CN108614965A - A kind of method of calibration, device and computer readable storage medium - Google Patents
A kind of method of calibration, device and computer readable storage medium Download PDFInfo
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- CN108614965A CN108614965A CN201810308322.0A CN201810308322A CN108614965A CN 108614965 A CN108614965 A CN 108614965A CN 201810308322 A CN201810308322 A CN 201810308322A CN 108614965 A CN108614965 A CN 108614965A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/30—Authentication, i.e. establishing the identity or authorisation of security principals
- G06F21/31—User authentication
- G06F21/36—User authentication by graphic or iconic representation
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Abstract
The invention discloses a kind of methods of calibration, including:Draw at least two orbit segments successively in display interface, and orbit segment complete after the corresponding orbit segment of drafting is removed on the display interface;At least two orbit segments drawn form the first track;The touch operation of detection user draws the second track according to the touch operation on the display interface;Determine check results;The check results are that the present invention determined according to the matching degree of first track and second track further simultaneously discloses a kind of calibration equipment and computer readable storage medium.
Description
Technical field
The present invention relates to a kind of terminal user authentication field more particularly to method of calibration, device and computer-readable storages
Medium.
Background technology
Currently, with the fast development of computer technology, the problem of network security, is increasingly taken seriously, in order to ensure to use
The certification of the safety at family, terminal user becomes more and more important.Wherein, identifying code is as a kind of verification means, including:Text is tested
Demonstrate,prove code, graphical verification code, sliding identifying code, short message verification code, speech identifying code.
But text authentication code operability is poor;Simple picture validation code and simple static sliding verification are easy
By machine recognition and simulation;Complicated picture validation code and sliding verification can increase the difficulty of artificial treatment, cause to verify successfully
Rate reduces;Short message verification code and speech identifying code need to rely on corresponding telecom operators' platform, due to short message and phonetic incepting
Success rate can not ensure, thus the success rate verified can reduce, and need to pay to telecom operators' platform, increase operation
Cost.
Therefore, there is an urgent need for find a kind of technical solution that can effectively avoid machine simulation and improve verification success rate.
Invention content
In view of this, an embodiment of the present invention is intended to provide a kind of method of calibration, device and computer readable storage medium, energy
It is enough effectively to avoid machine simulation and improve verification success rate.
What the technical solution of the embodiment of the present invention was realized in:
The embodiment of the present invention provides a kind of method of calibration, the method includes:
Draw at least two orbit segments successively in display interface, and orbit segment complete after in the display interface supernatant
Except the corresponding orbit segment of drafting;At least two orbit segments drawn form the first track;
The touch operation of detection user draws the second track according to the touch operation on the display interface;
Determine check results;The check results are true according to the matching degree of first track and second track
Fixed.
It is described to draw at least two orbit segments successively in display interface in said program, including:
Rendering parameter is obtained from server;The rendering parameter includes at least the seat of the orbit segment starting point and terminal
The drawing order of mark, coordinate points;
Using the coordinate in the rendering parameter, a dot matrix is determined;
Using the starting point and terminal point coordinate of each orbit segment, the position of orbit segment is determined in the dot matrix;
Using the drawing order of the coordinate points in the rendering parameter, the drawing order of orbit segment is determined;
According to determining drawing order, in display interface successively track drafting section.
It is described to draw at least two orbit segments successively in display interface in said program, including:
The rendering parameter at least further includes the drafting speed and drafting color of each orbit segment;
Utilize the drafting speed of each orbit segment in the rendering parameter, track drafting section;
Using the drafting color of each orbit segment in the rendering parameter, the drafting color of orbit segment is shown as described
Corresponding drafting color in rendering parameter.
In said program, the determining check results, including:
The information for characterizing second track is sent to server;Described information for server for being verified;
Receive the check results that server is sent.
The embodiment of the present invention provides a kind of method of calibration, the method includes:
Receive the information for the second track of characterization that terminal is sent;Second track is touch operation of the terminal according to user
It draws;
According to the matching degree of second track and the first track, check results are obtained;First track is described
Terminal draws to be formed using at least two orbit segments that server local preserves;Wherein, after the orbit segment is completed
It disappears on the display interface of the terminal;
The check results are sent to the terminal.
In said program, the method further includes:
Obtain the account confidence level of terminal user;
Using the account confidence level, the coordinate of each orbit segment starting point and terminal, the drawing order of coordinate points are determined;
By the drawing order of determining coordinate and coordinate points, as rendering parameter;The rendering parameter is used to supply the end
Draw first track in end;
The rendering parameter is sent to the terminal.
The matching degree according to second track and the first track obtains check results, including:
Using second track, corresponding each orbit segment is determined;
For each orbit segment, the seat for the trigger sequence and trigger point that user's trigger action is corresponded in described information is utilized
Mark, judges whether the orbit segment of corresponding second track matches with the orbit segment of corresponding first track locally preserved;
Upon determining a match, using the relevant information with the second Track association, the account for obtaining the terminal user is credible
Degree;
Judge whether the account confidence level of the terminal user is more than predetermined threshold value;
If it is determined that when being more than, then success is verified;Otherwise, verification failure.
The embodiment of the present invention provides a kind of calibration equipment, and described device includes:
Drafting module, for drawing at least two orbit segments successively in display interface, and orbit segment complete after in institute
State the corresponding orbit segment that drafting is removed on display interface;At least two orbit segments drawn form the first track;
Detection module, the touch operation for detecting user are drawn according to the touch operation on the display interface
Second track;
Determining module, for determining check results;The check results are according to first track and second rail
What the matching degree of mark determined.
The embodiment of the present invention provides a kind of calibration equipment, and described device includes:
Receiving module, the information of the second track of characterization for receiving terminal transmission;Second track be terminal according to
What the touch operation of user was drawn;
Correction verification module obtains check results for the matching degree according to second track and the first track;Described
One track is that the terminal draws to be formed using at least two orbit segments that server local preserves;Wherein, the orbit segment
It disappears on the display interface of the terminal after completing;
Sending module, for sending the check results to the terminal.
The embodiment of the present invention provides a kind of computer readable storage medium, is stored thereon with computer program, feature exists
In, the computer program realizes method of calibration any one of described above when being executed by processor the step of.
The embodiment of the present invention provides a kind of calibration equipment, including:Memory, processor and storage are on a memory and can
The computer program run on a processor;
Wherein, the processor is for when running the computer program, executing method of calibration any one of described above
Step.
Method of calibration, device and computer readable storage medium provided in an embodiment of the present invention are painted successively in display interface
Make at least two orbit segments, and orbit segment complete after the corresponding orbit segment of drafting is removed on the display interface;It draws
At least two orbit segments formed the first track;The touch operation for detecting user, according to the touch operation, in display circle
The second track is drawn on face;Determine check results;The check results are according to first track and second track
What matching degree determined.It removes and draws on the display interface of terminal in the embodiment of the present invention, after being completed due to orbit segment
Corresponding orbit segment, thus terminal user can rely on the memory of the first track formed at least two orbit segments, show
Touch operation is carried out in interface, finally obtains the second track.Obviously, user's remembering to dynamically the first track of drafting is relied on
To the second track, the possibility of machine simulation is reduced, can effectively avoid machine simulation, while helping to improve and verifying successfully
Rate.
Description of the drawings
Fig. 1 is the schematic diagram of static track in the related technology;
Fig. 2 is the verification flow diagram of static track in the related technology;
Fig. 3 is the flow diagram one of method of calibration of the embodiment of the present invention;
Fig. 4 is the flow diagram two of method of calibration of the embodiment of the present invention;
Fig. 5 be terminal of the embodiment of the present invention, server function module block schematic illustration;
Fig. 6 is each orbit segment schematic diagram that dynamic of the embodiment of the present invention is drawn;
Fig. 7 is the schematic diagram of orbit segment of the embodiment of the present invention;
Fig. 8 is the specific implementation flow schematic diagram of track of embodiment of the present invention verification;
Fig. 9 is the structural schematic diagram one of calibration equipment of the embodiment of the present invention;
Figure 10 is the structural schematic diagram two of calibration equipment of the embodiment of the present invention;
Figure 11 is the structural schematic diagram three of calibration equipment of the embodiment of the present invention.
Specific implementation mode
Verification means of the identifying code as certification terminal user, the form of identifying code include:Text authentication code, graphic verification
Code, sliding identifying code, short message verification code, speech identifying code.Fig. 1 is the schematic diagram of static track, and Fig. 2 is the verification of static track
Flow diagram, the verification process of static track shown in Fig. 2 include:Step 201:Server-side generates demonstration track;Step 202:
The demonstration track that server-side generates is illustrated in display interface by client with static form, and the demonstration track for user for existing
Simulation drafting is carried out by slide on display interface;Step 203:User carries out mould on display interface by slide
It is quasi- to draw;Step 204:Client acquires the slide of user, on the analog track that the slide based on user is generated
Pass to server-side;Step 205:Server verifies the analog track and the demonstration track, and back-checking result;
Step 206:It verifies successfully;Step 207:Verification failure.But be easy by machine recognition for the sliding of static track verification and
Simulation.
Based on this, in the embodiment of the present invention, at least two orbit segments are drawn successively in display interface, and orbit segment has been drawn
The corresponding orbit segment of drafting is removed on the display interface after;At least two orbit segments drawn form the first track;Inspection
The touch operation for surveying user draws the second track according to the touch operation on the display interface;Determine check results;
The check results are to be determined according to the matching degree of first track and second track.
The characteristics of in order to more fully hereinafter understand the embodiment of the present invention and technology contents, below in conjunction with the accompanying drawings to this hair
The realization of bright embodiment is described in detail, appended attached drawing purposes of discussion only for reference, is not used for limiting the present invention.
As shown in figure 3, the present invention will be described in detail embodiment method of calibration, the method for calibration of the present embodiment is applied to terminal
Side includes the following steps:
Step 301:Draw at least two orbit segments successively in display interface, and orbit segment complete after in the display
The corresponding orbit segment of drafting is removed on interface;At least two orbit segments drawn form the first track.
Here, the corresponding orbit segment drawn is removed after orbit segment is completed in terminal display interface, in this way, user can be with
Simulation drafting is carried out to first track by memory, since orbit segment is eliminated after completing, machine can be prevented
Device obtains, therefore can effectively prevent machine simulation.In addition, terminal can obtain orbit segment from server, in this way, server can be with
According to the length of the memory extent control orbit segment of different user, simulation difficulty of the user to first track will not be increased.
The memory degree of different user can determine according to the time of user's consuming when carrying out trace simulation, for example,
Can memory Tachistoscope be carried out to user in advance, provide a user track for user's simulation test, consumed when according to user test
The time of expense determines the memory degree of user, alternatively, the average time-consuming come really of track verification can also be carried out according to user is passing
Fixed, time-consuming shorter, memory degree is stronger.
In one embodiment, described to draw at least two orbit segments successively in display interface, including:It is painted from server acquisition
Parameter processed;The rendering parameter is including at least the coordinate of the orbit segment starting point and terminal, the drawing order of coordinate points;It utilizes
Coordinate in the rendering parameter determines a dot matrix;Using the starting point and terminal point coordinate of each orbit segment, in the dot matrix
The position of middle determining orbit segment;Using the drawing order of the coordinate points in the rendering parameter, the drawing order of orbit segment is determined;
According to determining drawing order, in display interface successively track drafting section.
Here, the seat of orbit segment starting point and terminal in the rendering parameter transmitted between the server and the terminal
Mark is text class data, for traditional picture validation code, the not only smaller memory space of occupied terminal, but also can
Reduce the transmission flow of consumption.
In one embodiment, described to draw at least two orbit segments successively in display interface, including:The rendering parameter is extremely
Further include the drafting speed and drafting color of each orbit segment less;Utilize the drafting speed of each orbit segment in the rendering parameter
Degree, track drafting section;Using the drafting color of each orbit segment in the rendering parameter, the drafting color of orbit segment is shown
For corresponding drafting color in the rendering parameter.
When practical application, terminal can control orbit segment according to the drafting speed in the rendering parameter obtained from server
Drafting speed can accelerate the speed of track drafting section, in this way, for remembering superpower user to help to improve use
Simulate the experience of the first track in family.In addition, terminal can be controlled according to the drafting color in the rendering parameter obtained from server
The display color of orbit segment, in this way, can controlling the display color of track drafting in conjunction with user to the hobby of color, also helping
In the experience for improving the first track of user's simulation;The user to the hobby of color, can by the color preferences to user into
Row test obtains.
When practical application, the rendering parameter can also include that track is drawn opportunity, and terminal receives server transmission
After the track drafting opportunity, opportunity is drawn according to the track, shows orbit segment in display interface, opportunity is drawn in track can be with
It is unfixed, the time that such track is drawn is random, is not easy to be obtained by machine, safety is higher.
Step 302:The touch operation of detection user draws second according to the touch operation on the display interface
Track.
Here, the orbit segment of the first track can dynamically be drawn on the dot matrix that display interface is shown, the first track is drawn
After the completion, user is redrawn by the memory to orbit segment in the first track on the same dot matrix.
Wherein, the dot matrix can be orbit segment starting point and the end in the rendering parameter that terminal is sent according to server
What point coordinates determined, and one group of orbit segment starting point can be utilized and terminate point coordinates and determine at least one dot matrix;Alternatively, institute
It is that terminal is pre-set according to actual conditions to state dot matrix.That is, in the present embodiment, the size of dot matrix can also be to be dynamically determined
, machine simulation can be effectively prevent.
When practical application, if user uses the handheld terminals such as mobile phone, Pad, it can carry out drawing described by touch screen
Two tracks;If user uses personal computer (PC, Personal Computer) to hold, drafting institute can be carried out by mouse
State the second track.
Step 303:Determine check results;The check results are according to first track and second track
It is determined with degree.
In one embodiment, the determining check results, including:The information for characterizing second track is sent to service
Device;Described information for server for being verified;Receive the check results that server is sent.
Method of calibration provided in an embodiment of the present invention is removed after being completed due to orbit segment on the display interface of terminal
The corresponding orbit segment drawn, thus terminal user can rely on the memory of the first track formed at least two orbit segments,
Touch operation is carried out in display interface, finally obtains the second track.Obviously, the note for the first track that user draws dynamic is relied on
Recall to obtain the second track, reduce the possibility of machine simulation, can effectively avoid machine simulation, while helping to improve verification
Success rate.
As shown in figure 4, the present invention will be described in detail embodiment method of calibration, the method for calibration of the present embodiment is applied to server
Side includes the following steps:
Step 401:Receive the information for the second track of characterization that terminal is sent;Second track is terminal according to user's
What touch operation was drawn.
When practical application, if user uses the handheld terminals such as mobile phone, Pad, it can carry out drawing described by touch screen
Two tracks;If user uses the ends PC, can carry out drawing second track by mouse.
Step 402:According to the matching degree of second track and the first track, check results are obtained;First rail
Mark is that the terminal draws to be formed using at least two orbit segments that server local preserves;Wherein, the orbit segment is drawn
It disappears on the display interface of the terminal after the completion.
Here, the orbit segment of the first track can dynamically be drawn on the dot matrix that terminal display interface is shown, the first track
After completing, user is redrawn by the memory to orbit segment in the first track on the same dot matrix.
In one embodiment, the matching degree according to second track and the first track, obtains check results, packet
It includes:Using second track, corresponding each orbit segment is determined;For each orbit segment, using in described information to application
The trigger sequence of family trigger action and the coordinate of trigger point judge that the orbit segment of corresponding second track is corresponding with locally preserving
Whether the orbit segment of the first track matches;Upon determining a match, using the relevant information with the second Track association, the end is obtained
The account confidence level of end subscriber;Judge whether the account confidence level of the terminal user is more than predetermined threshold value;If it is determined that being more than
When, then verify success;Otherwise, verification failure.
When practical application, server carries out corresponding with the orbit segment for being sent to terminal the first track in the second track
Match, upon a match, the account confidence level of user obtained from air control center, determines whether user is machine using account confidence level,
To may recognize that whether the second track is machine simulation, verification discrimination is improved.
Step 403:The check results are sent to the terminal.
In one embodiment, before step 401, the method further includes:Obtain the account confidence level of terminal;Using described
Account confidence level determines the coordinate of each orbit segment starting point and terminal, the drawing order of coordinate points;By determining coordinate and coordinate
The drawing order of point, as rendering parameter;The rendering parameter is used to draw first track for the terminal;To the end
End sends the rendering parameter.
The lower embodiment of the present invention is described in detail below to use the structure of check system in practical applications and be based on the knot
Structure realizes the process and principle of verification.
Fig. 5 be terminal of the embodiment of the present invention, server function module block schematic illustration.Specifically, as shown in figure 5, institute
The structure for stating check system includes:Terminal, server, air control center;The function module of terminal includes:Track dynamic is verified to draw
Module, user's sliding trace receiving module;Wherein,
Track dynamic drafting module is verified, for drawing dynamic trajectory.Specifically, different from traditional static track, this reality
It is that dynamic is drawn, and the track between 2 points completes and disappears immediately later on display interface to apply the track in example, tightly
Then the drafting of next section of track is carried out, whole process is continuously free of discontinuities;The dynamic drafting can be the terminal according to pre-
If animation effect orbit segment is drawn.All tracks reverted to after completing original dot matrix i.e. without track when point
Battle array.User is redrawn according to the track in memory on the dot matrix.Here, dynamic trajectory than static track be more difficult to by
Machine recognition does not increase identification difficulty since dynamic trajectory is shorter for real user.
User's sliding trace receiving module, for monitoring touch event, user is drawn in the sliding touch operation based on user
The second track, and the second track is uploaded to server-side.
It, can be by the ValueAnimator attribute animation skills of Canvas technologies and Android by taking Android client as an example
Art is combined, and realizes that the dynamic of track draws and disappears, Fig. 6 is each orbit segment schematic diagram that dynamic is drawn, the drafting of orbit segment
Process includes the following steps:
Step 1:Obtain orbit segment.
Fig. 7 is the schematic diagram of orbit segment, and static state track shown in Fig. 7 includes 3 sections of orbit segments.
Step 2:Effect is drawn in setting.
According to the rendering parameter that server is sent, animation effect is set using ValueAnimator;The rendering parameter packet
Include but be not limited to the rate of track drafting, the drafting color of track etc.;
Step 3:Draw first orbit segment.
It keeps the starting point of track constant, point coordinates is terminated by ValueAnimator dynamic modifications, is then utilized
Canvas technologies are constantly drawn, and animation terminates, and track is completed.
Step 4:Draw next section of track.
The starting point of track is moved to the end position of the preceding paragraph track, is remained unchanged, again by
ValueAnimator dynamic modifications terminate point coordinates, are then constantly drawn using Canvas technologies.At this point, the preceding paragraph track is
Through disappearing.
Step 5:Continue the operation of step 4, until completing the drafting of all segmentation tracks.
Step 6:Track empties.
It should be noted that when removing track, can be removed in the display interface of terminal after orbit segment is completed
The corresponding orbit segment drawn;Can also be after all orbit segments to be completed, the first track that all orbit segments are formed carries out
It removes.
Include by the process that the first track that all orbit segments are formed is purged:Keep the end point of final stage track
It is constant, by ValueAnimator dynamic modification starting point coordinate, then constantly drawn using Canvas technologies, starting point by
Gradually close to end point, animation terminates, and track empties.
In Fig. 5, the function module of server includes:Verify track generation module, user's sliding trace correction verification module;Its
In,
Track generation module is verified, for obtaining tracing point starting point and terminal point coordinate.Specifically, from the account at air control center
Number confidence level memory module obtains the account number confidence level of counterpart terminal user, and according to the account confidence level customize one group it is random
Orbit segment starting point and end point coordinates, can also customize the speed of orbit segment drafting, that is, the time that orbit segment is drawn.Example
Such as, using returned from air control center coordinate (1,1), (2,2), (2,3), (3,2), it may be determined that orbit segment shown in Fig. 7, also
It can determine that the binary array of three rows three row, dot matrix include nine position coordinates:(1,1), (1,2), (1,3), (2,1),
(2,2), (2,3), (3,1), (3,2), (3,3).
User's sliding trace correction verification module, the second track that terminal is uploaded for server-side and locally preserve corresponding
One track is analysed and compared, and the account number confidence level that air control center is uploaded to the relevant information in the second track is calculated mould
Block.Whether the second track is determined in conjunction with the analyses and comparison result of user's sliding trace correction verification module, account confidence level computing module
It verifies successfully.
In Fig. 5, air control center includes:Account number confidence level memory module, account number confidence level computing module;Wherein,
Account number confidence level memory module, the account number confidence level for storing user are supplied to server-side for customizing track
The complexity of section.
The relevant information of account number confidence level computing module, the second track for being fed back according to server-side analyzes user's row
To recalculate the account number confidence level of user, being people or machine to distinguish user.
Below by taking specific embodiment as an example, the realization process and principle that the present invention will be described in detail in practical applications.
Fig. 8 is the specific implementation flow schematic diagram of track of embodiment of the present invention verification, implements process, including walk as follows
Suddenly:
Step 801:Server obtains the account number confidence level of terminal user from air control center.
Step 802:Server-side customizes the complexity of orbit segment according to account number confidence level, generates one group of random orbit segment and rises
Initial point and end point coordinates, while determining the parameters such as the drafting speed of orbit segment, track drafting opportunity.
It can be speed of the client when showing track drafting to user that speed is drawn in track, and opportunity is drawn in track can be with
Show the time point of orbit segment in display interface after the orbit segment for receiving server return for client.For confidence level compared with
Low account can increase it and draw complexity, for example increases the coordinate points of drafting, accelerates to draw speed etc..
Step 803:Drafting speed that terminal is returned according to server-side draws opportunity, orbit segment coordinate dynamic track drafting,
And empty orbit segment after orbit segment is completed.
Step 804:The memory for the first track that user draws according to the dynamic shown in terminal, in client end interface upper mold
Quasi- first track.
Step 805:Terminal acquires the second track that user draws, and will upload to service with the relevant information of the second track
Device;
Step 806:The rail for the second track and corresponding first track for being sent to client in advance that server analysis uploads
Whether mark section matches;
Step 807:Whether the coordinate points of the second track of server analysis all trigger, and each coordinate points trigger sequence whether
It is matched with the trigger sequence of each coordinate points in the first track;
Step 808:If satisfied, the relevant information of the second track is then transmitted to air control center.It air control center can be according to
Relevant information analyzes user behavior, recalculates the account number confidence level of user, and the account confidence level after recalculating returns
To server-side;
Step 808 mainly determines whether operator is machine, the phase of the second track according to the relevant information of the second track
It may include the information such as the speed that user draws the second track to close information, if the drawing process of the second track is at the uniform velocity,
Operator is that the possibility of machine is larger, then can reduce the confidence level of account.
Step 809:Whether server-side is proved to be successful the second track according to the account confidence level determination recalculated.
If the account recalculated is with a high credibility in given threshold, it is proved to be successful.
Step 810:Check results are returned to terminal by server-side.
Based on the method for calibration that each embodiment of the application provides, present invention also provides a kind of calibration equipments, can be arranged
In terminal, as shown in figure 9, described device includes:Drafting module 91, detection module 92, determining module 93;Wherein,
Drafting module 91, for drawing at least two orbit segments successively in display interface, and orbit segment complete after
The corresponding orbit segment of drafting is removed on the display interface;At least two orbit segments drawn form the first track;
Detection module 92, the touch operation for detecting user are painted according to the touch operation on the display interface
Make the second track;
Determining module 93, for determining check results;The check results are according to first track and described second
What the matching degree of track determined.
It should be noted that:The calibration equipment that above-described embodiment provides is when carrying out track verification, only with above-mentioned each program
The division progress of module can as needed distribute above-mentioned processing by different program moulds for example, in practical application
Block is completed, i.e., the internal structure of device is divided into different program modules, to complete all or part of place described above
Reason.In addition, the calibration equipment that above-described embodiment provides belongs to same design with method of calibration embodiment, specific implementation process is detailed
See embodiment of the method, which is not described herein again.
In practical applications, drafting module 91, detection module 92, determining module 93 can be by the centers on calibration equipment
Processor (CPU, Central Processing Unit), microprocessor (MPU, Micro Processor Unit), number letter
Number processor (DSP, Digital Signal Processor) or field programmable gate array (FPGA, Field
Programmable Gate Array) etc. realizations.
Based on the method for calibration that each embodiment of the application provides, present invention also provides a kind of calibration equipments, can be arranged
On the server, as shown in Figure 10, described device includes:Receiving module 101, correction verification module 102, sending module 103;Wherein,
Receiving module 101, the information of the second track of characterization for receiving terminal transmission;Second track is terminal root
It is drawn according to the touch operation of user;
Correction verification module 102 obtains check results for the matching degree according to second track and the first track;Institute
It is that the terminal draws to be formed using at least two orbit segments that server local preserves to state the first track;Wherein, the rail
Mark section disappears after completing on the display interface of the terminal;
Sending module 103, for sending the check results to the terminal.
It should be noted that:The calibration equipment that above-described embodiment provides is when carrying out track verification, only with above-mentioned each program
The division progress of module can as needed distribute above-mentioned processing by different program moulds for example, in practical application
Block is completed, i.e., the internal structure of device is divided into different program modules, to complete all or part of place described above
Reason.In addition, the calibration equipment that above-described embodiment provides belongs to same design with method of calibration embodiment, specific implementation process is detailed
See embodiment of the method, which is not described herein again.
In practical applications, receiving module 101, sending module 103 are real by the network interface on data displaying device
It is existing;Correction verification module 102 can be by realizations such as CPU, MPU, DSP or FPGA on calibration equipment.
Figure 11 is the structural schematic diagram of calibration equipment of the present invention, and calibration equipment 1100 includes shown in Figure 11:It is at least one
Processor 1101, memory 1102, user interface 1103, at least one network interface 1104.It is each in calibration equipment 1100
Component is coupled by bus system 1105.It is understood that bus system 1105 is for realizing the connection between these components
Communication.Bus system 1105 further includes power bus, controlling bus and status signal bus in addition in addition to including data/address bus.But
It is that various buses are all designated as bus system 1105 in Figure 5 for the sake of clear explanation.
Wherein, user interface 1103 may include display, keyboard, mouse, trace ball, click wheel, button, button, touch
Feel plate or touch screen etc..
It is appreciated that memory 1102 can be volatile memory or nonvolatile memory, volatibility may also comprise
Both with nonvolatile memory.Wherein, nonvolatile memory can be read-only memory (ROM, Read Only
Memory), programmable read only memory (PROM, Programmable Read-Only Memory), erasable programmable are read-only
Memory (EPROM, Erasable Programmable Read-Only Memory), electrically erasable programmable read-only memory
(EEPROM, Electrically Erasable Programmable Read-Only Memory), magnetic random access store
Device (FRAM, ferromagnetic random access memory), flash memory (Flash Memory), magnetic surface are deposited
Reservoir, CD or CD-ROM (CD-ROM, Compact Disc Read-Only Memory);Magnetic surface storage can be
Magnetic disk storage or magnetic tape storage.Volatile memory can be random access memory (RAM, Random Access
Memory), it is used as External Cache.By exemplary but be not restricted explanation, the RAM of many forms is available, such as
Static RAM (SRAM, Static Random Access Memory), synchronous static RAM
(SSRAM, Synchronous Static Random Access Memory), dynamic random access memory (DRAM,
Dynamic Random Access Memory), Synchronous Dynamic Random Access Memory (SDRAM, Synchronous
Dynamic Random Access Memory), double data speed synchronous dynamic RAM (DDRSDRAM,
Double Data Rate Synchronous Dynamic Random Access Memory), enhanced synchronous dynamic random
Access memory (ESDRAM, Enhanced Synchronous Dynamic Random Access Memory), synchronized links
Dynamic random access memory (SLDRAM, SyncLink Dynamic Random Access Memory), direct rambus
Random access memory (DRRAM, Direct Rambus Random Access Memory).Description of the embodiment of the present invention is deposited
Reservoir 1102 is intended to the memory of including but not limited to these and any other suitable type.
Memory 1102 in the embodiment of the present invention is for storing various types of data to support calibration equipment 1100
Operation.The example of these data includes:Any computer program for being operated on calibration equipment 1100, such as operating system
11021 and application program 11022;Wherein, operating system 11021 include various system programs, such as ccf layer, core library layer,
Layer etc. is driven, for realizing various basic businesses and the hardware based task of processing.Application program 11022 can include various
Application program, for realizing various applied business.Realize that the program of present invention method may be embodied in application program
In 11022.
The method that the embodiments of the present invention disclose can be applied in processor 1101, or real by processor 1101
It is existing.Processor 1101 may be a kind of IC chip, the processing capacity with signal.During realization, the above method
Each step can be completed by the instruction of the integrated logic circuit of the hardware in processor 1101 or software form.Above-mentioned
Processor 1101 can be general processor, digital signal processor either other programmable logic device, discrete gate or crystalline substance
Body pipe logical device, discrete hardware components etc..Processor 1101 may be implemented or execute disclosed in the embodiment of the present invention
Each method, step and logic diagram.General processor can be microprocessor or any conventional processor etc..In conjunction with this hair
The step of method disclosed in bright embodiment, hardware decoding processor can be embodied directly in and execute completion, or at decoding
Hardware and software module combination in reason device execute completion.Software module can be located in storage medium, which is located at
The step of memory 1102, processor 1101 reads the information in memory 1102, preceding method is completed in conjunction with its hardware.
Based on the method for calibration that each embodiment of the application provides, the application also provides a kind of computer readable storage medium,
Referring to Fig.1 shown in 1, the computer readable storage medium may include:Memory 1102 for storing computer program, on
Stating computer program can be executed by the processor 1101 of calibration equipment 1100, to complete step described in preceding method.Computer can
Read storage medium can be FRAM, ROM, PROM, EPROM, EEPROM, Flash Memory, magnetic surface storage, CD or
The memories such as CD-ROM.
The foregoing is only a preferred embodiment of the present invention, is not intended to limit the scope of the present invention.
Claims (10)
1. a kind of method of calibration, which is characterized in that the method includes:
Draw at least two orbit segments successively in display interface, and orbit segment complete after remove and paint on the display interface
The corresponding orbit segment of system;At least two orbit segments drawn form the first track;
The touch operation of detection user draws the second track according to the touch operation on the display interface;
Determine check results;The check results are to be determined according to the matching degree of first track and second track
's.
2. according to the method described in claim 1, it is characterized in that, described draw at least two tracks successively in display interface
Section, including:
Rendering parameter is obtained from server;The rendering parameter includes at least the coordinate of the orbit segment starting point and terminal, sits
The drawing order of punctuate;
Using the coordinate in the rendering parameter, a dot matrix is determined;
Using the starting point and terminal point coordinate of each orbit segment, the position of orbit segment is determined in the dot matrix;
Using the drawing order of the coordinate points in the rendering parameter, the drawing order of orbit segment is determined;
According to determining drawing order, in display interface successively track drafting section.
3. according to the method described in claim 2, it is characterized in that, described draw at least two tracks successively in display interface
Section, including:
The rendering parameter at least further includes the drafting speed and drafting color of each orbit segment;
Utilize the drafting speed of each orbit segment in the rendering parameter, track drafting section;
Using the drafting color of each orbit segment in the rendering parameter, the drafting color of orbit segment is shown as the drafting
Corresponding drafting color in parameter.
4. according to the method described in claim 1, it is characterized in that, the determining check results, including:
The information for characterizing second track is sent to server;Described information for server for being verified;
Receive the check results that server is sent.
5. a kind of method of calibration, which is characterized in that the method includes:
Receive the information for the second track of characterization that terminal is sent;Second track is that terminal is drawn according to the touch operation of user
's;
According to the matching degree of second track and the first track, check results are obtained;First track is the terminal
At least two orbit segments preserved using server local, which are drawn, to be formed;Wherein, described after the orbit segment is completed
It disappears on the display interface of terminal;
The check results are sent to the terminal.
6. according to the method described in claim 5, it is characterized in that, the method further includes:
Obtain the account confidence level of terminal user;
Using the account confidence level, the coordinate of each orbit segment starting point and terminal, the drawing order of coordinate points are determined;
By the drawing order of determining coordinate and coordinate points, as rendering parameter;The rendering parameter is used to paint for the terminal
Make first track;
The rendering parameter is sent to the terminal.
The matching degree according to second track and the first track obtains check results, including:
Using second track, corresponding each orbit segment is determined;
For each orbit segment, using the coordinate for the trigger sequence and trigger point for corresponding to user's trigger action in described information,
Judge whether the orbit segment of corresponding second track matches with the orbit segment of corresponding first track locally preserved;
Upon determining a match, using the relevant information with the second Track association, the account confidence level of the terminal user is obtained;
Judge whether the account confidence level of the terminal user is more than predetermined threshold value;
If it is determined that when being more than, then success is verified;Otherwise, verification failure.
7. a kind of calibration equipment, which is characterized in that described device includes:
Drafting module, for drawing at least two orbit segments successively in display interface, and orbit segment complete after described aobvious
Show the corresponding orbit segment that drafting is removed on interface;At least two orbit segments drawn form the first track;
Detection module, the touch operation for detecting user draw second according to the touch operation on the display interface
Track;
Determining module, for determining check results;The check results are according to first track and second track
What matching degree determined.
8. a kind of calibration equipment, which is characterized in that described device includes:
Receiving module, the information of the second track of characterization for receiving terminal transmission;Second track is terminal according to user
Touch operation draw;
Correction verification module obtains check results for the matching degree according to second track and the first track;First rail
Mark is that the terminal draws to be formed using at least two orbit segments that server local preserves;Wherein, the orbit segment is drawn
It disappears on the display interface of the terminal after the completion;
Sending module, for sending the check results to the terminal.
9. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the computer program quilt
The step of any one of Claims 1-4 the method is realized when processor executes, or realize any one of claim 5 to 6 institute
The step of stating method.
10. a kind of calibration equipment, which is characterized in that including:Memory, processor and storage on a memory and can handled
The computer program run on device;
Wherein, the processor is for when running the computer program, perform claim to require any one of 1 to 4 the method
The step of step or perform claim require any one of 5 to 6 the method.
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