CN104751565B - Gesture payment cipher input module and use its gesture payment coding system - Google Patents
Gesture payment cipher input module and use its gesture payment coding system Download PDFInfo
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- CN104751565B CN104751565B CN201310730014.4A CN201310730014A CN104751565B CN 104751565 B CN104751565 B CN 104751565B CN 201310730014 A CN201310730014 A CN 201310730014A CN 104751565 B CN104751565 B CN 104751565B
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- gesture
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- identification point
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Abstract
The present invention provides a kind of gesture payment cipher input module and uses its gesture payment coding system, belongs to payment cipher technical field.The gesture payment cipher module includes transition point and the multiple identification points for being used to represent payment cipher being distributed in around the transition point.The gesture payment coding system includes gesture payment cipher module and the gesture payment cipher modular converter for the gesture path inputted from the gesture payment cipher module to be converted to payment cipher.The gesture payment cipher module, which not only can repeatedly connect, inputs same identification point, and the identification point at the input interval that can connect, and gesture payment coding system is safe.
Description
Technical field
The invention belongs to payment cipher technical field, it is related to gesture payment cipher, more particularly to gesture password can be passed through
Input the gesture payment cipher input module of payment cipher and pay close including the gesture payment cipher input module and gesture
The gesture payment coding system of code modular converter.
Background technology
With the popularization of intelligent mobile terminal, to possess good hommization experience, memorizing in images etc. excellent because of it for gesture password
Point, and it is increasingly becoming the main flow of password input mode.
But in payment technical field, due to its higher security requirement, generally input number by the way of key-press input
Word payment cipher or other kinds of payment cipher, the defeated of payment cipher is not realized currently by the way of gesture input
Enter, especially in intelligent mobile terminal.
The input mode of typical gesture password mainly uses Android in current industry(Android)The unlocking screen of system
9 series systems.Fig. 1 show the schematic diagram of the gesture payment cipher input module of typical 9 series systems, such as Fig. 1 institutes
Show, the identification point of 9 gesture paths is arranged by the column matrix of three row three.This gesture password input mode also has user's body certainly
Test, memorizing in images the advantages of, but also have the disadvantages that:(1)Password combination is no more than 10,000, and security performance is not high enough,
It is not suitable for payment cipher;(2)Identical identification point can not continuously repeat input;(3)It is arranged in the interval on same straight line
Point is not across connection, such as in 9 series system inputting interfaces, as shown in figure 1, the upper left corner(First point)And the lower right corner(The
9 points)Series connection have to pass through intermediate point(5th point).
The disadvantage mentioned above of gesture password also further limit it applied to payment cipher field.
The content of the invention
It is an object of the present invention to realize the input of payment cipher by the way of gesture input.
To realize object above or other purposes, the present invention provides following technical scheme.
It is an aspect of this invention to provide that providing a kind of gesture payment cipher input module, it includes:Transition point and distribution
Multiple identification points for being used to represent payment cipher around the transition point.
Gesture payment cipher input module according to an embodiment of the invention, wherein, the identification point is 10, respectively table
Show 0 to 9 digital payment cipher.
Preferably, 10 identification point arrangement lopping, the transition point is located at the centre of the circle.
It is further preferred that the circle is square ring.
In one example, 10 identification points can be arranged in order by the size of the numerical ciphers value of its expression.
In a further example, 10 identification points can be with random alignment lopping.
Alternatively, the payment cipher is digital payment cipher, alphabetical payment cipher and/or symbol payment cipher.
Wherein, during the same payment cipher that the gesture payment cipher input module is repeated by gesture input, hand is passed through
Finger slides to the transition point from the corresponding identification point of the payment cipher and is back to the corresponding identification point of the payment cipher to realize.
Wherein, when the part identification point is arranged in a straight line, the gesture payment cipher input module is defeated by gesture
Enter the payment cipher corresponding to the first spaced identification point and the second identification point in the part identification point being arranged in a straight line
When, the transition point is slided to from first identification point by finger and further slides to second identification point to realize.
Further, gesture payment cipher input module also includes the part for being used to record the identification point that finger is slipped over.
According to another aspect of the present invention there is provided a kind of gesture payment coding system, it includes:
It is described above and any gesture payment cipher input module;And
Gesture branch for the gesture path inputted from the gesture payment cipher input module to be converted to payment cipher
Pay password modular converter.
Gesture payment coding system according to an embodiment of the invention, wherein, the payment cipher is digital payment cipher.
According to the gesture payment coding system of further embodiment of this invention, wherein, the gesture payment cipher input module
Including gesture detecting module, it is used to detect slip of the finger on the gesture payment cipher input module to record finger institute
The identification point of process.
According to the gesture payment coding system of a further embodiment of the present invention, wherein, in addition to gesture preliminary examination module, it is used for
Judge whether the number of the identification point of the record is equal to predetermined number.
Gesture payment coding system according to yet another embodiment of the invention, wherein, in addition to:
Encrypting module, it is used to be encrypted to form ciphertext by the decodement of payment cipher;
Ciphertext comparing module, it, which is used to send the ciphertext to server terminal, is compared checking;And
As a result output module, it is used for the result for exporting comparison.
The solution have the advantages that, by setting transition point, it can repeatedly be connected in gesture input, not only may be used
With the same identification point of input of repeatedly connecting, and the identification point at the input interval that can connect, therefore, gesture of the invention are paid
Cryptographic system can be conveniently realized is converted to gesture payment cipher by gesture path, pacifies while the advantage for having gesture password concurrently
Quan Xinggao, is particularly suitable for use in Mobile payment terminal and applies.
Brief description of the drawings
From described further below with reference to accompanying drawing, it will make the above and other purpose and advantage of the present invention more complete
It is clear, wherein, same or analogous key element, which is adopted, to be indicated by the same numeral.
Fig. 1 is the schematic diagram of the gesture payment cipher input module of typical 9 series systems.
Fig. 2 is the schematic diagram of the gesture payment cipher input module according to one embodiment of the invention.
Fig. 3 is the schematic diagram of the gesture payment cipher input module according to further embodiment of this invention.
Fig. 4 is the schematic diagram of the gesture payment cipher input module progress payment cipher input shown in application drawing 2.
Fig. 5 is the modular structure schematic diagram of the gesture payment coding system according to one embodiment of the invention.
Embodiment
What is be described below is some in multiple possible embodiments of the invention, it is desirable to provide to the basic of the present invention
Solution, it is no intended to confirm the crucial or conclusive key element of the present invention or limit scope of the claimed.It is readily appreciated that, according to this
The technical scheme of invention, in the case where not changing the connotation of the present invention, those of ordinary skill in the art can be proposed can be mutual
Other implementations replaced.Therefore, detailed description below and accompanying drawing are only the examples to technical scheme
Property explanation, and the whole or be considered as being not to be construed as the present invention is defined or limited to technical solution of the present invention.
Fig. 2 show the schematic diagram of the gesture payment cipher input module according to one embodiment of the invention.As shown in Fig. 2
It is preferred that gesture payment cipher input module 210 is configured with multiple identification points using touch-screen as carrier, on the touchscreen, especially
Ground, is configured with transition point 211, can so form the gesture payment cipher input module of the present invention.
In this embodiment, said so that gesture payment cipher input module 210 is used to input digital payment cipher as an example
It is bright, wherein, identification point is 10,0 to 9 digital payment cipher is represented respectively, they are respectively around transition point 211,10
The individual identification point can be, but not limited to be arranged as square ring, and transition point 211 is placed in the center of the square ring.Transition point 211 is excellent
Selection of land is set to 1, so when needing the middle part across square ring directly to slide to another transition point(For example, by identification point 1
Directly slide to identification point 4), transition point 211 is without interference with the sliding path;It will be understood that surrounded in identification point
In the case that the area of intermediate region is sufficiently large, centre can also set multiple transition points.
In an embodiment as illustrated in figure 2, the size for the numerical ciphers value that 10 identification points are represented by it is arranged in order.
Fig. 3 show the schematic diagram of the gesture payment cipher input module according to further embodiment of this invention.Compared to Fig. 2
Illustrated embodiment, its difference is that 10 identification points are not to be arranged in order by the size of the numerical ciphers value of its expression, they
It is random alignment.
It is to be appreciated that the identification point of the gesture payment cipher input module of the present invention be not limited to represent such as Fig. 2 and
Digital payment cipher shown in Fig. 3, under special circumstances, all or part of identification point can also represent that letter payment is close
Code and/or symbol payment cipher etc..
In Fig. 2 and Fig. 3 institutes embodiment, transition point 211 is not offered as any payment cipher, for example, not indicating that any number
Word, letter or symbol, it is merely representative of tracing point during gesture input.But, transition point 211 is in gesture input can be with
Repeatedly connected, therefore the introducing of transition point 211 brings many unexpected effects:
First, the transitional function that can lead to transition point realizes the same identification point of repeatedly series connection input;
Second, the identification point at the transitional function series connection input interval of transition point can be led to;
3rd, provide possibility for gesture path easily is converted into gesture payment cipher;
4th, it is possible to achieve any combination of each identification point, enrich the different payments inputted by gesture path
Password, greatly improves security, this gesture password is applied to the requirement of payment cipher.
Illustrate above effect below by way of Fig. 4.
The gesture payment cipher input module that Fig. 4 is shown shown in application drawing 2 carries out the schematic diagram of payment cipher input, its
Middle Fig. 4(a)Represent the situation that transition point need not be used to input gesture, Fig. 4(b)Represent using transition point realize repeated strings in conjunction with
The situation of one identification point, Fig. 4(c)Represent to realize that series connection inputs the situation of the identification point at interval using transition point.
Such as Fig. 4(a)Shown, exemplified by inputting 6 bit digital payment ciphers, finger is arranged in order along as shown in Figure 2
" 123456 " 6 identification points and slide, form gesture path as depicted, so, the gesture password can pay close with numeral
Code 123456 is mutually changed, and transition point need not be used in such case.
Such as Fig. 4(b)Shown, finger slides to transition point from identification point 1 successively(As shown in trajectory path 1), slide to identification again
Point 1(As shown in trajectory path 2), slide to identification point 7 again(As shown in trajectory path 3), slide to identification point 5 again(Such as trajectory path 4
It is shown), slide to identification point 9 again(As shown in trajectory path 5), slide to identification point 7 again(As shown in trajectory path 6), formed as schemed
Shown gesture path 1-6, so, the gesture password can mutually be changed with digital payment cipher 117597.In this feelings
Under condition, gesture payment cipher input module 210 can by gesture input repeat same digital payment cipher 1, i.e. finger from
Identification point 1 slides to transition point 211 and is back to identification point 1 to realize.
Such as Fig. 4(c)Shown, finger slides to transition point from identification point 1 successively(As shown in trajectory path 1), slide to identification again
Point 9(As shown in trajectory path 2), slide to identification point 5 again(As shown in trajectory path 3), slide to identification point 4 again(Such as trajectory path 4
It is shown), slide to identification point 3 again(As shown in trajectory path 5), slide to identification point 2 again(As shown in trajectory path 6), formed as schemed
Shown gesture path 1-6, so, the gesture password can mutually be changed with digital payment cipher 195432.In this feelings
Under condition, the series connection between arrangement spaced identification point 1 point-blank and identification point 9 is realized, i.e. finger is from knowledge
Other point 1 slides to transition point 211 and further slides to identification point 9 to realize.
Certainly, gesture payment cipher input module of the invention is when inputting gesture path, and its path is not limited to the above
Example, it can select to set according to user.
In the embodiment shown in fig. 4, the trajectory path of gesture represents that this contributes to user's identification and memory by arrow
Gesture password.For the security of enhancing gesture password input, avoid being looked on when gesture password is inputted and spy on, arrow is example
Trajectory path can only show 1 to 3 recently input, for example, only show 3 arrows.As shown in figure 4, when finger is slided
During to the 4th identification point, trajectory path 1, which is hidden, to disappear;When finger slides into the 5th identification point, trajectory path 2, which is hidden, to disappear
Lose;When finger is sliding into the 6th identification point, trajectory path 3, which is hidden, to disappear.
Fig. 5 show the modular structure schematic diagram of the gesture payment coding system according to one embodiment of the invention.In the reality
Apply in example, gesture payment coding system 20 mainly includes the He of gesture payment cipher input module 210 of embodiment as shown in Figure 2
Gesture payment cipher modular converter 230, gesture payment cipher input module 210 slides past each identification when inputting gesture
Point, the digital payment cipher represented by identification point can be converted to numeral by gesture payment cipher modular converter 230 and pay close
Code, so the digital payment cipher can be used for during payment transaction behind.Therefore, fit applications gesture payment cipher turns
Block 230 is changed the mold, the gesture path of gesture payment cipher input module input, which turns to be converted into, to be made in payment transaction application
Payment cipher.
In one embodiment, gesture payment cipher input module 210 includes gesture detecting module(Not shown in figure), it can
For slip of the detecting finger on gesture payment cipher input module to record the identification point that finger is passed through.
Gesture payment coding system 20 can also include gesture preliminary examination module 220, and it can be used for the identification for judging record
Whether the number of point is equal to predetermined number.For example, after finger is lifted, the gesture preliminary examination module 220 checks slip gesture immediately
Whether meet the requirement of payment cipher, i.e., at least connected predetermined(Such as 6)Digital identification point, more or less than 6 numbers
Word identification point returns to failure.
Further, gesture payment coding system 20 can also include encrypting module 240, ciphertext comparing module 250 and knot
Fruit output module 260;Encrypting module 240 is used to be added the decodement for being converted to payment cipher by a certain AES
Close formation ciphertext, ciphertext comparing module 250, which receives password text and sends the ciphertext to server terminal, is compared checking,
So as to which whether the payment cipher for obtaining comparison result, i.e. gesture input is accurate;As a result output module 260 is by comparison
As a result export to user, for example, prompting user's payment cipher input error etc..
Specifically, gesture payment cipher input module 210, gesture preliminary examination module 220, gesture payment cipher modular converter
230th, encrypting module 240, ciphertext comparing module 250 and result output module 260 may be provided at user terminal, such as mobile-phone payment
Terminal.
Example above primarily illustrates the gesture payment cipher input module and gesture payment coding system of the present invention.To the greatest extent
Only some of embodiments of the present invention are described for pipe, but those of ordinary skill in the art are it is to be appreciated that this hair
It is bright can be without departing from its spirit with implementing in scope in many other form.Therefore, the example and embodiment shown
It is considered as illustrative and not restrictive, is not departing from such as spirit and scope of the present invention defined in appended claims
In the case of, the present invention may cover various modifications and replacement.
Claims (15)
1. a kind of gesture payment cipher input module, it is characterised in that including:Transition point and the week for being distributed in the transition point
The multiple identification points for being used to represent payment cipher enclosed.
2. gesture payment cipher input module as claimed in claim 1, it is characterised in that the identification point is 10, respectively
The digital payment cipher of expression 0 to 9.
3. gesture payment cipher input module as claimed in claim 2, it is characterised in that 10 identification points are arranged in
Circle, the transition point is located at the centre of the circle.
4. gesture payment cipher input module as claimed in claim 3, it is characterised in that the circle is square ring.
5. gesture payment cipher input module as claimed in claim 3, it is characterised in that 10 identification points are represented by it
The size of numerical ciphers value be arranged in order.
6. gesture payment cipher input module as claimed in claim 3, it is characterised in that 10 identification point random alignments
Lopping.
7. gesture payment cipher input module as claimed in claim 1, it is characterised in that the payment cipher pays for numeral
Password, alphabetical payment cipher and/or symbol payment cipher.
8. gesture payment cipher input module as claimed in claim 1, it is characterised in that the gesture payment cipher inputs mould
During the same payment cipher that block is repeated by gesture input, the mistake is slided to from the corresponding identification point of the payment cipher by finger
Cross a little and be back to the corresponding identification point of the payment cipher to realize.
9. gesture payment cipher input module as claimed in claim 1, it is characterised in that the identification point is arranged in part
It is spaced in the part identification point that the gesture payment cipher input module is arranged in a straight line by gesture input during straight line
The first identification point and the second identification point corresponding to payment cipher when, the mistake is slided to from first identification point by finger
Cross a little and further slide to second identification point to realize.
10. gesture payment cipher input module as claimed in claim 1, it is characterised in that also including for recording finger institute
The part of the identification point slipped over.
11. a kind of gesture payment coding system, it is characterised in that including:
Gesture payment cipher input module as any one of claim 1 to 10;And
Pay close for the gesture path inputted from the gesture payment cipher input module to be converted to the gesture of payment cipher
Code modular converter.
12. gesture payment coding system as claimed in claim 11, it is characterised in that the payment cipher pays close for numeral
Code.
13. gesture payment coding system as claimed in claim 11, it is characterised in that the gesture payment cipher input module
Including gesture detecting module, it is used to detect slip of the finger on the gesture payment cipher input module to record finger institute
The identification point of process.
14. gesture payment coding system as claimed in claim 13, it is characterised in that also including gesture preliminary examination module, it is used
Whether it is equal to predetermined number in the number for the identification point for judging the record.
15. the gesture payment coding system as any one of claim 11 to 14, it is characterised in that also include:
Encrypting module, it is used to be encrypted to form ciphertext by the decodement of payment cipher;
Ciphertext comparing module, it, which is used to send the ciphertext to server terminal, is compared checking;And
As a result output module, it is used for the result for exporting comparison.
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