CN102856951B - Real time billing charging method, system and relevant device - Google Patents

Abstract

The invention discloses a kind of real time billing charging method, system and relevant device, wherein method comprises: charging station and mobile terminal carry out charging to be consulted; Charging is consulted this charging transaction successfully and is started, and charging station charges to mobile terminal and network described in periodic request carries out charging accounting in charging process; In each cycle, described charging station obtains the feedback of described network, selects to stop charging to described mobile terminal according to the feedback of described network, or selection continues to described mobile terminal charging until trigger charging stopping; The present invention overcomes to be needed to supplement with money in advance in existing charging device and charging technique and causes the inaccurate defect of charging, to overcome in charging device and charging technique and can not carry out the defect of powering according to mobile terminal requirement.

Description

Real-time charging method, system and related equipment

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a real-time charging method, a real-time charging system, and a related device.

Background

With the increasing access capability of mobile networks and wireless networks, the capability of providing data services is gradually enhanced, the service quality is improved, so that the use frequency of mobile terminals by people is increased, and the mobile terminals become an indispensable part in the life of people; in order to obtain good user experience, the mobile terminal develops towards intellectualization, networking and large screen; the power consumption of the mobile terminal is stronger and stronger; therefore, the battery endurance of the mobile terminal is more and more required.

At present, a method for improving the battery endurance mainly uses a high-capacity battery, however, the weight of the mobile terminal is increased, the use of a user is affected, and the problem that the battery endurance is insufficient can only be alleviated by the high-capacity battery.

For this reason, charging in time is proposed to improve the endurance of the battery, for example, a USB port charging station is provided in a public place, and the charging station uses a coin-feed method to obtain the opportunity of charging. The charging station has the disadvantages that the charging station cannot provide real-time charging billing, the user is easy to pay more and ineffective payment is easy to happen, inconvenience is brought to the user, and the use range of the charging station is limited.

Disclosure of Invention

In view of the foregoing analysis, the present invention aims to provide a real-time charging method, a real-time charging system, and a related apparatus, so as to solve the problems that charging is not accurate due to the need of pre-charging in the existing charging device and charging technology, and power cannot be supplied to the charging device and charging technology according to the requirements of the mobile terminal.

The purpose of the invention is mainly realized by the following technical scheme:

the invention provides a real-time charging method, which comprises the following steps:

the charging station and the mobile terminal perform charging negotiation;

after the charging negotiation is successful, the charging transaction is started, the charging station charges the mobile terminal and periodically requests the network to charge and charge in the charging process;

in each period, the charging station acquires the feedback of the network, and selects to stop charging the mobile terminal according to the feedback of the network, or selects to continue charging the mobile terminal until the charging is triggered to stop.

Further, still include:

and when the charging station judges that the mobile terminal is in a non-power-on or low-power-off state, requesting the mobile terminal to be powered on, and triggering to perform charging negotiation after the mobile terminal is successfully powered on.

Further, the charge negotiation process specifically includes:

the charging station informs the mobile terminal of a charging station identifier and a charging tariff standard, and the mobile terminal informs the charging station of the identifier of the mobile terminal after agreeing to charge;

the charging station reports the identifier of the mobile terminal to the network and acquires a transaction code of the charging transaction from the network;

and the charging station forwards the transaction code to the mobile terminal, and when the mobile terminal agrees to perform the charging transaction, the charging negotiation is successful.

Further, the charging station is informed of the identification of the mobile terminal, and simultaneously, the charging station is informed of the type number of the mobile terminal.

Further, the charging station acquires the transaction code of the current charging transaction from the network and also acquires the charging state of the current charging transaction, wherein the charging state is normal charging or failure charging.

Further, when the charging station determines that the charging in the period is successful according to the feedback of the network, the charging station continues to charge the mobile terminal until the charging is triggered to stop; and when the charging station determines that the charging in the period fails according to the feedback of the network, stopping charging the mobile terminal.

Further, when the mobile terminal is fully charged, the charging station triggers charging stop according to the charging stop request of the mobile terminal, and requests the network for charging billing for the last time in the current charging transaction; or when the charging station detects that the mobile terminal is actively disconnected, the charging station triggers the stopping of charging and requests the network for charging and billing for the last time in the charging transaction.

The invention also provides a real-time charging system, which comprises: charging station, mobile terminal and network, wherein,

the charging station is used for initiating a charging negotiation with the mobile terminal, charging the mobile terminal after the charging negotiation is successful and periodically requesting the network to charge in the charging process; in each period, according to the feedback of the network, selecting to stop charging the mobile terminal, or selecting to continue charging the mobile terminal until the charging is triggered to stop;

the mobile terminal is used for completing charging negotiation with the charging station;

and the network is used for charging according to the request of the charging station and feeding back the request.

Further, the charging station is further configured to, when it is determined that the mobile terminal is in a non-power-on or low-power-off state, request the mobile terminal to power on, and trigger a charging negotiation after the mobile terminal is successfully powered on.

Further, the present invention also provides a charging station, comprising: a charging negotiation module, a charging control module and a communication module, wherein,

the charging negotiation module is used for initiating charging negotiation with the mobile terminal and triggering the charging control module to charge the mobile terminal after the charging negotiation is successful;

and the communication module is used for periodically requesting the network to charge in the charging process and triggering the charging control module when the feedback of the network is acquired.

And the charging control module is used for selecting to stop charging the mobile terminal according to the feedback of the network or selecting to continue charging the mobile terminal until the charging is triggered to stop.

Further, the charging control module is further configured to request the mobile terminal to be powered on when it is determined that the mobile terminal is in a non-powered on state or a low power off state, and trigger the charging negotiation module after the mobile terminal is successfully powered on.

Further, the charging negotiation module is specifically configured to notify the mobile terminal of a charging station identifier and a charging tariff standard, report the identifier of the mobile terminal to the network after receiving the identifier of the mobile terminal, forward the transaction code obtained from the network for this time of charging to the mobile terminal, and trigger the charging control module to charge the mobile terminal after the charging negotiation is successful.

Further, when the mobile terminal is fully charged and sends a charging stop request to the charging control module, the charging control module is further configured to trigger charging stop according to the charging stop request of the mobile terminal, and trigger the communication module to request the network for charging billing for the last time in the current charging transaction.

Further, the charging control module is further configured to, when detecting that the mobile terminal is actively disconnected from the charging station, trigger the charging to stop, and trigger the communication module to request the network for charging and billing for the last time in the current charging transaction.

The present invention also provides a mobile terminal, comprising:

the charging negotiation module is used for completing charging negotiation with the charging station;

and the charging control module is used for starting charging timing with the charging station simultaneously after the charging negotiation is successful, and sending a charging stop request to the charging station when the mobile terminal is detected to be fully charged.

The invention has the following beneficial effects:

the invention overcomes the defect that the charging is inaccurate due to the need of pre-recharging in the existing charging equipment and charging technology, and overcomes the defect that the charging equipment and charging technology can not supply power according to the requirement of the mobile terminal.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

FIG. 1 is a schematic flow diagram of a preferred method embodiment of the present invention;

fig. 2 is a message sequence chart of a charging negotiation between a charging station and a mobile terminal according to an embodiment of the preferred method of the present invention;

FIG. 3 is a schematic diagram of the structure of the preferred embodiment of the system of the present invention;

FIG. 4 is a schematic structural diagram of a first embodiment of the apparatus of the present invention, namely a charging station;

fig. 5 is a schematic structural diagram of a second device, namely a mobile terminal, according to the second embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings, which form a part hereof, and which together with the embodiments of the invention serve to explain the principles of the invention.

First, a preferred embodiment of the method of the present invention will be described in detail with reference to FIGS. 1 and 2.

As shown in fig. 1, fig. 1 is a schematic flow chart of a preferred method embodiment of the present invention, which may specifically include the following steps:

step 100: the mobile terminal is connected to a charging station;

step 101: the charging station judges whether the mobile terminal is in a non-starting or low-power off state, if so, step 102 is executed; if not, go to step 104;

step 102: starting up a process;

step 103: judging whether the startup is successful, if so, executing the step 104, and if not, turning to the step 107;

(for a mobile terminal in the power-on state, the above-mentioned steps 101 to 103 may be omitted;)

Step 104: the charging station and the mobile terminal perform charging negotiation, and the specific process is shown in fig. 2;

step 105: whether the charge negotiation is successful or not, if so, executing step 106; if not, go to step 107;

step 106: entering a charging and billing flow, periodically sending a charging and billing request message to the network by the charging station, and informing the network of the charging time so that the network can calculate the charging fee according to the charging time and the previously preset charging fee standard;

the specific process can comprise the following steps: when the mobile terminal starts charging, the charging station initiates a charging and billing request message to the network for the first time, informs the network of starting charging and timing and requests the network to start billing, the charging and billing request message contains charging time (the charging time is 0, or the specific time for starting charging is a few minutes), the network returns a charging and billing reply message to the charging station, the charging and billing reply message contains billing information and billing state, wherein the billing information contains billing amount and time (the returned amount and time are both 0, and the billing state is the starting of billing); in the charging process of the mobile terminal, the charging station sends a charging and billing request message to the network once every a period of time (for example, 5 minutes), the charging time (5 minutes or the specific moment of current charging is a few minutes) of the period is notified to the network, after the network receives the charging and billing request message sent by the charging station each time, the charging fee of the period is calculated according to the charging time of the period and the previously predetermined charging fee standard, and the corresponding charging fee is deducted from the telephone fee prestored in the mobile terminal, or the corresponding charging fee is listed in the bill of the mobile terminal for the user to settle later, then a charging and billing reply message is fed back to the charging station, the charging and billing reply message comprises the billing amount and time (for example, the amount and the time are respectively 0.1 yuan and 5 minutes, and the billing state is successful), after the charging station learns the successful billing of the period, continuing to charge the mobile terminal; for the prepaid mobile terminal, if the network finds that the balance of the prepaid mobile terminal is not deducted enough in the charging process of the current period, the charging state in the returned charging reply message is charging failure, and the charging station executes step 107 after knowing that the charging of the current period fails;

step 107: when the charging transaction is finished, the charging station waits for the next mobile terminal to be charged;

in the specific execution process, the charging transaction can be triggered to end under three conditions, namely, 1) for the post-paid mobile terminal and the prepaid mobile terminal which does not find the expense insufficient in the charging process, when the mobile terminal detects that the battery is fully charged, a charging stop message is sent to the charging station, after the charging station receives the charging stop message, the charging timing is stopped, the last charging and charging request message of the charging transaction is sent to the network, the network is requested to stop charging, and after the network returns the last charging and charging request reply message (the charging state is charging stop) of the charging transaction, the last charging and charging request reply message is sent to the mobile terminal, and the charging transaction is ended; 2) in the process of charging the mobile terminal, when the charging station detects that the mobile terminal is disconnected with the charging station, the charging station stops charging and timing, sends a last charging and billing request message of the charging transaction to the network, requests the network to stop billing, and sends a last billing request reply message to the mobile terminal after the network returns a last billing request reply message of the charging transaction (the billing state is billing stop), and the charging transaction is finished; 3) and when the charging station finds that the charging state in the charging and charging reply message returned by the network is charging failure, the charging station stops charging and timing, sends the charging and charging reply message to the mobile terminal, and finishes the charging transaction.

As shown in fig. 2, fig. 2 is a message sequence chart of a charging negotiation between a charging station and a mobile terminal in the preferred embodiment of the method of the present invention, which may specifically include the following steps:

step 201: after the mobile terminal is connected to the charging station, the charging station sends an identification message to the mobile terminal; wherein, the identification message that the charging station sent includes: the identification server ID and charging tariff description of the charging station;

step 202: after receiving the identification message sent by the charging station, the mobile terminal analyzes the identification message, prompts the charging station identification and the charging tariff description to a user of the mobile terminal, and feeds back the identification information to the charging station if the user determines to charge; the identification information sent by the mobile terminal at least includes an identification (for example, a personal identification IMSI) of the mobile terminal itself, and may also include a type number of the mobile terminal;

step 203, after receiving the identification information sent by the mobile terminal, the charging station analyzes the identification information and sends the analyzed identification of the mobile terminal to the network (if the type number exists, the identification is sent together with the type number);

step 204: the charging station acquires the transaction code information of the current charging transaction from the network; the transaction code information at least comprises the transaction code of the current charging transaction and can also comprise the charging state of the current charging transaction, for example, when the mobile terminal is a prepaid user and the current prepaid fee is not zero, the charging state is normal at this moment, which indicates that the mobile terminal can be charged; if the mobile terminal is in short charge or insufficient balance, the charging state is charging failure, which indicates that the mobile terminal cannot be charged);

step 205: the charging station forwards the transaction code information of the charging transaction obtained from the network to the mobile terminal;

step 206: after the mobile terminal receives the transaction code information of the current charging transaction forwarded by the charging station, if the charging state of the transaction code information is normal, the mobile terminal replies an OK message to the charging station to indicate the approval of the current charging transaction;

after each message is successfully executed, the charging station and the mobile terminal respectively start charging timing; if the receiving end times out, the process goes to step 107.

The following describes in detail a preferred embodiment of the system of the present invention with reference to fig. 3.

As shown in fig. 3, fig. 3 is a schematic structural diagram of a preferred embodiment of the system of the present invention, which may specifically include: charging station, mobile terminal and network, wherein,

the charging station initiates a charging negotiation with the mobile terminal, and after the charging negotiation is successful, the charging station charges the mobile terminal and periodically requests the network to charge in the charging process; in each period, according to the feedback of the network, the mobile terminal is selected to stop charging, or the mobile terminal is selected to continue charging until the charging is triggered to stop;

the mobile terminal completes charging negotiation with the charging station;

and the network carries out charging billing according to the request of the charging station and feeds back the request.

As an embodiment of the preferred system of the present invention, the charging station is further configured to request the mobile terminal to power on when it is determined that the mobile terminal is in a non-power-on or low-power-off state, and trigger a charging negotiation after the mobile terminal is successfully powered on.

The specific implementation process of the above system is described in the foregoing method embodiment, and the specific structures of the charging station and the mobile terminal will be described in the following device embodiment, which is not described herein again.

Finally, the embodiment of the apparatus according to the present invention will be described in detail with reference to fig. 4 and 5.

As shown in fig. 4, fig. 4 is a schematic structural diagram of a first apparatus embodiment, namely a charging station, of the present invention, which may specifically include: a charging negotiation module, a charging control module and a communication module, wherein,

the charging negotiation module initiates charging negotiation with the mobile terminal and triggers the charging control module to charge the mobile terminal after the charging negotiation is successful; specifically, the charging negotiation module notifies the charging station identifier and the charging tariff standard to the mobile terminal, after receiving the identifier of the mobile terminal, reports the identifier of the mobile terminal to a network (if the type number of the mobile terminal exists, the identifier of the mobile terminal is reported to the network together), and forwards a transaction code (a charging state of the charging transaction can be obtained, and the transaction code is normal or failed) obtained from the network to the mobile terminal, and after the charging negotiation is successful, the charging control module is triggered to charge the mobile terminal.

As a preferred embodiment of the present invention, the charging control module is further responsible for requesting the mobile terminal to power on when it is determined that the mobile terminal is in a non-power-on or low-power-off state, and triggering the charging negotiation module after the mobile terminal is successfully powered on.

When the mobile terminal is fully charged and sends a charging stop request to the charging control module, the charging control module triggers charging stop according to the charging stop request of the mobile terminal and triggers the communication module to request the network for charging billing for the last time in the charging transaction.

The charging control module is also used for detecting the connection state of the mobile terminal and the charging station, triggering the charging to stop when detecting that the mobile terminal is actively disconnected with the charging station, and triggering the communication module to request the network for charging and billing for the last time in the charging transaction.

And the communication module periodically requests the network to charge in the charging process and triggers the charging control module when the feedback of the network is acquired.

And the charging control module is used for selecting to stop charging the mobile terminal according to the feedback of the network or selecting to continue charging the mobile terminal until the charging stop is triggered.

As shown in fig. 5, fig. 5 is a schematic structural diagram of a second device embodiment, that is, a mobile terminal, in the present invention, which may specifically include:

the charging negotiation module completes charging negotiation with the charging station;

and the charging control module starts charging timing with the charging station simultaneously after the charging negotiation is successful, and sends a charging stop request to the charging station when detecting that the mobile terminal is fully charged.

For the specific implementation processes of the two devices, refer to the description of the foregoing method embodiments, which are not described herein again.

In summary, embodiments of the present invention provide a real-time charging method, a real-time charging system, and a related device, and compared with the prior art, embodiments of the present invention can implement real-time charging active charging between a charging station and a mobile terminal; charging cost of a user is saved accurately by charging of the charging station, and utilization rate of the charging equipment by the user is improved; the problem that the charging equipment cannot supply power according to the requirements of the mobile terminal is solved; and because the used charging method is similar to the charging method of the call, the additional investment of the charging system is saved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (13)

1. A real-time charging method is characterized by comprising the following steps:

the charging station notifies a charging station identifier and a charging tariff standard to a mobile terminal, and the mobile terminal notifies the charging station of the identifier of the mobile terminal after agreeing to charging;

the charging station reports the identifier of the mobile terminal to a network, and acquires a transaction code of the charging transaction from the network;

the charging station forwards the transaction code to the mobile terminal, and when the mobile terminal agrees to perform the charging transaction, the charging negotiation is successful;

after the charging negotiation is successful, the charging transaction is started, the charging station charges the mobile terminal and periodically requests the network to charge and charge in the charging process;

in each period, the charging station acquires the feedback of the network, and selects to stop charging the mobile terminal according to the feedback of the network, or selects to continue charging the mobile terminal until the charging is triggered to stop.

2. The method of claim 1, further comprising:

and when the charging station judges that the mobile terminal is in a non-power-on or low-power-off state, requesting the mobile terminal to be powered on, and triggering to perform charging negotiation after the mobile terminal is successfully powered on.

3. The method according to claim 1 or 2, characterized in that the charging station is informed of the identity of the mobile terminal at the same time as the type number of the mobile terminal is also informed to the charging station.

4. The method according to claim 1 or 2, wherein the charging station obtains the transaction code of the current charging transaction from the network and also obtains the charging status of the current charging transaction, and the charging status is normal charging or failure charging.

5. The method according to claim 1 or 2, characterized in that, when the charging station determines that the charging in the current period is successful according to the feedback of the network, the charging of the mobile terminal is continued until the charging stop is triggered; and when the charging station determines that the charging in the period fails according to the feedback of the network, stopping charging the mobile terminal.

6. The method according to claim 1 or 2,

when the mobile terminal is fully charged, the charging station triggers charging stop according to the charging stop request of the mobile terminal, and requests the network for charging billing for the last time in the charging transaction;

or,

and when the charging station detects that the mobile terminal is actively disconnected, the charging station triggers the stopping of charging and requests the network for charging and billing for the last time in the charging transaction.

7. A real-time charging system, comprising: charging station, mobile terminal and network, wherein,

the charging station is used for initiating a charging negotiation with the mobile terminal, and the charging negotiation process specifically comprises the following steps: the charging station informs the mobile terminal of a charging station identifier and a charging tariff standard, and the mobile terminal informs the charging station of the identifier of the mobile terminal after agreeing to charge; the charging station reports the identifier of the mobile terminal to the network and acquires a transaction code of the charging transaction from the network; the charging station forwards the transaction code to the mobile terminal, when the mobile terminal agrees to perform the charging transaction, the charging negotiation is successful, after the charging negotiation is successful, the mobile terminal is charged, and the network is requested periodically to perform charging billing in the charging process; in each period, according to the feedback of the network, selecting to stop charging the mobile terminal, or selecting to continue charging the mobile terminal until the charging is triggered to stop;

the mobile terminal is used for completing charging negotiation with the charging station;

and the network is used for charging according to the request of the charging station and feeding back the request.

8. The system of claim 7, wherein the charging station is further configured to request the mobile terminal to power on when it is determined that the mobile terminal is in a non-powered-on or low-power-off state, and to trigger the charging negotiation after the mobile terminal is successfully powered on.

9. A charging station, comprising: a charging negotiation module, a charging control module and a communication module, wherein,

the charging negotiation module informs a mobile terminal of a charging station identifier and a charging tariff standard, reports the identifier of the mobile terminal to a network after receiving the identifier of the mobile terminal, forwards a transaction code acquired from the network for charging to the mobile terminal, and triggers the charging control module to charge the mobile terminal after the charging negotiation is successful;

the communication module is used for periodically requesting the network to charge in the charging process and triggering the charging control module when the feedback of the network is acquired;

and the charging control module is used for selecting to stop charging the mobile terminal according to the feedback of the network or selecting to continue charging the mobile terminal until the charging is stopped.

10. The charging station of claim 9, wherein the charging control module is further configured to request the mobile terminal to power on when it is determined that the mobile terminal is in a non-powered-on or low-power-off state, and to trigger the charging negotiation module after the mobile terminal is successfully powered on.

11. The charging station according to claim 9 or 10, wherein when the mobile terminal is fully charged and sends a charging stop request to the charging control module, the charging control module is further configured to trigger a charging stop according to the charging stop request of the mobile terminal, and trigger the communication module to request the network for charging billing for the last time in the current charging transaction.

12. The charging station of claim 9 or 10, wherein the charging control module is further configured to trigger a charging stop when detecting that the mobile terminal is actively disconnected from the charging station, and trigger the communication module to request the network for charging billing for the last time in the current charging transaction.

13. A mobile terminal, comprising:

the charging negotiation module is configured to complete a charging negotiation with a charging station, where the charging negotiation process specifically includes: the charging station informs a mobile terminal of a charging station identifier and a charging tariff standard, and the mobile terminal informs the charging station of the identifier of the mobile terminal after agreeing to charge; the charging station reports the identifier of the mobile terminal to a network, and acquires a transaction code of the charging transaction from the network; the charging station forwards the transaction code to the mobile terminal, and when the mobile terminal agrees to perform the charging transaction, the charging negotiation is successful;

and the charging control module is used for starting charging timing with the charging station simultaneously after the charging negotiation is successful, and sending a charging stop request to the charging station when detecting that the mobile terminal is fully charged.