CN115273527A

CN115273527A - Cloud parking lot debugging scheme based on mobile device

Info

Publication number: CN115273527A
Application number: CN202210717542.5A
Authority: CN
Inventors: 何嘉灵; 吴云峰; 杨裕基
Original assignee: Guangdong Ake Technology Co ltd
Current assignee: Guangdong Ake Technology Co ltd
Priority date: 2022-06-23
Filing date: 2022-06-23
Publication date: 2022-11-01

Abstract

The invention discloses a cloud parking lot debugging scheme based on mobile equipment, which can not only complete parameter configuration of a barrier gate device and a cloud server at one time, but also directly debug a cloud parking lot after the parameter configuration is completed by connecting the barrier gate device and the cloud server by using a terminal A with network and Bluetooth functions, and can solve the problems in the prior art. The invention relates to a cloud parking lot debugging scheme based on mobile equipment, which comprises the following steps: the cloud parking lot comprises at least two barrier gate devices and a cloud server, the barrier gate devices are used for shooting license plate information and switching on and off a gate rod according to instructions of the cloud server, and each barrier gate device further comprises a Bluetooth module; s1: connecting the terminal A with the barrier gate device through Bluetooth; s2: starting a debugging carrier installed in the terminal A; s3: debugging the barrier gate device and the cloud server through the debugging carrier; s4: and testing the debugged cloud parking lot.

Description

Cloud parking lot debugging scheme based on mobile device

Technical Field

The invention relates to the technical field of parking lots, in particular to a cloud parking lot debugging scheme based on mobile equipment.

Background

The cloud parking lot is a novel parking lot, does not need an offline server, is communicated with the online server through a wireless network or a wired network, and realizes various functions of the traditional parking lot.

With the development of the parking lot technology, the cloud parking lot is low in cost and simple in construction, and is rapidly developed. In the prior art, manual computer-based parameter configuration is adopted to perform parameter configuration on the parking lot entrance and exit equipment and the cloud server respectively, network IP setting needs to be performed on the parking lot entrance and exit equipment when the parking lot entrance and exit equipment is subjected to parameter configuration, then the computer performs parameter debugging on the parking lot entrance and exit equipment in a network cable connecting mode, then parameter configuration needs to be performed on the cloud server, so that parameters of the parking lot entrance and exit equipment and the cloud server are matched, and finally the parking lot entrance and exit equipment and the cloud server are tested. The whole debugging process is complex and tedious, mistakes are easy to occur, and particularly, in the construction process of many cloud parking lots, network functions are not opened in the debugging process in many times, so that great difficulty exists in debugging.

Therefore, how to improve the existing cloud parking lot to solve the above problems is an important technical problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The invention discloses a cloud parking lot debugging scheme based on mobile equipment, which can not only complete parameter configuration of a barrier gate device and a cloud server at one time, but also directly debug a cloud parking lot after the parameter configuration is completed by connecting the barrier gate device and the cloud server by using a terminal A with network and Bluetooth functions, and can solve the problems in the prior art.

The invention provides a mobile device-based cloud parking lot debugging scheme, which is used in a cloud parking lot and comprises the following steps:

the cloud parking lot comprises at least two barrier gate devices and a cloud server, the barrier gate devices are used for shooting license plate information and switching on and off a gate rod according to instructions of the cloud server, and each barrier gate device further comprises a Bluetooth module;

defining a handheld terminal with network and Bluetooth functions as a terminal A;

s1: connecting the terminal A with the barrier gate device through Bluetooth;

s2: starting a debugging carrier installed in the terminal A;

s3: debugging the barrier gate device and the cloud server through the debugging carrier;

s4: and testing the debugged cloud parking lot.

In a preferred embodiment of the method of the invention,

the step S2 and the step S3 further include:

and performing identity verification on the user A corresponding to the terminal A through the debugging carrier, executing the step S3 after the identity verification is passed, and otherwise, sending information which is not passed to the cloud server.

Preferably, the first and second liquid crystal materials are,

the authentication of the user A corresponding to the terminal A through the debugging carrier comprises:

verifying whether the user A is a debugging person authenticated by the cloud server;

and/or the presence of a gas in the gas,

and verifying whether the user A has the authority of debugging the barrier gate device.

In a preferred embodiment of the method of the invention,

after the step S4, the method further includes: and uploading the test result and the debugging process of the cloud parking lot to the cloud server.

In a preferred embodiment of the method of the invention,

the terminal A is a mobile phone.

Preferably, the first and second liquid crystal materials are,

the step S1 includes:

and the terminal A is connected with the barrier gate device in a two-dimensional code scanning mode.

In a preferred embodiment of the method of the invention,

the step S3 includes:

the cloud platform is used for storing and configuring parameters and parameter templates of the adjusting barrier gate device and the cloud server;

setting configuration parameters of the barrier gate device and the cloud server;

the cloud platform carries out big data verification on the configuration parameters;

and alarming the configuration parameters which fail to pass the verification.

Preferably, the first and second liquid crystal materials are,

the step S3 includes:

the cloud platform is used for storing parameters and parameter templates for configuring the adjusting barrier gate device and the cloud server;

the cloud platform performs parameter pre-configuration on the barrier gate device and the cloud server through a parameter template;

adjusting configuration parameters of the barrier gate device and the cloud server;

the cloud platform performs big data verification on the configuration parameters;

and alarming the configuration parameters which fail to pass the verification.

In a preferred embodiment of the method of the invention,

the step S4 includes:

and carrying out vehicle entering and exiting test, information receiving and transmitting test and broadcasting test on the cloud parking lot.

In a preferred embodiment of the method of the invention,

the debugging carrier comprises a WeChat applet, an APP and/or a webpage end.

The invention provides a mobile device-based cloud parking lot debugging scheme, which is used in a cloud parking lot and comprises the following steps: the cloud parking lot comprises at least two barrier gate devices and a cloud server, the barrier gate devices are used for shooting license plate information and switching on and off a gate rod according to instructions of the cloud server, and each barrier gate device further comprises a Bluetooth module; defining a handheld terminal with network and Bluetooth functions as a terminal A; s1: connecting the terminal A with the barrier gate device through Bluetooth; s2: starting a debugging carrier installed in the terminal A; s3: debugging the barrier gate device and the cloud server through the debugging carrier; s4: and testing the debugged cloud parking lot. In a mode of connecting the barrier gate device with the cloud server by using the terminal A with the network and Bluetooth functions, the cloud parking lot debugging scheme based on the mobile device can not only complete parameter configuration of the barrier gate device and the cloud server at one time, but also can directly debug the cloud parking lot after the parameter configuration is completed, and can solve the problems in the prior art.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a flowchart of a first embodiment of a mobile device based cloud parking lot commissioning scheme of the present invention;

fig. 2 is a flowchart of a second embodiment of the mobile device-based cloud parking lot commissioning solution of the present invention;

FIG. 3 is a flowchart of a third embodiment of a mobile device based cloud parking lot commissioning solution of the present invention;

fig. 4 is a flowchart of a fourth embodiment of the mobile device based cloud parking lot commissioning solution of the present invention;

fig. 5 is a flowchart of a fifth embodiment of the mobile device-based cloud parking lot commissioning solution of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention are described in detail below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. Referring to fig. 1, the mobile device-based cloud parking lot debugging scheme provided by the present invention is used in a cloud parking lot, and includes:

the cloud parking lot comprises at least two barrier gate devices and a cloud server, the barrier gate devices are used for shooting license plate information and switching on and off a gate rod according to instructions of the cloud server, and the barrier gate devices further comprise Bluetooth modules;

firstly, it should be noted that, a general cloud parking lot must include an entrance barrier gate and an exit barrier gate, and according to the scale of the cloud parking lot, a plurality of entrance barrier gates or a plurality of exit barrier gates may be included; in an extreme case, there may be only one barrier device in a part of a cloud parking lot, which is responsible for entering and exiting the parking lot at the same time, but this is rare. The handheld terminal, that is, the terminal a, may be a terminal having network and bluetooth functions, such as a mobile phone, a tablet computer, or a PDA, in which most of the terminals a are mobile phones, and most of the mobile phones have bluetooth and network functions today as daily necessities, so the present invention is applicable to most of the scenes.

In addition, the barrier gate device comprises a camera gun, wherein the Bluetooth module can be arranged in the camera gun. It must be pointed out that bluetooth module sets up to be a better technical scheme in the rifle of making a video recording, and according to the use scene of difference, bluetooth module can also set up inside the banister device, the brake lever, even in any position of cloud parking area access & exit, as long as bluetooth module and banister device in the treater link can, do not limit here.

S1: connecting the terminal A with the barrier gate device through Bluetooth;

it should be noted that information such as a two-dimensional code and a bluetooth name for bluetooth connection may be set on the barrier device, and when a user needs to debug the barrier device, the connection between the terminal a and the barrier device through bluetooth may be completed according to the information.

Specifically, the barrier gate device can be sprayed or pasted with the two-dimensional code, and the terminal A is connected with the barrier gate device in a two-dimensional code scanning mode.

S2: starting a debugging carrier installed in the terminal A;

after the terminal a is connected with the barrier gate device, the debugging carrier can be automatically started, and certainly, the debugging carrier can be set to be opened by the user on the terminal a, and no limitation is made here.

The debugging carrier can comprise a wechat applet, an APP and/or a webpage end, for example, the debugging carrier is the wechat applet, so that the terminal A can be connected with the gateway device in a mode of scanning the two-dimensional code by the wechat, after the terminal A is connected with the gateway device, the wechat applet related to the cloud parking lot can be automatically opened by the wechat, and a user can complete parameter configuration of the gateway device and the cloud server through the wechat applet.

debugging the barrier gate device and the cloud server, wherein the debugging can comprise the lifting speed of a gate rod of the barrier gate device, the display content of a display screen, a vehicle entering and exiting channel, a license plate recognition area, a camera gun recognition area and the like; charging standards for cloud servers, license plate white lists and the like.

The terminal A can be a mobile phone, and debugging of the barrier gate device and the cloud server can be completed by filling various configuration parameters in the mobile phone

S4: and testing the debugged cloud parking lot.

After step S3 is completed, the cloud parking lot may be tested to verify whether each function of the cloud parking lot is normal, for example, the method may include a vehicle entering and exiting test (whether a brake lever can be lifted normally when a real vehicle enters and exits), an information receiving and sending test (whether a cloud server receives vehicle entering and exiting information), and a broadcast test (whether voice broadcast of a barrier gate device conforms to actual conditions).

The first embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention is described above, the second embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention is described below, please refer to fig. 2, the second embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention adds steps to the first embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention, and other steps are the same, so only newly added steps are described below, and other steps are not repeated:

a1: connecting the terminal A with the barrier gate device through Bluetooth;

a2: starting a debugging carrier installed in the terminal A;

a3: performing identity verification on the user A corresponding to the terminal A through the debugging carrier, and executing the step A4 after the identity verification is passed, otherwise, sending information that the verification is not passed to the cloud server;

it should be noted that the identity of the debugger is crucial to some extent for cloud parking lot debugging, and generally, the debugger authenticated by the cloud server needs to be selected for debugging. Particularly, when the barrier gate device is sold outside, the region limitation exists in part, so that the region limitation also exists for debugging personnel, for example, the barrier gate device sold to Shenzhen must be debugged by the debugging personnel of Shenzhen, and the like; for example, there is a limitation on the project side when the barrier gate is actually used, for example, the barrier gate device sold to the building S must be debugged by a debugging person in charge of the building S project, and other persons are not authorized to debug.

The specifically performing, by the debugging carrier, identity authentication on the user a corresponding to the terminal a may include: verifying whether the user A is a debugging person authenticated by the cloud server; and/or verifying whether the user A has the right to debug the barrier gate device. In short, it is determined whether the person qualifies for debugging, and then whether the person has the right to debug the gateway device. If the user A is judged not to be authenticated by the cloud server or not to have the authority of debugging the barrier gate device, the user A can be reported to the cloud server, and the cloud server performs subsequent processing.

A4: debugging the barrier gate device and the cloud server through the debugging carrier;

a5: and testing the debugged cloud parking lot.

In the embodiment, the verification of the debugging personnel, namely the user a is added, which is not only to ensure the correctness of the debugging, but also to facilitate the responsibility tracing when the barrier gate device has problems in the operation process.

The second embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention is introduced above, the third embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention is introduced below, please refer to fig. 3, the first embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention adds steps to the first embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention, and other steps are the same, so only newly added steps are introduced below, and other steps are not repeated:

b1: connecting the terminal A with the barrier gate device through Bluetooth;

b2: starting a debugging carrier installed in the terminal A;

b3: b4, performing identity verification on the user A corresponding to the terminal A through the debugging carrier, and executing the step B4 after the identity verification is passed, otherwise, sending information that the verification is not passed to the cloud server;

b4: debugging the barrier gate device and the cloud server through the debugging carrier;

b5: testing the debugged cloud parking lot;

b6: and uploading the test result and the debugging process of the cloud parking lot to the cloud server.

After the test is finished, the result of the test of the cloud parking lot and the debugging process can be uploaded to the cloud server, the cloud server stores data, on one hand, the data can be used as part of big data, and on the other hand, the data can be used as original data traced back when the cloud parking lot goes wrong.

It should be noted that the data in the debugging process may be uploaded simultaneously in the whole debugging process, and is not limited to uploading the whole debugging data after the debugging is completed, and is not limited herein.

In a mode of connecting the barrier gate device with the cloud server by using the terminal A with the network and Bluetooth functions, the cloud parking lot debugging scheme based on the mobile device can not only complete parameter configuration of the barrier gate device and the cloud server at one time, but also can directly debug the cloud parking lot after the parameter configuration is completed, and can solve the problems in the prior art.

The third embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention is introduced above, the fourth embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention is introduced below, please refer to fig. 4, the fourth embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention refines step S3 in the first embodiment of the mobile device-based cloud parking lot debugging scheme of the present invention, and other steps are the same, so that only the specific refining process of step S3 is introduced below, and other steps are not repeated:

before the present embodiment, it should be noted that the cloud platform is a set of a plurality of cloud servers in the present invention, that is, the cloud platform is composed of the plurality of cloud servers, and the cloud platform can manage the plurality of cloud servers. In the case of only one cloud server, the cloud server is equivalent to the cloud platform.

C1: connecting the terminal A with the barrier gate device through Bluetooth;

c2: starting a debugging carrier installed in the terminal A;

c3: the cloud platform is used for storing parameters and parameter templates for configuring the adjusting barrier gate device and the cloud server; setting configuration parameters of the gateway device and the cloud server, carrying out big data verification on the configuration parameters by the cloud platform, and giving an alarm on the configuration parameters which fail to pass the verification;

it should be noted that when parameters of the barrier device and the cloud server are specifically configured, the parameters of the barrier device and the cloud server may be configured first according to experience, in the process of configuring the parameters, the cloud platform performs big data verification on the configuration parameters, can screen out some configuration parameters that obviously do not meet the requirements, and at this time, can alarm the configuration parameters that do not meet the requirements.

Specifically, for example, in a certain barrier gate device, the switching on and off of the gate rod can be completed within 2 to 3 seconds, if the switching on and off time of the gate rod is configured to be 1 second by a debugging person, the configuration obviously not conforming to the capability of the gate rod device appears, and at the moment, the configuration parameters can be simply identified through the cloud platform, so that the error probability of the debugging person can be reduced. In addition, with the continuous enrichment of big data in the cloud platform, the error correction capability of the cloud platform can be continuously improved, and the error probability of debugging personnel can be further reduced.

C4: and testing the debugged cloud parking lot.

The fourth embodiment of the mobile device-based cloud parking lot commissioning solution of the present invention is described above, the fifth embodiment of the mobile device-based cloud parking lot commissioning solution of the present invention is described below, please refer to fig. 5, the fifth embodiment of the mobile device-based cloud parking lot commissioning solution of the present invention refines step S3 in the first embodiment of the mobile device-based cloud parking lot commissioning solution of the present invention, and other steps are the same, so that only the specific refining process of step S3 is described below, and other steps are not repeated:

d1: connecting the terminal A with the barrier gate device through Bluetooth;

d2: starting a debugging carrier installed in the terminal A;

d3: the cloud platform is used for storing parameters and parameter templates for configuring the adjusting barrier gate device and the cloud server; the cloud platform performs parameter pre-configuration on the barrier gate device and the cloud server through a parameter template, adjusts configuration parameters of the barrier gate device and the cloud server, performs big data verification on the configuration parameters, and gives an alarm for the configuration parameters which do not pass the verification;

in another parameter configuration method, a cloud platform can be used for parameter pre-configuration, namely the cloud platform performs parameter pre-configuration on the barrier device and the cloud server through a parameter template, then a debugging worker adjusts the configuration parameters of the barrier device and the cloud server according to actual conditions, and finally the cloud platform performs big data verification on the configuration parameters.

D4: and testing the debugged cloud parking lot.

It will be understood by those skilled in the art that all or part of the steps in the method for implementing the above embodiments may be implemented by hardware that is instructed to implement by a program, and the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

In the above, the cloud parking lot debugging scheme based on the mobile device provided by the present invention is described in detail, and persons skilled in the art may change the concept of the embodiment of the present invention in the specific implementation manner and the application range.

Claims

1. A cloud parking lot debugging scheme based on mobile equipment is used in a cloud parking lot and is characterized by comprising the following steps:

s1: connecting the terminal A with the barrier gate device through Bluetooth;

s2: starting a debugging carrier installed in the terminal A;

s4: and testing the debugged cloud parking lot.

2. The mobile device-based cloud parking lot debugging scheme according to claim 1, wherein between step S2 and step S3, further comprising:

3. The mobile device-based cloud parking lot debugging scheme according to claim 2, wherein the authenticating the user a corresponding to the terminal a through the debugging carrier comprises:

and/or the presence of a gas in the atmosphere,

4. The mobile device-based cloud parking lot commissioning solution of claim 2, further comprising after said step S4: and uploading the test result and the debugging process of the cloud parking lot to the cloud server.

5. The mobile device-based cloud parking lot debugging scheme of claim 4, wherein the terminal A is a mobile phone.

6. The mobile device-based cloud parking lot commissioning scheme of any one of claims 1 to 5, wherein said step S1 comprises:

7. The mobile device-based cloud parking lot commissioning solution of any one of claims 1 to 5, wherein said step S3 comprises:

and alarming the configuration parameters which fail to pass the verification.

8. The mobile device-based cloud parking lot commissioning solution of any one of claims 1 to 5, wherein said step S3 comprises:

and alarming the configuration parameters which fail to pass the verification.

9. The mobile device based cloud parking lot commissioning solution of claim 7, wherein said step S4 comprises:

10. The mobile device-based cloud parking lot commissioning solution of claim 8,

the debugging carrier comprises a WeChat applet, an APP and/or a webpage end.