WO2014173313A1

WO2014173313A1 - Methods and systems for processing operation instructions of a transaction system

Info

Publication number: WO2014173313A1
Application number: PCT/CN2014/076177
Authority: WO
Inventors: Xiaoya Li; Junyu LIU; Ming Zeng; Xiaofei Liu; Pei PEI
Original assignee: Tencent Technology (Shenzhen) Company Limited
Priority date: 2013-04-26
Filing date: 2014-04-25
Publication date: 2014-10-30
Also published as: CN104123651B; CN104123651A

Abstract

The present disclosure provides a method and apparatus for processing operation instructions of a transaction system. According to the present disclosure, first a communication connection between a user terminal and the transaction system is established. Then a sensor on the user terminal is invoked to monitor whether an operation is performed on the user terminal. A sensing signal generated by the sensor corresponding to the operation is received. The received sensing signal is identified. An operation instruction corresponding to the received sensing signal is generated. The operation instruction is sent to the transaction system. With the solution of the present disclosure,the convenience and the operation efficiency of the transaction is improved, and meanwhile the consumption of the terminal resources is reduced.

Description

METHODS AND SYSTEMS FOR PROCESSING OPERATION INSTRUCTIONS OF

A TRANSACTION SYSTEM

CROSS REFERENCE TO RELATED APPLICATIONS

[0001] The application claims the benefit and priority of Chinese Patent Application No. 201310149985.X, filed on April 26, 2013, the disclosure of which is incorporated herein in its entirety by reference.

TECHNICAL FIELD

[0002] The present disclosure relates to human-machine interactions, and particularly to methods and systems for processing operation instructions of a transaction system.

BACKGROUND

[0003] With the popularity of internet, transaction systems become more and more popular. Generally, a transaction system is a data processing system that realizes the transmission of electronic transaction information and asset delivery. By using a transaction system, a user can buy and pay for products and services via the internet.

[0004] Currently, a user may carry out a transaction by performing human-machine interactions via a terminal, e.g., a computer, a tablet PC, a mobile phone, etc. During this process, if a transaction request is received, the seller will push the link of a product or a service it sells to an interface on the terminal of the buyer. When the buyer clicks on the link, the terminal will start a new interface or program to jump to a webpage associated with the link. Usually, information related to the product, e.g., a name, a price, an introduction, and even user comments to the product may be shown on the webpage. The user needs to scroll on the webpage to view the information. And when he wants to perform the transaction, he needs to input an amount that he intends to buy and may click on a "submit order" button to send an order request to the transaction system. The transaction system generates an order according to the order request sent from the user and performs subsequent necessary interactions (e.g., electronic payment interactions, shipping interactions, etc.) with the user terminal, so as to complete the transaction. [0005] However, with the traditional technical solution, in the event that the user generates the transaction request, he needs to open the new program or webpage to complete the transaction. In this process, the user not only needs to switch to the new program or webpage, but also needs to perform human-computer interactions with the new program or webpage, and thus, the operation is complicated, low efficient, and time-consuming. Meanwhile, when the new program or webpage is opened, resources of the terminal (e.g., memory, CPU, etc.) need to be consumed too. This further impairs the operation efficiency, and the problem is even severe when a transaction is carried out by a portable intelligent terminal with limited processing abilities.

SUMMARY

[0006] Additional features and advantages of the present disclosure will be set forth in the description which follows, and in part will be apparent from the description, or can be learned by practice of the herein disclosed principles.

[0007] In an aspect, the present disclosure provides a method for processing operation instructions of a transaction system. The method includes: establishing a communication connection between a user terminal and the transaction system; invoking a sensor on the user terminal to monitor whether an operation is performed on the user terminal; receiving a sensing signal generated by the sensor corresponding to the operation; identifying the received sensing signal; generating an operation instruction corresponding to the received sensing signal; and sending the operation instruction to the transaction system.

[0008] In another aspect, the present disclosure provides a system for processing operation instructions of a transaction system. The system includes: memory; one or more processors; and one or more programs stored in the memory and configured for execution by the one or more processors, the one or more programs including instructions to: establish a communication connection between a user terminal and the transaction system; invoke a sensor on the user terminal to monitor whether an operation is performed on the user terminal; receive a sensing signal generated by the sensor corresponding to the operation; identify the received sensing signal; generate an operation instruction corresponding to the received sensing signal; and send the operation instruction to the transaction system. [0009] In a further aspect, the present disclosure provides a non-transitory computer readable medium storing one or more programs configured to be executed by a computer system, the one or more programs comprising instructions to establish a communication connection between a user terminal and the transaction system; invoke a sensor on the user terminal to monitor whether an operation is performed on the user terminal; receive a sensing signal generated by the sensor corresponding to the operation; identify the received sensing signal; generate an operation instruction corresponding to the received sensing signal; and send the operation instruction to the transaction system..

[0010] According to the present disclosure, when a user generates a transaction request, he needs not to open a new program or webpage to carry out the transaction, but can send instructions via gesture actions. The method or system according to the present disclosure may automatically invoke a sensor on the terminal to sense a user's gesture action and monitor a sensing signal. Then the sensing signal is identified to obtain an operation instruction corresponding to the sensing signal. The operation instruction is sent to the transaction system and response information returned from the transaction system is received. The response information may be output to a communication session window to complete the transaction. During the process, the terminal needs not to open a new program or webpage, which reduces the consumption of the terminal resources, and the user needs not to perform complicated human-machine interactions to fill out various transaction information but can send out instruction information via gesture actions. In this way, it is convenient for the user to perform transactions, which improves the portability and operation efficiency of the transaction, the user's operations are simple, and the operation time is reduced accordingly.

[0011] The technical solution of the present disclosure is especially suitable for a portable intelligent terminal with limited processing capability and screen size. When a user uses such a portable intelligent terminal to perform a transaction, with the technical solution of the present disclosure, the convenience of the transaction and the operation efficiency may be improved, and meanwhile, the consumption of the terminal resources is dramatically reduced.

BRIEF DESCRIPTION OF THE DRAWINGS

[0012] For a better understanding of the present disclosure, reference should be made to the Detailed Description below, in conjunction with the following drawings in which like reference numerals refer to corresponding parts throughout the figures.

[0013] FIG. l shows a flowchart of a method for processing operation instructions of a transaction system according to an embodiment of the present disclosure;

[0014] FIG.2 shows a flowchart of a method for processing operation instructions of a transaction system according to another embodiment of the present disclosure;

[0015] FIG.3 shows a schematic diagram of the structure of a system for processing operation instructions of a transaction system according to an embodiment of the present disclosure;

[0016] FIG.4 shows a schematic diagram of the structure of an identification module according to an embodiment of the present disclosure;

[0017] FIG.5 shows a schematic diagram of another structure of the system for processing operation instructions of the transaction system according to an embodiment of the present disclosure;

[0018] FIG.6 shows a schematic diagram of another structure of the system for processing operation instructions of the transaction system according to the present disclosure; and

[0019] FIG.7 shows a schematic diagram of a system for processing operation instructions of a transaction system according to an embodiment of the present disclosure.

DETAILED DESCRIPTION

[0020] To make the object, technical scheme, and advantages of the present disclosure clearer and easy to understand, the present disclosure will be described in detail in combination with drawings in the following.

[0021] Fig.l shows a flowchart of a method for processing operation instructions of a transaction system according to an embodiment of the present disclosure. As shown in Fig. l, the method includes the following process. [0022] At block 101, a communication connection is established between a user terminal and the transaction system.

[0023] In the present block, as an example, the communication connection may be established by using a communication tool installed on the user terminal. The communication tool can be an instant messaging program or a social networking tool such as WeChat, Weibo, etc., or can be a client tool specific for transactions. Those skilled in the art may be aware that the communication connection may be established via the internet or other communication ways, which will not be elaborated herein.

[0024] In the event that the above communication connection between the user terminal and the transaction system is established by using the above communication tool, specifically, it means that a communication session connection, e.g., a communication session window, is established for the user to perform communication interactions with a specific transaction target account of the transaction system. The communication session window may include existing functions of a traditional communication session window. For example, for an instant messaging tool, the transaction system may specify one or more transaction target accounts. These transaction target accounts are registered accounts of the instant messaging tool and meanwhile they are seller party accounts of the network transaction system. These communication tools and the transaction system have communication interfaces to transmit interaction information.

[0025] When the user uses the communication tool, he may select one of the transaction target accounts and submit a request for establishing a communication connection with the transaction target account. When the request is received, the communication connection will be established between a user account and the specific transaction target account of the transaction system. The user account is also a valid account of the transaction system. During the process of establishing the communication connection between the user terminal and the transaction system, the user can use the user account and authentication information thereof bounden to the user terminal to log on to the transaction system. The balance in the user account of the transaction system should be sufficient to pay for subsequent payment operations.

[0026] At block 102, a sensor on the terminal is invoked to monitor whether an operation is performed on the user terminal, and a sensing signal generated by the sensor corresponding to the operation is received.

[0027] According to the present disclosure, the sensor on the user terminal may include but is not limited to a sensor that can sense the user's actions, e.g., an orientation sensor, a touch screen sensor, etc. For example, most of the current portable intelligent terminals such as intelligent mobile phones, tablet PCs, etc., have an orientation sensor and a touch screen sensor.

[0028] The orientation sensor is realized by an accelerometer embedded in the portable intelligent terminal. For example, generally the orientation sensor that is used in the portable intelligent terminal is a three-axis accelerometer in X axis, Y axis, and Z axis. A three- dimensional space consists of these three axes is enough to detect various actions of the user performed for the portable intelligent terminal. In practice, generally, an angle that consists of the three axes (or any two axes) is used to calculate an angle of an orientation change of the portable intelligent terminal and may also be used to calculate a value of gravitational acceleration of the intelligent terminal.

[0029] The touch screen sensor is used together with a touch screen to receive touch actions and/or even non-touch gesture actions from the user. When the user performs an operation such as a sliding action, a dragging action, or a non-touch flip action on the touch screen, the touch screen sensor will automatically sense the operation and convert the operation into a corresponding sensing signal that represents a trajectory of the operation.

[0030] For a portable intelligent terminal that is installed with the touch screen sensor, an invoking interface of the touch screen sensor of the terminal is usually publicly known. The invoking interface of the touch screen sensor of the terminal can be invoked to sense sensing signals. For example, an orientation sensor and/or a touch screen sensor can be used to monitor a sensing signal of the user's gesture action.

[0031] At block 103, the received sensing signal is identified and an operation instruction corresponding to the received sensing signal is generated.

[0032] According to the present embodiment, correspondence relations between respective operation instructions during a transaction and corresponding sensing signals are stored in advance. For example, shaking a mobile phone once represents recharging 50 yuan of communication fee for a mobile phone, shaking it twice represents recharging 100 yuan of communication fee for the mobile phone, shaking it three times represents recharging 150 yuan of communication fee for the mobile phone, and so on. As another example, drawing a circle on the touch screen represents inquiring account balance and drawing a vertical line on the touch screen from top to bottom represents inquiring transaction record histories. Shaking the mobile phone from left to right at an angle of about 45 degrees represents a submission confirmation instruction and represents sending the identified operation instruction to the transaction system. Drawing " V " on the touch screen represents confirming response information returned from the transaction system, and drawing " X " on the touch screen represents refusing the response information returned from the transaction system.

[0033] At block 104, the identified operation instruction is sent to the transaction system.

[0034] When the operation instruction is sent to the transaction system by using the terminal, it may be sent according to a standard format that is negotiated with the transaction system to enhance the compatibility.

[0035] The sequence of blocks 101 to 103 is not essential, and from the above description, those skilled in the art will be aware of other alternatives, which will not be elaborated herein.

[0036] Fig.2 shows a flowchart of a method for processing operation instructions of a transaction system according to another embodiment of the present disclosure. As shown in Fig.2, besides of the blocks 101 to 104 as shown in Fig.l, a block 105 is added. At block 105, response information returned from the transaction system is received and the response information is shown on the touch screen of the user terminal.

[0037] The method of the present disclosure is suitable for a transaction that can be carried out via relatively few operation instructions. For example, in the event that the user already logs on to the transaction system but is not convenient to use the interaction interface to perform multiple times of human-machine operations, the user may carry out the transaction by using only one gesture.

[0038] For example, the user may send an operation instruction of recharging 50 yuan for the mobile phone to the transaction system by only shaking the mobile phone, and when the transaction system receives the operation instruction, it will generate an order of recharging 50 yuan for the user's mobile phone according to the operation instruction. The user's mobile phone number can be automatically obtained by software on the terminal. Or in the circumstance that the user's account is bounded to the user's mobile phone number, the user's mobile phone number will be stored on the transaction system. After that, the transaction system will send the order information as response information to the terminal. After the terminal receives the response information, it will show the response information to the user.

[0039] Then if the user checks that the order information is correct, he may click on the order information to make a further confirmation and the confirmation information will be sent to the transaction system. Here it is supposed that the balance in the user account is sufficient, and when the transaction system receives the confirmation information, it can complete the subsequent process of recharging communication fee for the mobile phone. During the process, the user needs only to send the gesture action to complete a transaction according to the preconfigured correspondence relations between the operation instructions and the gesture actions.

[0040] In the above block 103, after the operation instruction corresponding to the monitored sensing signal is identified and before the identified operation instruction is sent to the transaction system, the method may further include the process of: outputting information of the identified operation instruction to the user and continuing to monitor a sensing signal; and in the event that the operation instruction corresponding to the monitored sensing signal is a submission confirmation instruction, sending the identified operation instruction to the transaction system.

[0041] Specifically, as an example, when a sensing signal of shaking the mobile phone once by the user is monitored, then it is identified that the operation instruction corresponding to the sensing signal is "recharge 50 yuan of communication fee for the mobile phone", then information of the identified operation instruction such as "recharge 50 yuan of communication fee for the mobile phone?" will be output to the user's mobile phone. If the user shakes his mobile phone again, then an identified corresponding operation instruction is "recharge 100 yuan of communication fee for the mobile phone", and information of the identified operation instruction "recharge 100 yuan of communication fee for the mobile phone?" will be output to the user's mobile phone. If it is monitored that the user shakes his mobile phone from left to right at an angle of about 45 degrees, then it is identified that the corresponding operation instruction is a submission confirmation instruction, then the identified operation instruction "recharge 100 yuan of communication fee for the mobile phone" will be sent to the transaction system. After the transaction system receives the operation instruction, it may transfer an electronic payment proof of 100 yuan (e.g., electronic currency, a point card, a coupon, etc. that have a value exchanging function) from the user account in the transaction system to an electronic account of the telephone operator so as to complete the recharging process for the mobile phone.

[0042] When the operation instruction is specifically a transaction operation instruction, the transaction system may include a flow of returning the order information for the user to confirm and may also not include the flow but complete the recharge directly.

[0043] When the transaction system returns the order information for the user to confirm, specifically, receiving the response information returned from the transaction system may include: receiving order confirmation information returned from the transaction system, and after showing the order confirmation information to the user, the method may further include: continuing to invoke the sensor of the terminal to monitor a sensing signal, and identifying the monitored sensing signal to obtain an operation instruction corresponding to the sensing signal; and if it is a confirmation operation instruction, then order confirmation information is sent to the transaction system, and if it is a cancel operation instruction, then order cancel information is sent to the transaction system. Further, before the order confirmation information is sent to the transaction system, the method may further include: receiving transaction result information returned from the transaction system and outputting the transaction result information to the user.

[0044] In the above example, when the order information returned from the transaction system is output and shown to the user, if it is monitored that the user draws " V " on the screen, then a confirmation instruction is returned to the transaction system. After the transaction system receives the confirmation instruction, it will transfer an electronic payment proof of 100 yuan from the user account in the transaction system to the electronic account of the telephone operator, so as to complete the recharge process for the mobile phone. If it is monitored that the user draws " X " on the screen, then a cancel instruction is returned to the transaction system, and the transaction system will cancel the order of this time after receiving the cancel instruction.

[0045] After the order confirmation information is sent to the transaction system, the transaction system may return the transaction result information of this time after the recharge is completed, e.g., "you have successfully recharge 100 yuan for the mobile phone", to the user terminal. Therefore, the method of the present disclosure may further include: receiving transaction result information returned from the transaction system and outputting and showing the transaction result information to the user.

[0046] In a specific application scenario, the method according to the present disclosure is very suitable for simple transactions such as recharging communication fee, recharging a network game point card, etc. In addition to the above transaction operation instructions that directly trigger the transaction operations of the order, in the present method, correspondence relations between other operation instructions and corresponding sensing signals may be stored in advance.

[0047] For example, drawing a circle on the touch screen represents inquiring the account balance, and drawing a vertical line on the touch screen from top to bottom represents inquiring transaction record histories, etc. When it is monitored that the user draws a vertical line on the touch screen from top to bottom, then the instruction of inquiring transaction record histories is sent to the transaction system. The transaction system generates corresponding transaction record information and returns the transaction record information as response information to the user terminal. The user terminal then outputs and shows the response information to the user.

[0048] In an embodiment, a transaction shortcut key may be set, and when it is detected that the transaction shortcut key is triggered, block 101 and subsequent blocks are executed. As a detailed example, when the user makes a phone call, if the telephone operator system prompts the user that "your balance has little money, please recharge in time", the user may trigger the shortcut key to establish a communication connection between the user terminal and the transaction system. That is, after it is detected that the transaction shortcut key is triggered, a communication connection between the user terminal and the transaction system will be established and subsequent process is executed. After the communication connection is established, the user needs only to shake the mobile phone to send an operation instruction of recharging 50 yuan for the mobile phone to the transaction system. And after the transaction system receives the operation instruction, it will transfer an electronic payment proof of 50 yuan from the user account in the transaction system to the electronic account of the telephone operator so as to complete the recharging process of the mobile phone. In this way, when the user makes a phone call, even if his balance does not have enough money, he needs not to hang up the current phone call to make a payment but can realize the payment of communication fee by only several operations. In this way, the operation is simple, high- efficient, and interruption to the user's phone call due to lack of the communication fee may be avoided.

[0049] In another embodiment, a specific transaction scenario may be set, and occurrence of the specific transaction scenario is monitored. When it is detected that the specific transaction scenario occurs, the transaction shortcut key is shown. After it is detected that the transaction shortcut key is triggered, block 101 and subsequent blocks are executed. For example, the specific transaction scenario may be set as a scenario where the telephone operator system prompts the user to recharge. A detailed example is that: when the user makes a phone call, if it is monitored that the telephone operator system prompts the user that "your balance has little money, please recharge in time", then a transaction shortcut key such as "recharge immediately" may be shown on the screen. And after it is detected that the transaction shortcut key is triggered, block 101 and subsequent blocks will be executed. That is, after the communication connection is established between the user terminal and the transaction system, the user needs only to shake his mobile phone to send an operation instruction of recharging 50 yuan for his mobile phone to the transaction system. After the transaction system receives the operation instruction, it will transfer an electronic payment proof of 50 yuan from the user account in the transaction system to the electronic account of the telephone operator so as to finish the recharge process for the mobile phone.

[0050] In another embodiment, a specific transaction scenario may be set according to the present disclosure and occurrence of the specific transaction scenario is monitored. When it is monitored that the specific transaction scenario occurs, block 101 and subsequent blocks are executed. For example, the specific transaction scenario can be set as a scenario where the telephone operator system prompts the user to recharge. The example specifically is: when the user makes a phone call, if it is monitored that the telephone operator system prompts the user that "your balance has little money, please recharge in time", then the block 101 and subsequent blocks are executed. That is, after a communication connection between the user terminal and the transaction system is established, the user needs only to shake his mobile phone to send an operation instruction of recharging 50 yuan for the mobile phone to the transaction system. When the transaction system receives the operation instruction, it can transfer an electronic payment proof of 50 yuan from the user account in the transaction system to the electronic account of the telephone operator, so as to complete the recharge process for the mobile phone. In the present embodiment, the operation is more convenient, and as long as the specific scenario occurs, a transaction operation will be completed via the gesture action.

[0051] Corresponding to the above methods, the present disclosure further provides operation instruction processing systems of the transaction system to execute the above methods.

[0052] Fig.3 shows a schematic diagram of a structure of the operation instruction processing system of the transaction system. Referring to Fig.3, the operation instruction processing system 200 includes: a communication establishment module 201, a monitoring module 202, an identification module 203, an instruction sending module 204, and a response module 205.

[0053] The communication establishment module 201 is configured to establish a communication connection between the user terminal 300 and the transaction system 600.

[0054] The monitor module 202 is configured to invoke a sensor 100 on the user terminal 300 to monitor a sensing signal.

[0055] The identification module 203 is configured to identify the monitored sensing signal to obtain an operation instruction corresponding to the sensing signal.

[0056] The instruction sending module 204 is configured to send the identified operation instruction to the transaction system 600. The transaction system 600 can process related transaction data according to the received information. During this process, it may interact with a payment system 500. After the process, the data processing result will be used as response information and returned to the instruction processing system 200.

[0057] The response module 205 is configured to receive the response information returned from the transaction system 600 and output and show the response information to the user.

[0058] Fig.4 shows a schematic diagram of the structure of the identification module 203 according to an embodiment of the present disclosure. The identification module 203 specifically includes a correspondence relation storage module 301, a reading module 302, and a searching module 303.

[0059] The correspondence relation storage module 301 is configured to store the correspondence relations between operation instructions and sensing signals. The reading module 302 is configured to, after the sensing signal is monitored, read a correspondence relation between an operation instruction and the sensing signal stored in advance. The searching module 303 is configured to search for an operation instruction corresponding to the monitored sensing signal from the correspondence relations.

[0060] In a further example, the identification module 203 further includes a feedback module 304.

[0061] After the searching module 303 finds the operation instruction corresponding to the monitored sensing signal, the feedback module 304 will output the information of the identified operation instruction, and notify the monitoring module 202 to continue to invoke the sensor to sense the sensing signal. After the searching module 303 finds the operation instruction corresponding to the monitored sensing signal is a submission confirmation instruction, it notifies the instruction sending module 204 to send the above identified operation instruction to the transaction system.

[0062] In a system according to an embodiment of the present disclosure, the operation instruction specifically is a transaction operation instruction.

[0063] The response module 205 is configured to receive the order confirmation information returned from the transaction system, output and show the order confirmation information to the user, and notify the monitoring module 202 to continue to invoke the sensor of the terminal to monitor the sensing signal. The identification module 203 is further configured to identify the monitored sensing signal to obtain an operation instruction corresponding to the sensing signal. If the operation instruction is a confirmation operation instruction, then the instruction sending module is notified to send order confirmation information to the transaction system, and if it is a cancel instruction, then the instruction sending module is notified to send order cancel information to the transaction system.

[0064] Fig.5 shows a schematic diagram of another structure of the system for processing operation instructions in the transaction system according to an embodiment of the present disclosure. Referring to Fig.5, the system further includes a start module 400. The start module 400 can be implemented in various ways.

[0065] In an embodiment, the start module 400 is configured to set a transaction shortcut key, and detect whether the transaction shortcut key is triggered. Add when it is detected that the transaction shortcut key is triggered, the communication establishment module 201 is started to establish a communication connection between the user terminal 300 and the transaction system 600, and the monitoring module 202 is started to invoke the sensor 100 on the user terminal 300 to sense the sensing signal. After this, if the monitoring module monitors the sensing signal, the identification module further identifies the sensing signal and the sensing signal is processed by the instruction sending module and the response module.

[0066] In a second embodiment, the start module 400 is configured to set a specific transaction scenario and monitor the occurrence of the specific transaction scenario. When the specific transaction scenario is monitored, a transaction shortcut key is shown. When it is detected that the transaction shortcut key is triggered, the communication establishment module 201 is started to establish the communication connection between the user terminal and the transaction system, and the monitoring module 202 is started to invoke the sensor on the terminal to sense the sensing signal. After that, if the monitoring module monitors the sensing signal, the sensing signal is further identified by the identification module, and is processed by the instruction sending module and the response module.

[0067] In a third embodiment, the start module 400 is configured to set a specific transaction scenario, and monitor the occurrence of the specific transaction scenario. When it is detected that the specific transaction scenario occurs, the communication establishment module 201 is started to establish the communication connection between the user terminal and the transaction system and the monitoring module 202 is started to invoke the sensor on the terminal to monitor sensing signals. If the monitoring module monitors a sensing signal, the sensing signal is identified by using the identification module, and is further processed by the instruction sending module and the response module.

[0068] In addition, the respective function modules in the respective embodiments of the present disclosure may be integrated into one processing unit, or exist physically independently, or two or more of which can be integrated into a unit. The above integrated unit can be realized by hardware or can be realized by software. The location of the module can be adjusted too.

[0069] For example, in an embodiment, the respective modules of the operation instruction processing system of the transaction system can be set on the user terminal. In an embodiment, as shown in Fig.6, the start module 400, communication establishment module 201, monitoring module 202 and the response module 205 can be set on the user terminal. The identification module 203 and the instruction sending module 204 can be set on the network side. The sensing signal monitored by the monitoring module 202 is sent to the identification module at the network side directly, and after the identification module identifies the operation instruction, it notifies the instruction sending module 204 to send the operation instruction to the transaction system at the network side.

[0070] The above embodiments may be implemented by hardware, software, firmware, or a combination thereof. For example the various methods, processes and functional modules described herein may be implemented by a processor (the term processor is to be interpreted broadly to include a CPU, processing unit/module, ASIC, logic module, or programmable gate array, etc.). The processes, methods and functional modules may all be performed by a single processor or split between several processors; reference in this disclosure or the claims to a 'processor' should thus be interpreted to mean One or more processors' . The processes, methods and functional modules are implemented as machine readable instructions executable by one or more processors, hardware logic circuitry of the one or more processors or a combination thereof. The modules, if mentioned in the aforesaid examples, may be combined into one module or further divided into a plurality of sub- modules. Further, the examples disclosed herein may be implemented in the form of a software product. The computer software product is stored in a non-transitory storage medium and comprises a plurality of instructions for making an electronic device implement the method recited in the examples of the present disclosure.

[0071] In an embodiment, the present disclosure provides a storage medium with data processing programs stored thereon. The data processing programs can be used to execute any method mentioned in above embodiments.

[0072] Fig.7 shows a schematic diagram of a system for processing operation instructions of a transaction system according to an embodiment of the present disclosure. The system includes a memory 60; one or more processors 61; and one or more programs 62 stored in the memory 60 and configured for execution by the one or more processors 61, the one or more programs including instructions to: establish a communication connection between a user terminal and the transaction system; invoke a sensor on the user terminal to monitor whether an operation is performed on the user terminal; receive a sensing signal generated by the sensor corresponding to the operation; identify the received sensing signal; generate an operation instruction corresponding to the received sensing signal; and send the operation instruction to the transaction system.

[0073] In an implementation, the one or more programs include instructions to: receive response information returned from the transaction system; and show the response information on a display screen of the user terminal.

[0074] In an implementation, the one or more programs include instructions to: read pre- stored correspondence relations between sensing signals and operation instructions; and find the operation instruction corresponding to the received sensing signal from the pre-stored correspondence relations.

[0075] In an implementation, the one or more programs include instructions to: show information of the identified operation instruction on the display screen of the user terminal; detect whether receiving a new sensing signal; identify that a new operation instruction corresponding to the new sensing signal is a submission confirmation instruction, if the new sensing signal is detected. [0076] In an implementation, the one or more programs include instructions to: detect that a transaction shortcut key is triggered.

[0077] In an implementation, the one or more programs include instructions to: monitor that a specific transaction scenario occurs; show a transaction shortcut key on a display screen of the user terminal; and detect that the transaction shortcut key is triggered.

[0078] In an implementation, the one or more programs include instructions to: monitor that a specific transaction scenario occurs.

[0079] In an implementation, the operation instruction is a transaction operation instruction; and the one or more programs include instructions to: receive order confirmation information returned from the transaction system; and invoke the sensor on the user terminal to monitor whether a new operation is performed on the user terminal; receive a new sensing signal generated by the sensor corresponding to the new operation; identify the monitored new sensing signal to obtain a new operation instruction corresponding to the new sensing signal; and determine that the new operation instruction is a confirmation operation instruction, and send order confirmation information to the transaction system; or determine that the new operation instruction is a cancel instruction, and send order cancel information to the transaction system.

[0080] The specific examples described above have been shown, and it should be understood that many variations and modifications may be made to these examples of the present disclosure without departing substantially from the spirit and principle of the present disclosure. All such modifications and variations are intended to be included within the scope of the present disclosure.

Claims

WHAT IS CLAIMED IS:

1. A method for processing operation instructions of a transaction system, comprising: establishing a communication connection between a user terminal and the transaction system;

invoking a sensor on the user terminal to monitor whether an operation is performed on the user terminal;

receiving a sensing signal generated by the sensor corresponding to the operation; identifying the received sensing signal;

generating an operation instruction corresponding to the received sensing signal; and sending the operation instruction to the transaction system.

2. The method according to claim 1, comprising:

receiving response information returned from the transaction system; and

showing the response information on a display screen of the user terminal.

3. The method according to claim 1 or 2, wherein generating the operation instruction corresponding to the received sensing signal comprises:

reading pre-stored correspondence relations between sensing signals and operation instructions; and

finding the operation instruction corresponding to the received sensing signal from the pre-stored correspondence relations.

4. The method according to claim 1, wherein after generating the operation instruction corresponding to the received sensing signal and before sending the operation instruction to the transaction system, the method comprises:

showing information of the operation instruction on a display screen of the user terminal;

detecting whether receiving a new sensing signal;

identifying that a new operation instruction corresponding to the new sensing signal is a submission confirmation instruction, if the new sensing signal is detected.

5. The method according to claim 1 or 2, wherein before establishing the communication connection between the user terminal and the transaction system, the method comprises:

detecting that a transaction shortcut key is triggered.

6. The method according to claim 1 or 2, wherein before establishing the communication connection between the user terminal and the transaction system, the method further comprises:

monitoring that a specific transaction scenario occurs;

showing a transaction shortcut key on a display screen of the user terminal; and detecting that the transaction shortcut key is triggered.

7. The method according to claim 1 or 2, wherein before establishing the communication connection between the user terminal and the transaction system, the method comprises:

monitoring that a specific transaction scenario occurs.

8. The method according to claim 2, wherein

the operation instruction is a transaction operation instruction;

receiving the response information returned from the transaction system comprises: receiving order confirmation information returned from the transaction system; and

after showing the order confirmation information on the display screen of the user terminal, the method comprises:

invoking the sensor on the user terminal to monitor whether a new operation is performed on the user terminal;

receiving a new sensing signal generated by the sensor corresponding to the new operation;

identifying the monitored new sensing signal to obtain a new operation instruction corresponding to the new sensing signal; and

determining that the new operation instruction is a confirmation operation instruction, and sending order confirmation information to the transaction system; or determining that the new operation instruction is a cancel instruction, and sending order cancel information to the transaction system.

9. A system for processing an operation instruction of a transaction system, comprising:

memory;

one or more processors; and

one or more programs stored in the memory and configured for execution by the one or more processors, the one or more programs comprising instructions to: establish a communication connection between a user terminal and the transaction system;

invoke a sensor on the user terminal to monitor whether an operation is performed on the user terminal;

receive a sensing signal generated by the sensor corresponding to the operation;

identify the received sensing signal;

generate an operation instruction corresponding to the received sensing signal; and send the operation instruction to the transaction system.

10. The system according to claim 9, wherein the one or more programs comprise instructions to:

receive response information returned from the transaction system; and

show the response information on a display screen of the user terminal.

11. The system according to claim 9 or 10, wherein the one or more programs comprise instructions to:

read pre-stored correspondence relations between sensing signals and operation instructions; and

find the operation instruction corresponding to the received sensing signal from the pre-stored correspondence relations.

12. The system according to claim 9, wherein the one or more programs comprise instructions to:

show information of the operation instruction on a display screen of the user terminal; detect whether receiving a new sensing signal;

identify that a new operation instruction corresponding to the new sensing signal is a submission confirmation instruction, if the new sensing signal is detected

13. The system according to claim 9 or 10, wherein the one or more programs comprise instructions to:

detect that a transaction shortcut key is triggered.

14. The system according to claim 9 or 10, wherein the one or more programs comprise instructions to:

monitor that a specific transaction scenario occurs;

show a transaction shortcut key on a display screen of the user terminal; and detect that the transaction shortcut key is triggered.

15. The system according to claim 9 or 10, wherein the one or more programs comprise instructions to:

monitor that a specific transaction scenario occurs.

16. The system according to claim 10, wherein

the operation instruction is a transaction operation instruction;

and the one or more programs comprise instructions to:

receive order confirmation information returned from the transaction system; and invoke the sensor on the user terminal to monitor whether a new operation is performed on the user terminal;

receive a new sensing signal generated by the sensor corresponding to the new operation;

identify the monitored new sensing signal to obtain a new operation instruction corresponding to the new sensing signal; and

determine that the new operation instruction is a confirmation operation instruction, and send order confirmation information to the transaction system; or determine that the new operation instruction is a cancel instruction, and send order cancel information to the transaction system.

17. A non-transitory computer readable medium storing one or more programs configured to be executed by a computer system, the one or more programs comprising instructions to execute the steps in any of claims 1 to 8.