The whole garage is managed through the cloud end, the efficiency is high, the labor cost is low, the time for searching, checking, scanning, stacking and checking each vehicle is reduced, and the checking efficiency is greatly improved; the accuracy of the vehicle position is ensured, the pressure of daily management is reduced, and the time of links such as vehicle moving, warehouse leaving and the like is saved; and accurate reference data is provided for the reasonable allocation and planning of the GTT library positions.

In other embodiments of the present application, as shown in fig. 2, before the cloud periodically acquires the fixed RFID information of the storage location and acquires the RFID identification information of the vehicle entering the storage at the same position as the storage location, the vehicle enters the storage first, and the method for entering the storage includes: the cloud acquires basic data of the vehicle entering the garage and stores the data; sending the information of the position of the garage, wherein the information of the position of the garage comprises the information of unused parking places; acquiring RFID identification information of the vehicles entering the garage, and storing the corresponding basic data of the vehicles entering the garage together with the RFID identification information; the parking position of the warehousing vehicle is obtained, the fixed RFID identification information of the parking position of the warehousing vehicle, the RFID identification information of the warehousing vehicle and the basic data are stored together, the cloud end obtains the warehouse-out instruction, and the RFID identification information of the vehicle corresponding to the warehouse-out instruction and the RFID identification information of the corresponding parking space are sent.

And setting an identifier for the vehicle when the vehicle is put in storage so as to realize accurate management.

In other embodiments of the present application, in the process of acquiring the RFID identification information of the vehicle entering the garage, which is located at the same position as the garage position, if the acquisition fails, the state of the garage position is set to an idle state.

The position of the vehicle is changed frequently, and the utilization efficiency of the parking space can be effectively improved by updating the state of the storage space in time.

In other embodiments of the present application, the method for managing a garage further includes a mobile terminal, where the mobile terminal obtains basic data of a vehicle entering a garage, and generates RFID identification information of the vehicle entering the garage according to the basic data of the vehicle entering the garage; and transmitting the basic data and the RFID identification information of the vehicle.

The mobile terminal is used for acquiring and transmitting basic data of the vehicle and simultaneously producing RFID identification information.

In other embodiments of the present application, after obtaining the base data of the vehicle entering the garage by the mobile terminal, calling the stored base data of the vehicle entering the garage, and determining whether the base data of the vehicle entering the garage has corresponding RFID identification information, if no corresponding RFID identification information exists, generating the RFID identification information of the vehicle entering the garage according to the base data of the vehicle entering the garage; and if the corresponding RFID identification information exists, sending an error prompt.

The RFID identification information is typically generated only once, and multiple identical identifications can result in information errors.

In other embodiments of the present application, the method further includes an AGV end, where the AGV end acquires fixed identification information of a storage location and sends the fixed identification information of the storage location; and acquiring the RFID identification information of the warehousing vehicle at the same position as the warehouse position, and if the acquisition is successful, sending the RFID identification information of the warehousing vehicle.

The AGV end is used for regularly acquireing the data of vehicle parking position in the garage, can replace the check personnel to sweep sign indicating number check one by one, can replace the personnel of patrolling and examining to accomplish numerous, the task of repeating nature such as tired outside indoor simultaneously to raise the efficiency, reduce cost.

In other embodiments of the present application, the AGV end obtains at least one piece of fixed identification information of the storage location at the same time, and the AGV end obtains at least one piece of RFID identification information of the vehicle entering the storage at the same position as the storage location at the same time.

The AGV end can simultaneously acquire the information of a plurality of vehicles and corresponding storage positions.

In other embodiments of the present application, as shown in fig. 3, the method includes a cloud end, an AGV end, and a mobile end; the cloud end acquires basic data of the vehicle entering the garage through the mobile end and stores the data; the cloud sends the information of the garage position of the garage, and guides the garage entering vehicles to park, wherein the information of the garage position comprises the information of unused parking spaces; the mobile terminal generates RFID identification information according to the basic data of the warehousing vehicles, the cloud acquires the RFID identification information of the warehousing vehicles, and the corresponding basic data of the warehousing vehicles and the RFID identification information are stored together; the cloud acquires the parking position of the warehousing vehicle, and stores the fixed RFID identification information of the parking position of the warehousing vehicle, the RFID identification information of the warehousing vehicle and the basic data; the cloud acquires the fixed RFID information of the storage position and the RFID identification information of the warehousing vehicles which are located at the same position as the storage position through the AGV, judges whether the fixed RFID information of the storage position is consistent with the RFID identification information of the vehicles if the fixed RFID information of the storage position and the RFID identification information of the warehousing vehicles are successfully acquired, and updates the data stored in the cloud if the fixed RFID information of the storage position is inconsistent with the RFID identification information of the vehicles.

The RFID-based garage management system comprises a cloud end, an AGV end, a moving end, a storage position mark and a storage vehicle mark, wherein the cloud end is connected with the AGV end, the cloud end is connected with the moving end, the storage position mark is fixedly arranged on a storage position of a garage, and the storage vehicle mark is adhered to a storage vehicle; the AGV end comprises at least one AGV robot, and the AGV robot comprises an RFID reader-writer.

The RFID read-write and AGV robot are combined, so that the information of vehicles and storage positions in a certain area can be read in batches, and the checking efficiency is improved.

The application environment of the warehouse location identification is-55 ~ 105 ℃, the waterproof and dustproof grade of the warehouse location identification is at least IP67, the warehouse location identification can emit 120-degree radio frequency waves, the warehouse entry vehicle identification comprises a base material and a chip, the base material is one of coated paper and PET, the chip is an Impinj chip, and the back of the warehouse entry vehicle identification is provided with an adhesive layer.

The above detailed description is specific to possible embodiments of the present invention, and the above embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention should be included in the present claims.

Claims (10)

1. A garage management method based on RFID is characterized by comprising a cloud end: the cloud end periodically acquires the fixed RFID information of the storage position and the RFID identification information of the warehousing vehicles located at the same position as the storage position, if the acquisition is successful, whether the fixed RFID information of the storage position is consistent with the RFID identification information of the vehicles is judged, and if the fixed RFID information of the storage position is not consistent with the RFID identification information of the vehicles, the data stored in the cloud end is updated.

2. The RFID-based garage management method of claim 1, wherein the cloud side enters the garage before regularly acquiring the fixed RFID information of the garage location and acquiring the RFID identification information of the garage-entering vehicle at the same position as the garage location, and the garage entering method comprises the following steps: the cloud acquires basic data of the vehicle entering the garage and stores the data; sending the information of the position of the garage, wherein the information of the position of the garage comprises the information of unused parking places; acquiring RFID identification information of the vehicles entering the garage, and storing the corresponding basic data of the vehicles entering the garage together with the RFID identification information; the parking position of the warehousing vehicle is obtained, the fixed RFID identification information of the parking position of the warehousing vehicle, the RFID identification information of the warehousing vehicle and the basic data are stored together, the cloud end obtains the warehouse-out instruction, and the RFID identification information of the vehicle corresponding to the warehouse-out instruction and the RFID identification information of the corresponding parking space are sent.

3. The RFID-based garage management method of claim 2, wherein in the process of acquiring the RFID identification information of the vehicle entering the garage at the same position as the garage position, if the acquisition fails, the state of the garage position is set to an idle state.

4. The garage management method based on the RFID is characterized by further comprising a mobile terminal, wherein the mobile terminal acquires basic data of the vehicles entering the garage and generates RFID identification information of the vehicles entering the garage according to the basic data of the vehicles entering the garage; and transmitting the basic data and the RFID identification information of the vehicle.

5. The RFID-based garage management method according to claim 4, wherein after the base data of the warehousing vehicles are obtained by the movement, the stored base data of the warehousing vehicles are called to judge whether the base data of the warehousing vehicles have corresponding RFID identification information, and if the corresponding RFID identification information does not exist, the RFID identification information of the warehousing vehicles is generated according to the base data of the warehousing vehicles; and if the corresponding RFID identification information exists, sending an error prompt.

6. The RFID-based garage management method is characterized by further comprising an AGV end, wherein the AGV end acquires fixed identification information of a garage position and sends the fixed identification information of the garage position; and acquiring the RFID identification information of the warehousing vehicle at the same position as the warehouse position, and if the acquisition is successful, sending the RFID identification information of the warehousing vehicle.

7. The RFID-based garage management method according to claim 6, wherein the number of the fixed identification information of the storage locations acquired by the AGV end at the same time is at least one, and the number of the RFID identification information of the warehousing vehicles at the same position as the storage locations acquired by the AGV end at the same time is at least one.

8. A garage management method based on RFID is characterized by comprising a cloud end, an AGV end and a mobile end; the cloud end acquires basic data of the vehicle entering the garage through the mobile end and stores the data; the cloud sends the information of the garage position of the garage, and guides the garage entering vehicles to park, wherein the information of the garage position comprises the information of unused parking spaces; the mobile terminal generates RFID identification information according to the basic data of the warehousing vehicles, the cloud acquires the RFID identification information of the warehousing vehicles, and the corresponding basic data of the warehousing vehicles and the RFID identification information are stored together; the cloud acquires the parking position of the warehousing vehicle, and stores the fixed RFID identification information of the parking position of the warehousing vehicle, the RFID identification information of the warehousing vehicle and the basic data; the cloud acquires the fixed RFID information of the storage position and the RFID identification information of the warehousing vehicles which are located at the same position as the storage position through the AGV, judges whether the fixed RFID information of the storage position is consistent with the RFID identification information of the vehicles if the fixed RFID information of the storage position and the RFID identification information of the warehousing vehicles are successfully acquired, and updates the data stored in the cloud if the fixed RFID information of the storage position is inconsistent with the RFID identification information of the vehicles.

9. The garage management system based on the RFID is characterized by comprising a cloud end, an AGV end, a mobile end, a garage position mark and a garage entering vehicle mark, wherein the cloud end is connected with the AGV end, the cloud end is connected with the mobile end, the garage position mark is fixedly arranged on a garage position of a garage, and the garage entering vehicle mark is adhered to a garage entering vehicle; the AGV end comprises at least one AGV robot, and the AGV robot comprises an RFID reader-writer.

10. The RFID-based garage management system of claim 9, wherein the application environment of the garage position identifier is-55 ~ 105 ℃, the waterproof and dustproof grade of the garage position identifier is at least IP67, the garage position identifier can emit 120-degree radio frequency waves, the garage entering vehicle identifier comprises a base material and a chip, the base material is one of coated paper and PET, the chip is an Impinj chip, and an adhesive layer is arranged on the back surface of the garage entering vehicle identifier.

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