CN105450410A - Verifying method and device - Google Patents

Abstract

The invention provides a verifying method and device. The method includes the following steps of: sending a verification manner request to a server; generating prompt information according to a verification manner returned by the server to prompt a user to input the verification manner; and acquiring a state parameter of a terminal, sending the state parameter to the server to allow the server to affirm that verification passes when verifying match between the state parameter and the verification manner. The technical scheme of the method and the device can effectively avoid robot behaviors of a client, so that the accuracy of verification can be improved, and the user experience cannot be reduced.

Description

A kind of method of calibration and device

Technical field

The application relates to communication technical field, particularly relates to a kind of method of calibration and device.

Background technology

The various clients of terminal also exist many robot behaviors.Such as: robot registration, robot login etc.These client machines people behavior brings many impacts to user, service end etc.With client machine, people is registered as example, if the frequent registration of malice, may exert heavy pressures on to service end.Meanwhile, client machine people after registration is complete, also frequent releasing advertisements etc. can affect the normal management of forum in forum.

At present, the mode of identifying code is usually adopted to carry out identify customer end robot behavior.Such as: user is when registration, and service end stochastic generation one group of check code inputs for user and verifies.This mode, for normal registered user, is experienced poor.Meanwhile, also there is the possibility identified by client machine people, less effective.

Summary of the invention

In view of this, the application provides a kind of method of calibration and device, can the robot behavior of identify customer end effectively.

Particularly, the application is achieved by the following technical solution:

A kind of method of calibration, described method comprises:

Send verification mode request to service end;

Generate information according to the verification mode that service end returns, input described verification mode to point out user;

Obtain the state parameter of terminal, and described state parameter is sent to service end, for service end when verifying described state parameter and mating described verification mode, confirm that verification is passed through.

Further, described verification mode is the sensor calibration of terminal;

The state parameter of described acquisition terminal comprises: obtain state parameter from the transducer of described terminal.

Further, described verification mode comprises: at least one in gravity sensor verification, the verification of light sensor School Affairs touch sensor.

Further, the described verification mode generation information returned according to service end comprises:

Generate user interface according to the verification mode that service end returns, described user interface comprises described verification mode.

Further, after receiving the service end message that returns that it fails to match, again obtain the state parameter of described terminal, and described state parameter is sent to service end.

A kind of method of calibration, described method comprises:

Receive the verification mode request that client sends;

Verification mode is generated according to described verification mode request;

Described verification mode is sent to client, generates information for client according to described verification mode;

Receive the state parameter of the terminal that client sends;

Judge whether described state parameter mates described verification mode, when described state parameter mates described verification mode, confirm that verification is passed through.

Further, describedly generate verification mode according to described verification mode request and comprise:

Obtain the model of the terminal at client place;

The sensor calibration mode of the model support of terminal described in stochastic generation.

Further, describedly generate verification mode according to described verification mode request and also comprise:

Generate the timestamp that described verification mode is corresponding;

Described method also comprises:

When receiving the state parameter of the terminal that client sends, judging whether current time exceedes timestamp corresponding to described verification mode, if not, then judging whether described state parameter mates described verification mode.

Further, described method also comprises:

Do not mate described verification mode at described state parameter, and when current time does not exceed timestamp corresponding to described verification mode, send the message that it fails to match to client.

A kind of calibration equipment, described device comprises:

Request transmitting unit, sends verification mode request to service end;

Prompting generation unit, generates information according to the verification mode that service end returns, inputs described verification mode to point out user;

Parameter transmitting element, obtains the state parameter of terminal, and described state parameter is sent to service end, for service end when verifying described state parameter and mating described verification mode, confirms that verification is passed through.

Further, described verification mode is the sensor calibration of terminal;

Described parameter transmitting element, specifically obtains state parameter from the transducer of described terminal.

Further, described verification mode comprises: at least one in gravity sensor verification, the verification of light sensor School Affairs touch sensor.

Further, described prompting generation unit, specifically generate user interface according to the verification mode that service end returns, described user interface comprises described verification mode.

Further, after receiving the service end message that returns that it fails to match, described parameter transmitting element obtains the state parameter of described terminal again, and described state parameter is sent to service end.

A kind of calibration equipment, described device comprises:

Request reception unit, receives the verification mode request that client sends;

Verification generation unit, generates verification mode according to described verification mode request;

Mode transmitting element, sends to client by described verification mode, generates information for client according to described verification mode;

Parameter receiving element, receives the state parameter of the terminal that client sends;

Parameter verification unit, judges whether described state parameter mates described verification mode, when described state parameter mates described verification mode, confirms that verification is passed through.

Further, described verification generation unit, the concrete model obtaining the terminal at client place;

The sensor calibration mode of the model support of terminal described in stochastic generation.

Further, described verification generation unit, also generates the timestamp that described verification mode is corresponding;

When receiving the state parameter of the terminal that client sends, whether described parameter verification unit judges current time exceedes timestamp corresponding to described verification mode, when described current time does not exceed timestamp corresponding to described verification mode, judge whether described state parameter mates described verification mode.

Further, do not mate described verification mode at described state parameter, and when current time does not exceed timestamp corresponding to described verification mode, described parameter verification unit sends the message that it fails to match to client.

Described as can be seen from above, the application is when needing the behavior carrying out robot behavior identification, service end returns random verification mode according to the request of client to client, the state of terminal is changed according to described verification mode to make user, if the state parameter of terminal mates described verification mode, the current behavior that then can confirm client is not robot behavior, and verification is passed through.By the technical scheme of the application, effectively can avoid client machine people behavior, thus improve the accuracy of verification, not reduce Consumer's Experience simultaneously.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of method of calibration in the application one embodiment.

Fig. 2 is the schematic flow sheet of method of calibration in another embodiment of the application.

Fig. 3 is the schematic flow sheet of method of calibration in another embodiment of the application.

Fig. 4 is the user interface schematic diagram that in the application one embodiment, client generates information.

Fig. 5 is the structural representation of client in the application one embodiment.

Fig. 6 is the structural representation of calibration equipment in the application one embodiment.

Fig. 7 is the structural representation of service end in the application one embodiment.

Fig. 8 is the structural representation of calibration equipment in another embodiment of the application.

Embodiment

Here will be described exemplary embodiment in detail, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawing represents same or analogous key element.Execution mode described in following exemplary embodiment does not represent all execution modes consistent with the application.On the contrary, they only with as in appended claims describe in detail, the example of apparatus and method that some aspects of the application are consistent.

Only for describing the object of specific embodiment at term used in this application, and not intended to be limiting the application." one ", " described " and " being somebody's turn to do " of the singulative used in the application and appended claims is also intended to comprise most form, unless context clearly represents other implications.It is also understood that term "and/or" used herein refer to and comprise one or more project of listing be associated any or all may combine.

Term first, second, third, etc. may be adopted although should be appreciated that to describe various information in the application, these information should not be limited to these terms.These terms are only used for the information of same type to be distinguished from each other out.Such as, when not departing from the application's scope, the first information also can be called as the second information, and similarly, the second information also can be called as the first information.Depend on linguistic context, word as used in this " if " can be construed as into " ... time " or " when ... time " or " in response to determining ".

For the problems referred to above, the application provides a kind of checkschema, random sensor calibration mode is issued by service end, after this sensor calibration mode is prompted to user by client, obtain the state parameter of terminal, and send to service end to verify described state parameter, judge with the identification carrying out client machine people behavior, promote Consumer's Experience simultaneously.

The implementation procedure of the application is described below in conjunction with specific embodiment.

The application provides a kind of method of calibration, is applied in respectively in client and service end.Please refer to Fig. 1, application method of calibration on the client comprises the following steps:

Step 101, sends verification mode request to service end.

In the embodiment of the present application, client, when needing the behavior carrying out robot behavior identification, sends verification mode request to service end, issues random verification mode with request service end.Wherein, describedly need the behavior carrying out robot behavior identification can be arranged by developer, such as: registration, login etc.

Step 102, generates information according to the verification mode that service end returns, inputs described verification mode to point out user.

In the embodiment of the present application, client generates user oriented information according to the verification mode that service end returns.Particularly, described information can be presented to user by user interface in the mode such as word, picture by client, and the mode of described information by voice also can be reported to user by certain client.The application does not limit this.

Step 103, obtains the state parameter of terminal, and described state parameter is sent to service end, for service end when verifying described state parameter and mating described verification mode, confirms that verification is passed through.

In the embodiment of the present application, client, after generation information, obtains the state parameter of terminal, then sends to service end to verify for service end described state parameter.For described verification mode for sensor calibration, client obtains described state parameter from the transducer of the terminal at its place.

As seen from the above-described embodiment, when needing the behavior carrying out robot behavior identification, service end returns random verification mode according to the request of client to client, the state of terminal is changed according to described verification mode to make user, if the state parameter of terminal mates described verification mode, the current behavior that then can confirm client is not robot behavior, and verification is passed through.By the technical scheme of the application, effectively can avoid client machine people behavior, thus improve the accuracy of verification, not reduce Consumer's Experience simultaneously.

Please refer to Fig. 2, the method for calibration be applied in service end comprises the following steps:

Step 201, receives the verification mode request that client sends.

Step 202, generates verification mode according to described verification mode request.

Step 203, sends to client by described verification mode, generates information for client according to described verification mode.

In the embodiment of the present application, service end after receiving the verification mode request that client sends, stochastic generation verification mode, and this verification mode is returned to client.Described verification mode includes but not limited to the impalpable verification mode of the robot behavior such as sensor calibration, biometric verification.

The application's one preferred embodiment in, described verification mode adopts the mode of sensor calibration to realize.Described sensor calibration comprises: gravity sensor verification, light sensor verification, touch sensor verification etc.Can comprise for gravity sensor verification: shake terminal N time, upset terminal etc.Can comprise for light sensor verification: shut out the light, such as, user can live the light sensor of terminal with finger obscures.Can comprise for touch sensor verification: input default slip gesture on the touchscreen, such as: draw two circles etc.

Further, service end, before generation verification mode, first can obtain the model of the terminal at client place, judge according to described model the transducer that terminal has, and then selects the verification mode relevant to described transducer.

Further, service end also can generate timestamp corresponding to described verification mode while generation verification mode, described timestamp is the time-out time of verification, if namely when described timestamp time-out, the SOT state of termination parameter that client sends still can not mate described verification mode, then the behavior of client is very likely robot behavior, confirms to verify unsuccessfully.Described timestamp is arranged by developer usually, such as: in 10 seconds, the application does not limit this.

Step 204, receives the state parameter of the terminal that client sends.

Step 205, judges whether described state parameter mates described verification mode, when described state parameter mates described verification mode, confirms that verification is passed through.

In this application, service end judges whether the state parameter of the terminal that client sends mates its verification mode issued, and when state parameter mates described verification mode, confirm that the behavior of active client is not robot behavior, verification is passed through.

As seen from the above-described embodiment, needing the scene of carrying out robot behavior identification, service end returns random verification mode according to the request of client to client, the state of terminal is changed according to described verification mode to make user, if the state parameter of terminal mates described verification mode, the current behavior that then can confirm client is not robot behavior, is verified.By the technical scheme of the application, effectively can avoid client machine people behavior, thus improve the accuracy of verification, not reduce Consumer's Experience simultaneously.

The reciprocal process realizing client and service end in the application's method of calibration is described below in conjunction with specific embodiment.

Please refer to Fig. 3, said method comprising the steps of:

Step 301, client sends verification mode request to service end.

Particularly, in this step, client, when the behavior needing to carry out robot behavior identification preset occurs, sends verification mode request to service end.Need the behavior carrying out robot behavior identification to be registered as example with described, when user clicks the registration button that client provides, client sends verification mode request to service end.Certainly, in actual applications, verification mode request is sent in client also can click confirmation after user fills log-on message to service end.The application does not limit this.

Step 302, service end receives the verification mode request that client sends.

Step 303, service end generates verification mode according to described verification mode request.

Step 304, described verification mode is sent to client by service end.

In this step, service end first can obtain the model of the terminal at client place, such as: the terminal at client place is that Iphone5s, Iphone5s comprise gravity sensor, light sensor and touch sensor.Service end can a kind of gravity sensor verification mode of stochastic generation, light sensor verification mode or touch sensor verification mode, and generates timestamp corresponding to described verification mode simultaneously.Such as: the verification mode that client generates is: shake one and to shake the hand machine, described timestamp is 10 seconds.The described verification mode generated is sent to client by client, and starts timing.

Step 305, the verification mode that client returns according to service end generates information, inputs described verification mode to point out user.

In this step, client, after the verification mode receiving service end transmission, generates information to user.Particularly, client can point out verification mode described in user by user interface.Please refer to Fig. 4, in a kind of embodiment of the application, client generates the user interface schematic diagram of information, except verification mode described in text importing can be used to user in described user interface, by vivider modes such as pictures, described verification mode can also be prompted to user.

Step 306, client obtains the state parameter of terminal, and described state parameter is sent to service end.

Particularly, client, after generation information, obtains the state parameter of terminal from the transducer that described verification mode is specified by API (ApplicationProgrammingInterface, application programming interface).For described verification mode for shaking, client obtains the state parameter of mobile phone from the gravity sensor of Iphone5s, and described state parameter is generally the acceleration of mobile phone in the dimension of three, space, then described state parameter is sent to service end.

Step 307, service end receives the state parameter of the terminal that client sends, and judges whether current time exceedes timestamp corresponding to described verification mode, if not, then performs step 308.If so, then step 312 is performed.

Step 308, service end judges whether described state parameter mates described verification mode, if so, then performs step 309.If not, then step 310 is performed.

In this step, still for described verification mode for mobile phone shakes, service end judges whether the acceleration of mobile phone in the dimension of three, space mates the acceleration of default " shaking ", and concrete implementation method can with reference to correlation technique, and the application does not repeat them here.

Step 309, service end confirms that verification is passed through, and the message that back-checking passes through is to client.

Step 310, service end judges whether current time exceedes timestamp corresponding to described verification mode, if so, then performs step 312.If not, then step 311 is performed.

Step 311, service end returns the message that it fails to match to client, and client is after receiving the described message that it fails to match, perform step 306, again obtain the state parameter of described terminal, and described state parameter is sent to service end, again verify for service end.This is because client is after generation information, and user may not perform verification mode, so the state parameter that client will be caused to obtain does not mate described verification mode at once.The application designs retransmission mechanism, and when the timestamp that described verification mode is corresponding does not have time-out, client can obtain state parameter again, and sends to service end to verify, to improve the accuracy of verification.

Step 312, service end sends verification failure to client.

Particularly, for the behavior of registering, when the state parameter that service end verification client sends does not mate described verification mode, confirm registration failure.

As seen from the above-described embodiment, needing the scene of carrying out robot behavior identification, service end returns random verification mode according to the request of client to client, the state of terminal is changed according to described verification mode to make user, if the state parameter of terminal mates described verification mode, the current behavior that then can confirm client is not robot behavior, is verified.By the technical scheme of the application, effectively can avoid client machine people behavior, thus improve the accuracy of verification, not reduce Consumer's Experience simultaneously.

Corresponding with the embodiment of the application's method of calibration, present invention also provides a kind of embodiment of calibration equipment.

The embodiment of the application's calibration equipment can be applied in client and service end respectively.Device described in the application can pass through software simulating, also can be realized by the mode of hardware or software and hardware combining.For software simulating, the application's calibration equipment, as the device on a logical meaning, is by the processor of its place equipment, computer program instructions corresponding in nonvolatile memory is read operation in internal memory to be formed.

Please refer to Fig. 5 and Fig. 6, in another embodiment of the application, provide a kind of calibration equipment 500, on the client, described device 500 includes in application: request transmitting unit 501, prompting generation unit 502 and parameter transmitting element 503.

Wherein, described request transmitting element 501, sends verification mode request to service end;

Prompting generation unit 502, generates information according to the verification mode that service end returns, inputs described verification mode to point out user;

Parameter transmitting element 503, obtains the state parameter of terminal, and described state parameter is sent to service end, for service end when verifying described state parameter and mating described verification mode, confirms that verification is passed through.

Further, described verification mode is the sensor calibration of terminal;

Described parameter transmitting element 503, specifically obtains state parameter from the transducer of described terminal.

Further, described verification mode comprises: at least one in gravity sensor verification, the verification of light sensor School Affairs touch sensor.

Further, described prompting generation unit 502, specifically generate user interface according to the verification mode that service end returns, described user interface comprises described verification mode.

Further, after receiving the service end message that returns that it fails to match, described parameter transmitting element 503 obtains the state parameter of described terminal again, and described state parameter is sent to service end.

Please refer to Fig. 7 and Fig. 8, in another embodiment of the application, there is provided a kind of calibration equipment 700, be applied in service end, described device 700 includes: request reception unit 701, verification generation unit 702, mode transmitting element 703, parameter receiving element 704 and parameter verification unit 705.

Wherein, described request receiving element 701, receives the verification mode request that client sends;

Described verification generation unit 702, generates verification mode according to described verification mode request;

Described mode transmitting element 703, sends to client by described verification mode, generates information for client according to described verification mode;

Described parameter receiving element 704, receives the state parameter of the terminal that client sends;

Described parameter verification unit 705, judges whether described state parameter mates described verification mode, when described state parameter mates described verification mode, confirms that verification is passed through.

Further, described verification generation unit 702, the concrete model obtaining the terminal at client place;

The sensor calibration mode of the model support of terminal described in stochastic generation.

Further, described verification generation unit 702, also generates the timestamp that described verification mode is corresponding;

When receiving the state parameter of the terminal that client sends, described parameter verification unit 705 judges whether current time exceedes timestamp corresponding to described verification mode, when described current time does not exceed timestamp corresponding to described verification mode, judge whether described state parameter mates described verification mode.

Further, do not mate described verification mode at described state parameter, and when current time does not exceed timestamp corresponding to described verification mode, described parameter verification unit 705 sends the message that it fails to match to client.

In said apparatus, the implementation procedure of the function and efficacy of unit specifically refers to the implementation procedure of corresponding step in said method, does not repeat them here.

The foregoing is only the preferred embodiment of the application, not in order to limit the application, within all spirit in the application and principle, any amendment made, equivalent replacements, improvement etc., all should be included within scope that the application protects.

Claims (11)

1. a method of calibration, is characterized in that, described method comprises:

Send verification mode request to service end;

Generate information according to the verification mode that service end returns, input described verification mode to point out user;

Obtain the state parameter of terminal, and described state parameter is sent to service end, for service end when verifying described state parameter and mating described verification mode, confirm that verification is passed through.

2. method according to claim 1, is characterized in that,

Described verification mode is the sensor calibration of terminal;

The state parameter of described acquisition terminal comprises: obtain state parameter from the transducer of described terminal.

3. method according to claim 2, is characterized in that,

Described verification mode comprises: at least one in gravity sensor verification, the verification of light sensor School Affairs touch sensor.

4. method according to claim 1, is characterized in that,

The described verification mode returned according to service end generates information and comprises:

Generate user interface according to the verification mode that service end returns, described user interface comprises described verification mode.

5. method according to claim 1, is characterized in that, described method also comprises:

After receiving the service end message that returns that it fails to match, again obtain the state parameter of described terminal, and described state parameter is sent to service end.

6. a method of calibration, is characterized in that, described method comprises:

Receive the verification mode request that client sends;

Verification mode is generated according to described verification mode request;

Described verification mode is sent to client, generates information for client according to described verification mode;

Receive the state parameter of the terminal that client sends;

Judge whether described state parameter mates described verification mode, when described state parameter mates described verification mode, confirm that verification is passed through.

7. method according to claim 6, is characterized in that,

Describedly generate verification mode according to described verification mode request and comprise:

Obtain the model of the terminal at client place;

The sensor calibration mode of the model support of terminal described in stochastic generation.

8. method according to claim 7, is characterized in that,

Describedly generate verification mode according to described verification mode request and also comprise:

Generate the timestamp that described verification mode is corresponding;

Described method also comprises:

When receiving the state parameter of the terminal that client sends, judging whether current time exceedes timestamp corresponding to described verification mode, if not, then judging whether described state parameter mates described verification mode.

9. method according to claim 8, is characterized in that, described method also comprises:

Do not mate described verification mode at described state parameter, and when current time does not exceed timestamp corresponding to described verification mode, send the message that it fails to match to client.

10. a calibration equipment, is characterized in that, described device comprises:

Request transmitting unit, sends verification mode request to service end;

Prompting generation unit, generates information according to the verification mode that service end returns, inputs described verification mode to point out user;

Parameter transmitting element, obtains the state parameter of terminal, and described state parameter is sent to service end, for service end when verifying described state parameter and mating described verification mode, confirms that verification is passed through.

11. 1 kinds of calibration equipments, is characterized in that, described device comprises:

Request reception unit, receives the verification mode request that client sends;

Verification generation unit, generates verification mode according to described verification mode request;

Mode transmitting element, sends to client by described verification mode, generates information for client according to described verification mode;

Parameter receiving element, receives the state parameter of the terminal that client sends;

Parameter verification unit, judges whether described state parameter mates described verification mode, when described state parameter mates described verification mode, confirms that verification is passed through.