CN113593127B

CN113593127B - Control method of portable power source leasing terminal

Info

Publication number: CN113593127B
Application number: CN202010370002.5A
Authority: CN
Inventors: 邹海文; 刘大力
Original assignee: Hainan Palm Energy Media Co ltd
Current assignee: Hainan Palm Energy Media Co ltd
Priority date: 2020-04-30
Filing date: 2020-04-30
Publication date: 2023-09-29
Anticipated expiration: 2040-04-30
Also published as: CN113593127A

Abstract

The invention provides a control method of a portable power source leasing terminal, which is based on a Bluetooth/NFC/infrared transmission module and the like, and does not depend on a module of a mobile communication network for interacting data through near field communication, and a program of a mobile terminal is used for scanning a two-dimensional code on leasing equipment or an NFC module close to the leasing equipment or transmitting infrared data and the like to finish authentication with the leasing equipment and then carry out subsequent leasing and order streaming.

Description

Control method of portable power source leasing terminal

Technical Field

The invention relates to the technical field of mobile power supplies, in particular to a method for communication of a mobile power supply leasing terminal in a non-network or weak-network state.

Background

The sharing mobile power supply industry in the mobile power supply industry is an important portable mobile power supply industry. Currently, in the industry of sharing mobile power supply, a user mainly scans codes and rents the mobile power supply to create a renting order, and a mobile power supply renting terminal is connected with a central server through a wireless network card communication device. Mobile internet has undergone vigorous development during the past few years as spring bamboo shoots after raining, and with rapid popularization of intelligent terminal devices such as tablet computers and smart phones, the number of terminal devices using mobile data and explosive growth of mobile data traffic are brought, and the traffic volume of a mobile communication network is continuously approaching to the upper limit of the capacity of the mobile communication network. Particularly, in application scenes such as sports venues, gathering places, transportation hubs and the like with dense people flow, the demand of dense use of mobile data use terminals on a communication channel often approaches the upper limit of the capacity of network establishment, so that network congestion and delay are caused. In some situations, such as underground parking lots or other places with poor signals, the information communication of the leasing link of the mobile power supply and the status processing and settlement of orders cannot be completed.

At present, a wireless network card is mainly adopted for network connection from a portable power source leasing terminal, if the data volume to be transmitted is large, such as leasing/returning the portable power source, at the moment, if the network signal strength is very low or the network signal strength is very good but the channel congestion time delay is very long, the code scanning failure in the leasing process or the abnormal equipment button failure can lead to the fact that an order cannot be taken, and customer service needs to be contacted for processing. This would severely impact the lease experience of the shared mobile power leaseholder. At present, most of mobile phones have Bluetooth functions, bluetooth 4.0 can be generally used, and equipment rented by objects in the market at present is generally rented by a network mode or a network combined with a pure Bluetooth mode, so that two channels or multiple channels are relatively rarely used at the same time.

Disclosure of Invention

In order to solve the above-mentioned problems, an object of the present invention is to provide a method for network switching of a portable power source rental terminal. In order to achieve the above purpose, the invention adopts the following technical scheme:

a method of operating a portable power rental terminal, the method comprising: initiating a mobile power lease request on a mobile terminal;

the mobile terminal receives the mobile power source leasing terminal to obtain an identity identification code; the mobile terminal sends a mobile power supply lease request instruction to the central server, the central server generates electronic order information after receiving the lease request instruction sent by the mobile terminal, sends a mobile power supply pop-up instruction to the mobile power supply lease terminal corresponding to the identity identification code, and simultaneously sends prompt order data information to the mobile terminal; the mobile terminal scans Bluetooth signal broadcasting to match with the leasing terminal, and sends first order data information to the mobile power leasing terminal through the Bluetooth sending module; the mobile power supply charging and renting terminal receives the first order data information, and controls the mobile power supply to pop up after verification is successful; if the mobile power supply is not popped up from the leasing terminal within the first preset response time, the mobile terminal detects whether the NFC module and/or the infrared communication module of the mobile terminal are/is started or not; if the NFC module and/or the infrared communication module are/is not started, prompting the mobile terminal user to start the NFC module and/or the infrared communication module; the mobile terminal sends second order data information to the mobile power rental terminal through the opened NFC module and/or the infrared communication module; and the mobile power supply charging and renting terminal receives the second order data information, and controls the mobile power supply to pop up after verification is successful.

the mobile terminal receives the mobile power source leasing terminal to obtain an identity identification code; the mobile terminal sends a mobile power supply lease request instruction to the central server, and the central server generates electronic order information after receiving the lease request instruction sent by the mobile terminal and sends a mobile power supply pop-up instruction to the mobile power supply lease terminal corresponding to the identity identification code; the mobile power supply charging and renting terminal receives a mobile power supply ejecting instruction and controls the ejection of the mobile power supply after further verifying that the order is valid; if the mobile power supply is not popped up from the leasing terminal within the first preset response time, the mobile terminal detects whether the NFC module and/or the infrared communication module of the mobile terminal are/is started or not; if the NFC module and/or the infrared communication module are/is not started, prompting the mobile terminal user to start the NFC module and/or the infrared communication module; the mobile terminal sends second order data information to the mobile power rental terminal through the opened NFC module and/or the infrared communication module; and the mobile power supply charging and renting terminal receives the second order data information, and controls the mobile power supply to pop up after verification is successful.

A mobile power lease terminal communication system is used for being built in a mobile terminal, and comprises a first receiving module, a second receiving module and a first transmitting module, wherein the first receiving module is used for receiving a first mobile power access instruction;

the second receiving module is used for receiving the identity identification number of the portable power source leasing terminal;

the first sending module is used for sending a second borrowing mobile power supply instruction to the cloud server, wherein the second borrowing mobile power supply instruction carries an identification number of the mobile power supply leasing terminal;

the cloud server receives a second instruction of borrowing the mobile power supply, generates electronic order information, sends a mobile power supply pop-up instruction to the mobile power supply leasing terminal of the identity identification number, and simultaneously sends first order data information to the mobile terminal;

the second sending module is a Bluetooth sending module, and the mobile terminal scans Bluetooth signal broadcasting to match with the leasing terminal and sends the first order data information to the mobile power leasing terminal through the second sending module;

the mobile power supply charging and renting terminal receives the first order data information, and controls the mobile power supply to pop up after verification is successful;

the mobile terminal comprises a first detection module, a second detection module and a control module, wherein if the mobile power supply is not popped up from the leasing terminal within a first preset response time, the mobile terminal detects whether the NFC module and/or the infrared communication module of the mobile terminal are/is started or not through the first detection unit; if the NFC module and/or the infrared communication module are/is not started, prompting the mobile terminal user to start the NFC module and/or the infrared communication module;

the mobile terminal is used for sending second order data information to the mobile power rental terminal through the opened NFC module and/or the infrared communication module as the third sending module;

and the mobile power supply charging and renting terminal receives the second order data information, and controls the mobile power supply to pop up after verification is successful.

Further, as an alternative means of the matching method of the mobile terminal and the leasing terminal Bluetooth equipment, the mobile phone terminal program is adopted to scan codes and then search for nearby Bluetooth equipment matching through the unique identifier of the two-dimension code.

Further, the first order data information and the second order data information comprise order numbers, time information and encryption information.

Further, the rental terminal can perform locking synchronization processing after receiving order information so as to avoid the same order from being processed for multiple times.

Compared with the prior art, the invention has the following beneficial technical effects:

the invention aims to solve the problem that based on a module which does not depend on a mobile communication network purely and performs interactive data through near field communication, such as a Bluetooth/NFC/infrared transmission module, the two-dimensional code on a leasing device or an NFC module close to the leasing device or a process of sending infrared data and the like are scanned by a program of a mobile terminal to finish authentication with the leasing device and then perform subsequent leasing and order streaming.

Drawings

Fig. 1 is a schematic diagram of a mobile power rental terminal communication system of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be further clearly and completely described in the following in conjunction with the embodiments of the present invention. It should be noted that the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms "first," "second," "third," "fourth," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a definition of "a first", "a second", "a third" or a fourth "feature may explicitly or implicitly include one or more of such features.

The term "module" as used herein may be considered as a hardware or software object executing on the system, and the various components, modules and services described herein may be considered as being implemented on the system, while the apparatus and methods described herein are preferably implemented in software, although they may be implemented in hardware, and remain within the scope of the invention.

As shown in fig. 1, the mobile power rental terminal communication system of the present invention includes a wireless communication unit, a mobile terminal communication unit, and a central server; the wireless communication unit comprises a mobile communication module, a Bluetooth communication module, an NFC module and an infrared communication module;

the invention provides a mobile power supply leasing terminal communication system which is used for being built in a mobile terminal, wherein the system comprises a first receiving module and a second receiving module, wherein the first receiving module is used for receiving a first command of accessing a mobile power supply;

the second receiving module is configured to receive an identification number of the portable power source rental terminal, where the specific manner of obtaining the identification number of the rental terminal includes obtaining the identification number by scanning a two-dimensional code identifying the identity of the rental terminal on the portable power source rental terminal by the portable terminal, and alternatively, the identification number of the rental terminal may be obtained by manually inputting the identification number of the rental terminal on the portable terminal.

The first sending module is used for sending a second instruction of borrowing the mobile power supply to the central server, and the second mobile power supply instruction carries an identification number of the mobile power supply leasing terminal;

the central server receives a second instruction of borrowing the mobile power supply, generates electronic order information, sends a mobile power supply pop-up instruction to the mobile power supply leasing terminal of the identity identification number, and simultaneously sends prompt order data information to the mobile terminal;

the second sending module is a Bluetooth sending module, and the mobile terminal scans Bluetooth signal broadcasting and sends first order data information to the mobile power rental terminal through the second sending module; as an alternative means of the matching method of the Bluetooth equipment, the mobile phone terminal program can be adopted to scan codes and then search for nearby Bluetooth equipment matching through the unique identifier of the two-dimension code.

the mobile terminal comprises a first detection module, a second detection module and a control module, wherein if the mobile power supply is not popped up from the leasing terminal within a first preset response time, the mobile terminal detects whether the NFC module and/or the infrared communication module of the mobile terminal are/is started or not through the first detection unit; if the NFC module and/or the infrared communication module are/is not started, prompting the mobile terminal user to start the NFC module and/or the infrared communication module; the leasing terminal processes the data sent by different channels at the equipment end program, and performs idempotent operation on the order numbers to ensure the uniqueness of the data, so as to avoid the loss caused by the fact that the same order is processed for multiple times, and the leasing terminal performs locking synchronous processing after receiving order information.

The technical scheme comprises a device end program based on a wireless transmission module (a Bluetooth module, an NFC module and an infrared receiving module), a mobile phone end program and a cloud end program; the renting process is initiated by a mobile phone end program, the cloud program is informed to generate an order number and send the order number to the mobile phone end program by scanning a two-dimensional code on the surface of the equipment end, the server is informed to start preparing the renting process by the equipment end program, meanwhile, the mobile phone end starts scanning Bluetooth broadcasting to send order data to the equipment end program, if the renting process is not completed within a fixed duration, the mobile phone end program detects whether NFC or infrared functions exist, if so, a user is prompted to communicate through the NFC or infrared modules, and the follow-up process is completed. In the scheme, the order data information is simultaneously sent to the mobile power supply leasing terminal and the mobile terminal initiating the leasing request by the central server, and the corresponding mobile power supply can be popped up after the order information is verified by Bluetooth broadcasting between the mobile terminal and the leasing terminal. As a simplified scheme, the verification link can be omitted when the network is weak, namely, the leasing terminal pops up a corresponding mobile power supply after receiving order data information sent by the central server, so that the lending process is ensured to be completed smoothly. The scheme is as follows:

the system comprises a first receiving module, a second receiving module and a first control module, wherein the first receiving module is used for receiving a first instruction of accessing the mobile power supply;

the central server receives a second instruction of borrowing the mobile power supply, generates electronic order information and sends a mobile power supply pop-up instruction to the mobile power supply leasing terminal of the identity identification number;

the mobile power supply leasing terminal receives a mobile power supply pop-up instruction, and controls to pop up the mobile power supply after verifying that the mobile power supply leasing request is legal and effective;

the mobile terminal is used for sending second order data information to the mobile power rental terminal through the opened NFC module and/or the infrared communication module as the third sending module; the leasing terminal processes the data sent by different channels at the equipment end program, and firstly performs idempotent operation on the order numbers to ensure the uniqueness of the data, so as to avoid the loss caused by the fact that the same order is processed for multiple times, and the equipment end receives the order information and then performs locking synchronization processing.

The invention discloses a mobile power supply leasing terminal working method, which specifically comprises the following steps:

initiating a mobile power lease request on a mobile terminal;

the mobile terminal receives the mobile power source leasing terminal to obtain an identity identification code;

the mobile terminal sends a mobile power supply lease request instruction to the central server, the central server generates electronic order information after receiving the lease request instruction sent by the mobile terminal, sends a mobile power supply pop-up instruction to the mobile power supply lease terminal corresponding to the identity identification code, and simultaneously sends prompt order data information to the mobile terminal;

the mobile terminal scans Bluetooth signal broadcast and sends first order data information to the mobile power rental terminal through a Bluetooth sending module;

if the mobile power supply is not popped up from the leasing terminal within the first preset response time, the mobile terminal detects whether the NFC module and/or the infrared communication module of the mobile terminal are/is started or not; if the NFC module and/or the infrared communication module are/is not started, prompting the mobile terminal user to start the NFC module and/or the infrared communication module;

the mobile terminal sends second order data information to the mobile power rental terminal through the opened NFC module and/or the infrared communication module;

The technical scheme includes that the mobile terminal comprises a device end program based on a wireless connection module (a Bluetooth module, an NFC module and an infrared receiving module) on the mobile terminal, a mobile phone end program and a cloud end program; the renting process is initiated by a mobile phone end program, the cloud program is informed to generate an order number and send the order number to the mobile phone end program by scanning a two-dimensional code on the surface of the equipment end, the server is informed to start preparing the renting process by the equipment end program, meanwhile, the mobile phone end starts scanning Bluetooth broadcasting to send order data to the equipment end program, if the renting process is not completed within a fixed duration, the mobile phone end program detects whether NFC or infrared functions exist, if so, a user is prompted to communicate through the NFC or infrared modules, and the follow-up process is completed. In the scheme, the order data information is simultaneously sent to the mobile power supply leasing terminal and the mobile terminal initiating the leasing request by the central server, and the corresponding mobile power supply can be popped up after the order information is verified by Bluetooth broadcasting between the mobile terminal and the leasing terminal. As a simplified scheme, the verification link can be omitted when the network is weak, namely, the leasing terminal pops up a corresponding mobile power supply after receiving order data information sent by the central server, so that the lending process is ensured to be completed smoothly. The scheme is as follows:

a mobile power rental terminal working method specifically comprises the following steps:

initiating a mobile power lease request on a mobile terminal;

the mobile terminal sends a mobile power supply lease request instruction to the central server, and the central server generates electronic order information after receiving the lease request instruction sent by the mobile terminal and sends a mobile power supply pop-up instruction to the mobile power supply lease terminal corresponding to the identity identification code;

the mobile power supply charging and renting terminal receives a mobile power supply ejecting instruction and controls the ejection of the mobile power supply after further verifying that the order is valid;

The above embodiments all use the wireless connection module on the mobile power rental equipment and the mobile device as the communication auxiliary module to carry out auxiliary connection, so as to ensure the smooth development of the communication flow, but no optimization scheme is provided for the network delay between the rental terminal and the communication base station.

As an alternative embodiment, if the mobile power supply is not popped from the rental terminal within the first preset response time, the network delay parameter measured by the mobile power supply rental terminal is compared with the first network delay parameter threshold, and when the network delay parameter is greater than the first network delay parameter threshold, the controller module of the mobile power supply rental terminal sends a first access network switching instruction to the wireless communication module.

After receiving the first access network switching instruction, the communication module sends an access network switching request (HANDOVER REQUIRED) instruction to a mobile network node (MME) to switch a 4G (LTE) network access mode to a 2G (GSM) network mode.

Setting a second network performance detection period of the wireless communication module of the mobile power supply leasing terminal in a 2G network mode, periodically sending a signal measurement instruction to the mobile network node through the wireless communication module of the mobile power supply leasing terminal, testing network transmission signal information between the wireless communication module and the mobile network node, and obtaining an information transmission rate and network delay parameter result in the 2G network mode where the mobile power supply leasing terminal is located;

the wireless transmission communication module of the mobile power supply leasing terminal tests information transmission rate and network delay parameters of a 2G network where the mobile power supply leasing terminal is located according to a second network performance detection period when an access network is switched to a 2G (GSM) network mode;

and comparing the measured network delay parameter with a second network delay parameter threshold, and when the network delay parameter is larger than the second network delay parameter threshold, sending a second access network switching instruction to the wireless communication module by the controller module of the mobile power rental terminal. After receiving the access network switching instruction, the wireless communication module sends the access network switching instruction to a mobile network node (MME) to switch the 2G (GSM) network access mode to a 4G (LTE) network mode.

The system belongs to a temporary network adjustment mode, and because of the limitation of network speed, the communication between the mobile power leasing terminal and the central server is still in an unstable state in a low-speed network mode. Setting a third low-speed network switching period of a wireless communication module of the mobile power supply leasing terminal in a 2G network mode, and when the duration of the wireless communication module in the 2G network mode exceeds the third low-speed network switching period and the mobile power supply leasing terminal is not in a mobile power supply lending or returning state; the wireless communication module will send an access network switching request instruction to the mobile network node to switch the 2G (GSM) network/3G network mode to the 4G (LTE) network mode.

The technical scheme aims to ensure the smoothness of a communication channel and the smoothness of a mobile power supply leasing process by switching the 4G network from the 4G network to the 2G network through a network mode, and ensure the user experience of a leasing requester.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims

1. A method for operating a portable power rental terminal, the method comprising:

initiating a mobile power lease request on a mobile terminal;

the mobile terminal receives an identity identification code of the mobile power lease terminal;

the mobile terminal sends a mobile power supply leasing request instruction to a central server, wherein the mobile power supply leasing request instruction carries an identity identification code of the mobile power supply leasing terminal;

after receiving a lease request instruction sent by a mobile terminal, a central server generates electronic order information, sends a mobile power supply pop-up instruction to a mobile power supply lease terminal corresponding to an identity identification code, and simultaneously sends prompt order data information to the mobile terminal;

the mobile terminal scans Bluetooth signal broadcast, matches with the leasing terminal, and sends first order data information to the mobile power leasing terminal through the Bluetooth sending module;

the mobile power supply leasing terminal receives the first order data information, and controls the mobile power supply to pop up after verification is successful;

the mobile power supply leasing terminal receives the second order data information, and controls the mobile power supply to pop up after verification is successful;

the first order data information and the second order data information comprise order numbers;

if the mobile power supply is not popped up from the mobile power supply leasing terminal within the first preset response time, comparing the network delay parameter measured by the mobile power supply leasing terminal with a first network delay parameter threshold value, and when the network delay parameter measured by the mobile power supply leasing terminal is larger than the first network delay parameter threshold value, sending a first access network switching instruction to the wireless communication module by the controller module of the mobile power supply leasing terminal; after receiving the first access network switching instruction, the wireless communication module sends an access network switching request instruction to a mobile network node, and switches a 4G network access mode into a 2G network mode;

when the duration of the access network mode of the wireless communication module in the 2G network mode exceeds a third low-speed network switching period and the mobile power lease terminal is not in a mobile power lending or returning state; the wireless communication module sends an access network switching request instruction to the mobile network node, and switches the 2G network mode to the 4G network mode.

2. The method of claim 1, wherein as an alternative to the matching method between the mobile terminal and the rental terminal bluetooth device, the mobile terminal program is adopted to scan codes and then search for nearby bluetooth devices for matching by using a unique identifier of the two-dimensional code.

3. The method of claim 1 or 2, wherein the first order data information and the second order data information further include time information and encryption information.

4. The method of claim 3, wherein the rental terminal receives the order information and then performs a lock synchronization process to avoid multiple processes for the same order.