Method and device for facilitating wireless electronic commercial operations

FIELD: mobile electronic commerce.

SUBSTANCE: method includes receipt by operations execution system of request for operation from operation requester, and identification of operation requester. After identification of requester of operation, code of operation is transferred from operations executing system to wireless communication device of requester. After receiving operation code, operation code is optically scanned from video terminal of wireless communication device of requester by the system for executing operations.

EFFECT: improved comfort of commercial operations performed over wireless electronic commerce network while providing for safety of these.

5 cl, 10 dwg

 

Reference to related applications

This application takes priority under provisional patent application U.S. No. 60/217, 997 dated July 13, 2000, for the invention of "MIXED INTERACTION/BARCODE MOBILE PHONES, ETC.", in the name of the same applicant.

Review of the known technical solutions

In General, the invention relates to a mobile e-Commerce and, in particular, to methods and devices for carrying out wireless electronic commercial transactions.

It is expected that mobile e-Commerce will grow rapidly. Affects only the scale of opportunities. It is expected that by 2003 the number of Internet connected mobile devices will exceed the number of personal computers. According to forecasts, by the year 2004 the main part of shopping online e-Commerce will be using wireless communications devices.

With the integration of location information and wireless access to Internet users of wireless communications devices will be able to receive offers of goods based on their location and interests. This will open up a whole new way of selecting target customers for advertising. Main areas of interest in wireless e-Commerce is an Association of targeted advertising with wireless devices. However, it should be noted that what is s fully take advantage of wireless e-Commerce, users will be required to act on such ads in real-time. This will require that the operations were carried out with the use of wireless communication devices in accordance with the receipt of advertising on product or service.

On the way to wireless electronic commercial transactions have become commonplace, however, it is necessary to overcome a number of obstacles. One of these barriers to the wide spread of wireless operations is safety. That consumers were willing to use wireless operations, there must be a system that prevents unauthorized purchases on your wireless account. These security measures are even more important in the case of wireless communication devices, since it is possible situations such as the loss or theft of the wireless communication devices. Since wireless communication devices is significantly less secure than with a stationary communication devices, in their regard, it is necessary to take measures to ensure greater security. However, it should be noted that the capacity of well-known security solutions e-Commerce to provide a technically and economically effective solutions for the safe implementation of wireless network operations, e-Commerce and limited.

Another obstacle that must be overcome in order to make wireless transactions via e-Commerce usual thing, is binding electronic commercial transactions for goods and services "the real world". For example, if an eligible user of the wireless communication devices buys a movie ticket for a specific session in a particular cinema, using its wireless unit, you must have system notice this cinema about buying this ticket licensed user. In addition, you must have system for resolution to the competent user of the wireless device at the entrance to the cinema for this session.

Known solutions for the binding electronic commercial transactions for goods of the real world are inconvenient and time-consuming. In the operation of wireless e-Commerce loses most of its facilities. For example, one of the known solutions for the binding of e-business to the corresponding product of the real world need to print the confirmation, for example, a receipt, a pass or ticket, printed on the printer. This solution requires that the printed confirmation was created in a real place. These printed confirmation is often not what ut does not standardized bar codes, which are processed at the location of the seller. Typically printed confirmation must be created in a different place than where the operation of wireless e-Commerce.

Based on the above, I need a way to perform operations in a wireless network, e-Commerce safely and conveniently.

Summary of the invention

Variant implementation of the method for performing a wireless transaction includes the transfer of the wireless communication device of the first operation code and the optical scanning of the first operation code from the video display of the wireless communication devices.

A brief description of graphic materials

Figure 1 shows a block diagram illustrating a variant of the method of performing wireless transactions.

Figure 2 is a block diagram illustrating a variant of the method of authentication voice authentication code of the customer's operations.

On figa shows a block diagram illustrating a variant of the method of performing wireless transactions, in which the code verification operation is performed by the system control operations.

On FIGU shows a block diagram illustrating a variant of the method of performing wireless transactions, whereby the verification code, the operations performed by system operations.

Figure 4 is a block diagram illustrating an implementation option device for performing wireless transactions using a wireless communication device telephone type.

Figure 5 shows a schematic view of a variant of implementation of the wireless communication device telephone type.

6 is a block diagram illustrating an implementation option of action for conducting wireless transactions using the system shown in figure 4.

7 shows a block diagram illustrating an implementation option device for performing wireless transactions using wireless communication devices non-phone type.

On Fig shows a schematic view of a variant of implementation of the wireless communication devices non-phone type.

Fig.9 is a block diagram illustrating an implementation option for implementing wireless operation using the device shown in Fig.7.

Figure 10 is a block diagram illustrating another variant of realization of actions for performing wireless transactions using the device shown in Fig.7.

Detailed description

A variant of the method of performing wireless operation is shown in figure 1. Action block 100 of this method is the implementation of C the turnout for the operation identified by the customer. Action block 200 of this method - execution of transactions using wireless communication devices.

Under wireless operation means an operation that is ordered and performed using wireless communication devices. Under the wireless communications device to perform the operation refers to a wireless communication device that is used to supply really ordered goods or services. Examples of suitable wireless communication devices that can connect to a computer network system, for example, to the Internet, and work through it, are working through the Internet, wireless telephones, wireless personal digital assistants ("electronic assistant") (wPDA) and compact wireless portable computers. In General, wireless communication devices included in this description are wireless communication devices that may have access to a public computer network, a private computer network or the other.

As described in more detail below, a device for implementing the proposed methods and actions may contain a functional system such as, for example, the management system operations and system operations. To pass information to the management system operations and system done the of operations and information from these systems customer operations uses a wireless communication device.

Two or more functional systems devices, such as control system operations and system operations can be remote from each other. However, in some cases, use the location of these functional systems in one physical location may be more appropriate. It may be more appropriate for a single integrated system of hardware, the component parts of which are control system operations and system operations.

The fact that wireless communication devices are wearable, necessitates the adoption of security measures that ensure that the customer operation really is an eligible user of the wireless communication devices. The purpose of these security measures is to ensure that an unauthorized user of the wireless communication devices will not be able to perform any operation using this wireless communication device. On this basis, it is necessary that the method of conducting wireless transactions included the verification that the customer operation really is an eligible user of the wireless communication devices.

A variant of the method of action on the application for operation from authentify the fragmented customer (block 100 in figure 1) is shown in figure 2. The block 102 is receiving in the control system operations applications for operation with a wired or wireless communications devices of the customer's operations. At block 104 can be used to identify the customer's operations. At block 106 in this wireless communication device is transmitted to the first bar code operations. Depending on the configuration of the system architecture used to perform the method 100, the first bar code operations may be transferred to or from the system control operations, or from systems operations.

The first bar code operation is the first example of an optically scanned the operation code used to perform the application operation. In the following steps disclosed in this description, the first bar code operation is displayed on the video display of the wireless communication device for optical scanning system component operations in order to allow full or partial execution of the application on the operation.

An example of an acceptable method for performing the steps of identification of the customer operation unit 104 is a voice authentication. The method for performing the steps of identifying the customer's operation includes receiving (at block a) voice authentication code of the customer's operations. It is assumed that the voice authentication code can be obtained from p is Obvodnogo phone or wireless communication device. At block 104b action comparison of voice authentication code of the customer's operations. At block s action for defining the correspondence between speech authentication code of the customer operations and authentic sample voices authorized user of the wireless communications device.

An example of establishing the authenticity of the speaker's voice can serve as a case where the user of the wireless phone calls on a secure server and calls your phone number. Voice phone number is an example of a voice authentication code of the customer's operations. Voice phone number is then compared with authentic sample voices authorized user of the wireless communication devices. If voice authentication code of the customer operations coincides with authentic sample voices, customer operations are allowed to continue operations.

A variant of the method of operation using a wireless communication device (block 200 figure 1) is shown in figa. Method for manufacturing implementation, shown in figa, is best suited to implement a system in which verification of codes of operations performed in the system control operations. At block 201, the wireless communication device receives the first bar code operations. At block 202, the first Strakhovaya operations scan with wireless communication devices. At block 204, the first bar code operations will verify. Verification of the first bar code operation includes decoding askanianova first bar code operation on the block a, transmitting the decoded first bar code operations management system operations on the block 204b and the correlation of the decoded first barcode operation with the first event of the operation on the block s. At block 206 is the first event of the operation.

At block 208, the wireless communication device receives the second bar code operations. At block 210, the second bar code scan operation with wireless communication devices. At block 212, the second bar code operations will verify. Verification of the second bar code operation includes decoding askanianova second bar code operation on the block a, transfer the decoded second bar code operations management system operations on the block 212b and the correlation of the decoded second bar code operation with the second event of the operation in block s. In block 214 is the second event of the operation.

The first and second execution events can be physical or informational. An example of a physical event can serve as the opening of the turnstile in the cinema. The example details racionero event is the transfer of appropriate orders in the hotel.

Another variant of the method of operation using a wireless communication device (block 200 figure 1) is shown in figv. The method shown in figv, is best suited to implement a system in which verification codes of the operations carried out in the system operations. At block 201' wireless communication device receives the first bar code operations. At block 202' first bar code scan operation with wireless communication devices. At block 204' of the first bar code operations will verify. Verification of the first bar code operation includes decoding askanianova first bar code operation on the block a', mapping the decoded first barcode operation with the first event of the operation on the block 204b' and transmitting the first verification perform system management operations on the block s. Verification of execution can be used by system management operations to coordinate, for example, to delete the ordered operation from the list of available operations. At block 206 is the first event of the operation.

At block 208' wireless communication device receives the second bar code operations. At block 210' of the second bar code scan operation with wireless communication devices. At block 212' of the second bar is howling operation code will verify. Verification of the second bar code operation includes decoding askanianova second barcode operations in block a', mapping the decoded second bar code operation with a second event of performing the operation on the block 212b' and the second transmission verification perform system management operations on the block 212c'. At block 214' is the second event of the operation.

Version of the surgical device 300 for implementing the methods shown in figure 1-3B, using the wireless communication device telephone type shown in figure 4. The operating device 300 consists of system management operations 302 associated with system operations 304 and the client system 305. It is also expected that in some cases it may be appropriate to exclude the client computer system from the operational device 300 or to separate from it. Management system operations 302 associated with system operations 304 through a computer network system 306. The wireless communication device 308 associated with the system management operations 302 and system operations 304 through the telecommunication network system 310. For communication with system control operations 302 and system operations 304 customer operations 312 uses a wireless device SV is zi 308.

An example of a computer network system 306 is a computer network system with the control Protocol data transfer/Internet Protocol (TCP/IP). A suitable computer network system with TCP/IP protocols is any global computer network such as the Internet. Telecommunication network system 310 consists of wired and wireless telecommunication systems. Telecommunication network system 310 allows the exchange of voice information, and information in the form of a data management system operations 302 and system operations 304. Examples of telecommunication network system 310 can serve as a telecommunication network phone service Sprint (Sprint), companies American telephone & Telegraph (AT&T) and Southwestern bell" (Southwestern Bell Corp.).

Management system operations 302 has a Central processing unit (CPU) a, the storage device 302b, the network interface s module voice services 302d and software to read the bar code e. Network server or workstation (AWS) has a CPU a. An example of a suitable commercially available network server may be a server series Dell PowerEdge™.

An example of a suitable commercially available workstation can serve as a workstation series Dell Precision™.

The storage device 302b, for example, on the risk storage device, associated with the CPU a for storing information in a nonvolatile memory (permanent memory). An example of a device information storage 302b may serve as a storage device series Dell PowerVault™. Examples of information obtained from the device information storage 302b, serve as execution information, bar code information and authentic samples of voices.

System network interface is connected CPU a for the exchange of information between the system control operations 302, computer network system 306 and the wireless communication device 308. Among the acceptable systems network interface may be noted the router, such as, for example, the series router, Cisco 7200 associated with the device data maintenance/device service channel (hereinafter referred to as DSU/CSU), for example, device series ADC Kentrox D-Serv™.

Module voice services 302d allows transfer of audio signals between the wireless communication device 308 and control system operations 302. Module voice services 302d has components (software and hardware) to identify the voices.

The identification of the voice is one of the preferred ways of identifying the customer's operations. Wireless communication devices are not well suited for text entry. On the other hand, the h wireless communication devices, for example, a wireless phone, it is possible to efficiently transmit the voice authentication codes. Thus, the identification of the voice facilitates the provision of information for identification.

Technology identification voices can be obtained from a number of sources. One example of an acceptable technology for the identification of the voices serves as program verification Nuance Verifier 2.0, offered by the company "Nuance Kommunikeyshnz" (Nuance Communications). Nuance Verifier well integrated with software speech recognition Nuance 7.0 to create an exceptional level of comfort and safety for the user. Users are detected and identified simultaneously, thereby reducing the total time of the call and to eliminate the need for users to remember a personal identification number and passwords.

Good integration of technologies for identifying speech and voice recognition allows the program verification Nuance Verifier 2.0 to use a unique distributed architecture that is associated with the platform Nuance. This architecture supports simultaneous balance loads on voice recognition, understanding natural speech, the identification of the voice and resource of the conversion of text into speech. It ensures optimum use of each CPU server in the network, thereby reducing the amount required is partnah means and, accordingly, the value of the given speech recognition system.

Another example of software for voice identification is software for voice recognition on the sample SpeakEZ voice™offered by the company "T-Netix Incorporated (T-Netix Incorporated). Company Smart they are actively technologies Inc. (Smart Tone Technologies Incorporated) offers proprietary software to positively identify voice over wired and cellular phones, and Internet applications. Both these software are additional examples of the software to identify the voices that can installed in the module voice services 302d.

The functionality of the software for voice recognition on the sample SpeakEZ voice™ introduced in a number of commercially available kits for software development and systems interactive voice response (IVR - Interactive Voice Response). These types of toolboxes for the development and IVR system ideal for modulating control operations 302 functionality to identify voices. Examples of commercially available set of tools for software development and IVR systems, including software for voice recognition n is the sample SpeakEZ voice™ include the following. The company Biometrics" (BioNetrix) introduced software for voice recognition on the sample SpeakEZ voice™ in your kit BioNetrix Authentication Suite. The company "Envoy Incorporated" (Envoy Incorporated) introduced software for voice recognition on the sample SpeakEZ voice™ in line with its own set of tools to develop programs for computer telephony. The company "IBM" (IBM) introduced software for voice recognition on the sample SpeakEZ voice™ in their systems DirectTalk/6000 and DirectTalk/2 IVR. The company "Periphonics" (Periphonix Corporation) introduced software for voice recognition on the sample SpeakEZ voice™ in his collection processing systems, voice data systems interactive voice response.

Software for reading a bar code a allows you to encode and decode bar codes. Software for reading a bar code e available for CPU a with-readable computer environment, for example, from a CD-ROM, disk storage or network connection. Examples of software for reading a bar code e is available on the market software to read the bar code companies "Omniplanar Incorporated (Omniplanar Incorporated), "Pernet Incorporated" (Pernet Incorporated) and "Ar-VI-Bi systems group" (RVB Systems Group).

System operations 304 includes a Central processing unit (CPU) a, the storage device 304b, the network interface s module voice services 304d and software to read the bar code e. Network server or workstation (AWS) has a CPU a. An example of a suitable commercially available network server may be a server series Dell PowerEdge™. An example of a suitable commercially available workstation can serve as a workstation series Dell Precision™.

The storage device 304b, for example, disk storage device, is connected with the CPU a for storing information in a nonvolatile memory (permanent memory). An example of a device information storage 304b may serve as a storage device series Dell PowerVault™. Examples of information to be extracted from the device information storage 304b, serving information response on the implementation, product information and bar code information.

System network interface is connected CPU a for the exchange of information between the system control operations 304, computer network system 306 and the wireless communication device 308. Among the acceptable systems network interface s can be noted router, such as, for example, the series router, Cisco 7200 associated with the device data maintenance/device is the your service channel (hereinafter referred to as DSU/CSU), for example, device series ADC Kentrox D-Serv™. Depending on the volume of applications for operations performed through the system operations 304, two other examples of network interface s serve as a network interface card and a modem.

The bar code reader 304d allows optical scan and decode opcodes, for example, bar codes. The bar code reader 304d is connected with the CPU a to transfer askanianova view of a bar code in the CPU a. Several commercially available devices for reading bar codes offered by the company "Metrologic Incorporated" (Metrologic Incorporated). The company "Metrologic offers embedded scanner model No. S7001 and scanner shelves for model No. MS860.

Software for reading a bar code a allows you to encode and decode bar codes. Software for reading a bar code e available for CPU a with-readable computer environment, for example, from a CD-ROM, disk storage or network connection. Examples of software for reading a bar code e is available on the market software to read the bar code companies "Omniplanar Incorporated" (Omniplanar Incorporated), "Pernet Incorporated" and "Ar-VI-Bi System is EMA group" (RVB Systems Group).

The client computer system 305 is system of the subject of commercial activity that provides goods or services specified in the application for the operation. To perform this operation, the client computer system 305 communicates with system control operations 302 and system operations 304. The client computer system 305 includes CPU a, the storage device 305b and the network interface s. CPU a associated with the storage device 305b to store information, for example, information about goods and services in the non-volatile memory (permanent memory). System network interface is connected between the CPU a and computer network system 306 to provide data exchange between them.

The wireless communication device 308 has a device controller a, audio, 308b, keyboard s, the video display 308d and the transceiver e. The controller device a provides management and integrating the work of audio 308b, keyboard s, video display 308d and transceiver e. Audio L, such as a microphone and loudspeaker, allow the customer operation 312 to convey and listen to speech information. Keyboard s allows the customer operation 312 to transmit information entered from the keyboard. The video display 308d lets C what cascinu operation 312 to view visual information received by the wireless communication device 308 and sent with him.

The transceiver e enables the exchange of voice information and data in the form of data between the wireless communication device 308 and telecommunication network system 310. Thus, information is transmitted from the system management operations 302 and system operations 304 and back. In the embodiment, system architecture, shown in figure 4, from the system management operations 302 and transmitted back voice information and information in the form of data, and system operations and back is only transmitted information in the form data.

As shown in figure 5, the wireless communication device 308 has a device scroll e. The user interface 308f is displayed on the video display 308d of the wireless communication device 308. With device scroll e from the list of names opcodes 308h displayed on the video display 308d, select the desired name of the opcode 308g. In response to selection of the right name of the opcode 308g on the video display 308d is displayed optically scanned opcode 308i.

An example of the wireless communication device 308 is a wireless telephone that is managed by the wireless application Protocol (WAP wireless application protocol). In addition to wireless phones ustroystv, managed WAP, for the proposed methods and devices can use wireless communication devices, working with other protocols, wireless networks, for example, imode, sms and HDMI. Cordless phones, which may have access to computer networks such as the Internet, produced by several manufacturers of wireless phones.

The operation device 300, shown in figure 4, enables wireless operation using wireless communications devices, for example, a wireless telephone that operates over the Internet. However, it should be noted that by replacing the telecommunication network system wireless local area network or by adding the network to the operating device 300 is a wireless local area network operating system, the device 300 can be used for performing wireless transactions using non-phone devices operating via the Internet, for example, a wireless personal digital assistant ("electronic assistant"). When applying to transactions with such non-phone wireless communications device of the customer operations can be easily identified by known methods using passwords than the identification of the voices.

The operation device 300 (figure 4) allows about the Yong data directly between the system operations 304 and the wireless communication device 308. For this purpose, the system operations 304 and the wireless communication device 308 have embedded in them a low-power short-range digital radio 314. Each digital radio 314 has a transceiver that is designed for the exchange of voice information and data in the form of data between system operations 304 and the wireless communication device 308 without accessing the computer network system 306 or telecommunications network 310. The speed of information transmission of data between system operations 304 and the wireless communication device 308 increases greatly if we eliminate the need to transmit information through a computer network system 306 and telecommunication network system 310.

One example of digital radios 314 is Bluetooth™radio. The Bluetooth radio is based on specifications developed by the group "Blutut Special Interest" (Bluetooth Special Interest). These specifications establish standards on a tiny microchip that contains radiopropagation. A Bluetooth radio built in various digital devices such as cell phones, personal digital assistants, laptop computers, etc.

Bluetooth radio allows you to transfer and receive information almost instantly. This ensures quick and safe is the main voice and information in the form of data, even if the devices are not within line of sight. These transceivers operate in a globally available frequency band that provides compatibility worldwide. An example of working on Bluetooth wireless phone is a wireless phone Ericsson R520. Phone Ericsson R520 is a phone that is running in triple mode, with the functionality of GPRS (GPRS - General packet Radio Service - services packet radio data), Bluetooth radio and Protocol for the wireless application (WAP).

A key aspect of the proposed device and method is the ability and functionality associated optically scanned codes of operations of the video display of the wireless communication devices. Optical scanning operation codes allows you to conveniently and safely deliver goods and services real-world wireless operations. For the implementation of wireless operations customer operations, you just need to view the video display of the wireless communication device over a reader, bar code systems operations.

Many wireless communication devices, such as cordless phones and wireless personal digital assistants, have a relatively small display. Because of this optically scanned code is transmitted in wireless communication devices, should the relatively compact. Examples of bar code suitable for transmission in a device having a display capable of displaying bitmap images are one-dimensional and truncated two-dimensional bar codes. It is assumed that over time, many commercially available wireless communication devices will be able to display larger codes, for example, two-dimensional bar codes. One of the advantages of the two-dimensional bar code is the ability to accommodate a bar code a few thousand bytes of information.

An example of the configuration of a bar code, well suited for small terminals wireless phones, bar codes are configured in accordance with specification code 128 (bar codes Code 128). Bar codes Code 128 is an alphanumeric symbols very high density. In order to store the encoded data symbol can be any desired length. It is designed to encode all 128 characters of ASCII (American standard code for information interchange) and will take data from 6 or more characters any one-dimensional symbols. Each character encoded data symbol Code 128, consists of 11 black or white blocks. Stop sign consists of 13 blocks. Of these 11 blocks are formed three strokes and three spaces. The width of the dashes and gaps can range from 1 is about 4 blocks.

Currently, some commercially available wireless communication devices are not suitable for the display of raster images. The solution to the problem of optical transmission of the scanned code in wireless communication devices of these types to pass in these devices the hash code. One example of a hash code is a chain of slashes (/), representing a binary 1, and backslashes (),representing a binary 0. For decoding these code types will need the appropriate software.

As shown in figure 4, the system control operations 302, system operations, system 304, the client computer system 305 and the wireless communication device 308 are connected to exchange information. In this embodiment, the barcode verification operations and transfer barcode operations executed by the system management operations 302. In addition, the system management operations 302 performs the exchange of information to determine the desired operation.

As shown in Fig.6, the system management operations 302 performs an action And receives a request for an operation from the wireless communication device 308. After receiving the request for the operation is performed action: transfer from system management operations 302 to the wireless communication device 308 request voice authentication code of the customer's operation is I. Request voice authentication code customer transaction is intended to initiate steps: receiving a system management operations 302 voice authentication code of the customer operations from the wireless communication device 308. Action D - send messages about authentication of the customer from the system management operations 302 to the wireless communication device 308 causes the effect of E - transfer of the first bar code operation on a wireless communication device 308. The message authentication of the customer proves that the order of operation is adopted, and that the first bar code operations transferred. To process and fulfill your order for the operation system operations 304 and control system operations 302 can communicate with the client computer system 305.

Action F - scan the first barcode operation is performed after step E. In response to scanning the first barcode operations action G - system to obtain control operations 302 decoded representation of the first barcode, operations systems operations 304. After receiving the decoded representation of the first bar code operations and in response to verification of the first bar code operation action H - transfer of the second bar code operations and system management operations 302 to the wireless communication device 308. After the H action I - scan of the second bar code operations. In response to the second scan barcode operations action J - receive system management operations 302 decoded representation of the second bar code, operations systems operations 304. After receiving the decoded representation of the second bar code operations and in response to verification of the second bar code operation action To send the message about the operation of the control system operations 302 to the wireless communication device 308. The second event execution usually occurs in response to verification of the first bar code operations. Send a message about the operation may be part of the second event execution.

After scanning the first and second barcode operations system operations 304, control system operations 302 or both systems perform internal actions. Management system operations 302, system operations 304 or both systems can use the verification run to start the subsequent internal actions, such as removal suggestions specific operations available for customers operations.

The first and second bar codes operation allows the client to perform operations on receipt of the goods and services of the real world, requested in the application for the operation. The operation of the rent and get a rental car using a cell phone are examples of the implementation of the proposed methods of system 4 and the procedure described with reference to Fig.7.

Example 1. Taking a car

Customer operations, which will fly to another city uses its connected to the Internet wireless phone to rent the vehicle at the time of his trip. With this purpose on your wireless phone it communicates with system control operations. He then interacts with the user interface of the customer's operation of its wireless telephone to exchange information about taking a car with information from the system management operations on taking a car. Information about taking a car contains basic information about taking a car, for example, timing, type of vehicle, etc. For a request for an operation control system operations interacts with the institutional system of communication. For example, the system management operations may contact the institutional system of communication in order to establish whether the selected type of car to rent in desirable days. After ordering, the customer identification is associated with methods of identification to vote, for example, such as those described above.

After identification of the customer's wireless phone is the first bar code operations. Upon arrival at the airport where he's going, he enters into the user interface of the customer operations to retrieve the first bar code operations. Then it skips a wireless telephone through one of the many devices, bar-code reading system operations that are installed around the airport. The first bar code operations optically scanned with a video display his wireless phone. Scanning the first barcode operations through system operations confirmed that arrived at the airport and hoped that the car was already waiting for him. After scanning the first barcode operations in its wireless telephone is served the second bar code of the operation.

Then he goes to the Parking of cars. Already parked cars it is included in the user interface of the customer operation to remove the second bar code operations. After removing the second bar code operation it optically scans the second bar code operations of the video display your wireless phone, using the reader, bar code installed on a hundred is the NCA rentals. Scanning the second stroke of the opcode he confirmed, using a system of operations that arrived to the Parking of cars and ready to pick up the car. After scanning the second barcode surgery on his wireless phone may be sent a message about the operation. In this case, the message operation contains information, for example, about how to get to his hotel, city information, etc.

This example shows the convenience and saving time rent a car while traveling using the proposed methods and devices. These advantages are especially important for traveling businessmen, plans often change the messages that arrive at the last minute. The benefits associated with these methods and devices that allow any travelers meet the tight schedule of the trip.

Variant implementation of operating an apparatus for implementing the methods of figure 1-3 using non-phone wireless communications device shown in Fig.7. The operating device 400 consists of system management operations 402 associated with system operations 404 and the client system 405. It is also expected that in some cases it may be appropriate to exclude the client computer is characteristic of the system from the operational device 400 or separate from it. Management system operations 402 associated with system operations 404 through a computer network system 406.

The wireless communication device 408, for example, a wireless personal digital assistant ("electronic assistant"), associated with system control operations 402 and system operations 404 through a wireless network data transfer system 410 and computer network system 406. For communication with system control operations 402 and system operations 404, the customer operation 412 uses a wireless communication device 408.

Wireless network data transfer system 410 is a network system for wireless non-phone wireless communication devices. Wireless network data transfer system 410 may be a wireless local area network, wireless network, depending on the specific device, or both networks. Examples of non-phone wireless communication devices are laptops with wireless modems, and wireless personal digital assistants ("electronic assistant").

An example of a wireless local area network system 410 serves as a wireless local area network Cisco® Aironet™. System Aironet wireless LAN includes a family of access points Aironet 340. Access point dei is there as a port for the integration of wireless functionality in wired infrastructure. System Aironet wireless LAN also includes the collection of client adapters series Aironet 340. One example of a client adapter serves as a wireless modem data Aironet, which is inserted into the PCMCIA card slot (PCMCIA standard is an International Association of manufacturers of memory cards for personal computers) portable computer. Wireless modem data allows the portable computer to communicate with a networked computer system, such as the Internet, through series access points Aironet 340.

An example of a wireless network, depending on the specific device is PalmNet™. PalmNet provides a wireless personal digital assistant, offered by the company "palm Computing Corporation (Palm Computing Corporation). Through PalmNet users of personal digital assistants company "palm Computing Corporation can transmit information via the global computer network such as the Internet.

Management system operations 402 has a Central processing unit (CPU) a, the storage device 402b, the network interface s and software to read the bar code 402d. Network server or workstation (AWS), for example, described above with reference to figure 4, has a CPU a. The storage device 402b, for example, opican the e above with reference to figure 4, associated with the CPU a for storing information in a nonvolatile memory (permanent memory). Examples of information that can be extracted from the device information storage 402b, serve as execution information, bar code information and passwords of customers operations.

System network interface s, for example, described above with reference to figure 4, connected CPU a for the exchange of information between the system control operations 402, computer network system 406 and the wireless communication device 408. Software for reading a bar code 402d described above with reference to figure 4, allows you to encode and decode bar codes. Software for reading a bar code 402d is available for the CPU a with-readable computer environment, for example, from a CD-ROM, disk storage or network connection.

System operations 404 includes a Central processing unit (CPU) a, the storage device 404b, the network interface s, the reader speech code 404d and software to read the bar code e. System operations 404 has a Central processing unit (CPU) a. Network server or workstation (AWS), for example, described above with reference to figure 4, have the CPU a. The device is in the storage of information 404b, for example, as described above with reference to figure 4, is connected with the CPU a for storing information in a nonvolatile memory (permanent memory). Examples of information to be extracted from the device information storage 404b, serving information response progress code operations, product information and bar code information.

System network interface s, for example, described above with reference to figure 4, connected CPU a for the exchange of information between the system control operations 404, computer network system 406 and the wireless communication device 408. The bar code reader 404d, for example, described above with reference to figure 4, allows optical scan and decode bar codes. The bar code reader 404d is connected with the CPU a to transfer askanianova view of a bar code in the CPU a.

Software for reading a bar code e, for example, described above with reference to figure 4, allows you to encode and decode bar codes. Software for reading a bar code e available for CPU a with-readable computer environment, for example, from a CD-ROM, disk storage or network connection.

The client computer system 405 is system of the subject of commercial activity that p is edlagaet product or service, specified in the application for the operation. To perform this operation, the client computer system 405 communicates with system control operations 402 and system operations 404. The client computer system 405 has a CPU 405A, the storage device 405b and the network interface s. CPU 405A is connected with the storage device 405b to store information, for example, information about goods and services in the non-volatile memory (permanent memory). The network interface device connected between the CPU 405A and computer network system 406 to provide data exchange between them.

The wireless communication device 408 includes a device controller a, component audio output 408b, the video display with touch screen s and transceiver data 408d. A device controller provides management and the Union component of the output 408b, video display with touch screen s and transceiver data 408d. Component audio output 408b, for example, loudspeaker, allows the customer operation to listen to the speech information. The video display with touch screen s allows the customer operation 412 to enter information by touching the screen of the video display s or write on the screen of the video display s, or both.

Transceiver data 408d allows the implementation of the identification of the information exchange data between the wireless communication device 308, system management operations 402 and system operations 404. This transceiver can realize the exchange of voice information between the wireless communication device 308 and wireless network data transfer system 410. Thus information is exchanged between the wireless communication device 408, the system management operations 402 and system operations 404.

As shown in Fig, the video display s wireless communication device 308 is a video display with a touchscreen. On the video display s wireless communication device 408, the user interface appears e. Using the physical pointing device from the list of names opcodes 408g displayed on the video display s, select the desired name of the opcode 408f. In response to selection of the right name of the opcode 408f on the video display C appears optically scanned opcode 408h. An example of the wireless communication device 408 may serve as a wireless personal digital assistant.

As shown in Fig.7, the system management operations 402, system operations 404, the client computer system 405 and the wireless communication device 408 are connected to exchange information. In this embodiment, the barcode verification operations and the transfer bar is o opcodes are executed by the runtime system operations 404. Management system operations 402 performs the exchange of information to determine the desired operation. As shown in Fig.9, the system management operations 402 performs an action And' - receives a request for an operation from the wireless communication device 408. After receiving the request for the operation is performed action' - send a password request from the system management operations 402 and wireless communication device 408. The password prompt is intended to initiate action With' - get system management operations 402 password from the wireless communication device 408. Action D' - send a message about authentication of the customer from the system management operations 402 and wireless communication device 408 causes the action S' - transfer of the first bar code operation on a wireless communication device 408. The message authentication of the customer proves that the order of operation is adopted, and that the first bar code operations transferred. To process and fulfill your order for the operation system operations 404 and control system operations 402 can communicate with a client computer system 405.

The action of F' scan the first barcode operation is performed after step E'. In response to the action of F' system operations 404 generates a decoded representation of the first bar code operations. P the following scanning and decoding of the first bar code operations and in response to verification of the first bar code operation is the action of G' - receiving a system management operations 402 first verification run from system operations 404. In addition, in response to verification of the first bar code operation usually occurs the first event execution. Management system operations 302, system operations 304 or both systems can use the verification run to start the subsequent internal actions, such as removal of the actual operation of the selectable by the customer.

After scanning the first barcode operations action N' - transfer of the second bar code, operations systems operations 404 to the wireless communication device 408. After step N' is the action I' - second scan the bar code of the operation. In response to the second scan a barcode system operations operations 404 creates a decoded representation of the second bar code operations. After scanning the second bar code operations and in response to verification of the second bar code operation action J' - getting system management operations 402 second verification run from system operations 404. The second event execution usually occurs in response to a verification of the second bar code of the operation.

Examples of verification run are the first and the second verification run. These verifications received from system operations 404, the system management operations 402 is notified that the operation has begun or ended. After the second stroke operation code askanian, action To' send the message about the operation from the system operations 402 and wireless communication device 408.

Example 2. Cinema

Customer operations uses its wireless personal digital assistant ("electronic assistant") to buy a ticket for a movie that she wants to see on the way to the cinema. To this end, using their wireless electronic assistant, she communicates with system control operations. It then interacts with the user interface of the customer's operation of its electronic assistant to exchange information about the film with system control operations. Information about the film is the usual information about the film, for example, the name and time of the beginning of the film. The request for the operation management system operations interacts with the institutional system of communication. For example, the system management operations may contact the institutional system of communication in order to establish remained is whether camping places available for this movie at this time. After ordering, the customer is identified in response to the introduction of keyboard password.

After identification of the customer on its electronic assistant is sent to the first bar code operations. Upon arrival at the cinema it is included in the user interface of the customer operations to retrieve the first bar code operations. Then it skips electronic assistant through one of the many readers bar code that is installed on the entrance to the cinema. The first bar code operations optically scanned with a video display of its electronic assistant. Scanning the first barcode operations includes the first turnstile, which opens and sends her into the lobby of the cinema. In some cases it can lead to action and granting ticket in the turnstile to issue physical tickets for a specific film. After scanning the first barcode operations in its electronic assistant served the second bar code of the operation.

Then she goes to a cinema hall. In order to gain access to the auditorium of the cinema, it extracts the second bar code operations. After removing the second barcode surgery, she ignores his electronic assistant through the device for reading bar codes, installed at the entrance to maturing the local cinema hall. The second scanning bar code operation actuates the second turnstile, which transmits it in a cinema hall. After scanning the second bar code operations on its electronic aide is sent a message about the operation. The message operation contains information such as pass in a specific room, where it will be screened her film, interactive and exclusive information about the film, etc.

This example shows the convenience and economy of time visiting the cinema using the proposed methods and devices. In this example, the benefits associated with the proposed methods and devices will be even more evident during periods of inflow to the cinema audience.

Figure 10 shows the block diagram of the actions of another version of the implementation for the system shown in Fig.7. In this embodiment, the barcode verification operations, the transfer bar code operations and exchange of information for determining a desired operation system performs the operations 404. Management system operations 402 performs an action And get the application for the operation of the wireless communication device 408. After receiving the request for the operation is performed, the action - send password request from the system management operations 402 and wireless the communication device 408. The password prompt is intended to initiate action To" obtain control operations 402 password from the wireless communication device 408. Action D - send the message authentication of the customer from the system management operations 402 and wireless communication device 408 causes an action E - transfer order for the operation system control operations 402 on system operations 404. The message authentication of the customer confirms that the password has been accepted. In this embodiment, the request for the operation is supplied to the system operations 404 to complete this proposal on the operation system operations 404. To process and fulfill your order for the operation system operations 404 and control system operations 402 can communicate with a client computer system 405.

Action F" transmission of the first barcode, operations systems operations 404 to the wireless communication device 408 is performed after receiving the system operations 404 applications for the operation. The first bar code operation is used by the customer operations in order to carry out actions on receipt of goods and services in the real world, requested in the application for the operation. The action of G" scanning the first barcode operation is performed after steps F". In response to you is olnine steps G" in the system operations 404 creates a decoded representation of the first bar code operations and system operations 404 completes the first verification run.

After verification of the first bar code operation action N" - submission of the second bar code, operations systems operations 404 to the wireless communication device 408. After action N action I" - the second scan the bar code of the operation. In response to the second scan a barcode system operations operations 404 creates a decoded representation of the second bar code operations, and system operations 404 terminates the action of the second verification run. In response to verification of the second bar code operation action J" - send a message about the operation from the system operations 404 to the wireless communication device 408.

In this description of the disclosed multi-stage method of operation, including the transfer of two codes of the operation. It is assumed and expected that the proposed methods can be implemented in such a way as to obtain a single-stage method or method, implemented in three or more stages. For example, in some cases it will be advisable to use a single-stage method of operation by which the wireless communication device is served by only one operation code, for example, the first code is operations, disclosed in this description. It is clear that the number of codes transmitted on a wireless communication device, depends on the specific application, and not from the proposed devices and methods.

A commercial embodiment of the proposed devices and methods may be implemented in conjunction with one of the many public or private global specifications that will provide users of wireless communication devices easy access and interact with information and services through the above-described computer network system. One example of such an open global specification is the wireless application Protocol (WAP). WAP is designed to work with most of the architectures of wireless devices, for example, a cellular packet data (CDPD), multiple access code division multiple access (CDMA), global system for mobile communications (GSM), primary domain controller (PDC, PHS, multiple access with time-sharing (TDMA), FLEX, ReFLEX, iDEN, TETRA, DECT, DataTAC, Mobitex. Examples include wireless phones using WAP, you can mark the phone company Nokia (Nokia), model # 7110, phone Siemens (Siemens), model # S25, and the phone company Ericsson (Ericsson), model # R380. Examples of electronic assistants working with the wireless application Protocol WAP, serve as an electronic assistant, in the auctioning company "3Com" under the trade name of the Imagination VII,and electronic assistant company "Ericsson", model # S.

WAP is a communications Protocol and application environment. WAP technology, you can enter the operating system, many wireless communication devices including PalmOS, EPOC, Windows CE, FLEXOS, OS/9, JavaOS, etc. It provides interoperability between different device families. More detailed information about WAP can be obtained from companies ' Verles Aplikasi Protocol Forum Ltd. (Wireless Application Protocol Forum Ltd.) (www.wapforum.org and Dynamical systems research Ltd. (Dynamical Systems Research Ltd.) (www.wap.net).

The company "Symbian" (Symbian) (www.symbian.com offers technology and system hardware under the trade name EPOC, which give manufacturers of wireless communication devices complete solution.

EPOC Release 5 has a platform with a complete technology "Symbian", which puts the HEROS and other technology "Symbian" in the heart of the wireless industry. Equipment "Symbian" includes technology support integrated into Internet e-mail, wireless transmission of texts, databases, contact information, schedules, Web browser standard Internet search and view information in the WWW), the synchronization between the formats of personal information and the document on the basis of the HEROS and PC and productive language use wireless applications offered by the company "San Microsystems" (Sun Microsystems) under the trade name Java. EPO is provides reliability, compactness and efficiency, achieved through careful system design to programming languages, including C++.

Firewall gateways, WAP is an application that allows you to deliver Internet content to wireless communication devices. As WAP gateways are gateways offered by companies to Open Sours" (Open Source), "Ericsson", "Apion" (Apion), "Mobilais" (Mobileways), "Nokia", "Anwered Planet" (Unwired Planet) and "Ajmal" (Edgemail).

The company "Dynamical systems research Ltd." offers a software development kit (SDK WAP (WDT). This kit supports the development of WAP applications. For applications used languages Wireless Mark-up Language (WML) and Wireless Mark-up Language Script (WML Script). The first language is used to create WAP pages like HTML language used to create web pages for the Internet/World Wide Web. WML Script is a scripting language to create and layout the actual content pages.

The company "Fonta" (Phone.com offers UP.SDK - free development kit, available at www.phone.com/products/upsdk.html., which allows Web developers to quickly and easily create information services and applications in the languages HDMI and WML. UP.SDK contains the authoring tool software called UP.Simulator, which accurately simulates the behavior of a device running a browser UP.Browser. This simulator can run the th application in local mode or connect to the channel UP.Link, so developers can test the whole set of working from channel UP.Link services. In addition, the company "Fondam provides your public channel UP.Link to all developers for free, so they can create a full application without using the phone or expensive infrastructure. Tools UP.SDK can work in Windows 95 or Windows NT (Windows 95, and Windows NT are trade names of Microsoft Corporation (Microsoft Corporation)).

In the above detailed description made with reference to the attached drawings, which are a part and on which for example shows specific embodiments of the invention. These options for implementation and some of their modifications described in sufficient detail to ensure that the experts were able to use the invention in practice. It is understood that it is possible to use other suitable embodiments of possible and that logical, mechanical, chemical and electrical changes within the essence and scope of the invention. For example, the functional blocks shown in the figures, it is possible to combine or split within the essence and scope of the invention. Avoid unnecessary details in the description is omitted certain information known to the specialists in annoyable. Thus, in the above detailed description is not limited to the specific forms set forth in the description, but on the contrary includes all reasonable alternatives, modifications and equivalents within the essence and scope of the invention.

1. The way to perform commercial transactions using a wireless communication device that includes

sending customer requests to the commercial operation of the communication device;

the receipt management system of commercial operations of said application;

the transmission management system of commercial operations in the wireless communication device of the customer first code used to execute said application;

the call to display the first code mentioned on the video display of the wireless communication device of the customer;

the presentation mentioned display the first code on the video display of the wireless communication device of the customer for optical scanning means associated with the control system commercial operations commercial operations;

permission of execution of the application on the commercial transaction system of commercial operations in response to optical scanning display first mentioned code.

2. The method according to claim 1, characterized in that the system is driven by the I commercial operations and commercial operations are located in the same physical location, and the aforementioned control system is a subsystem of the system of commercial operations.

3. The method according to claim 2, in which the transmission of the first code mentioned is from radiopropagation system perform commercial operations in radiopropagation wireless communication device of the customer.

4. The method according to claim 1, which additionally comprises the following steps:

in response to the optical scanning of the first code of its decoded representation is passed from the system perform commercial transactions in the system management of commercial operations to correlate with the first event of the execution of commercial transactions;

produce the verification referred to the first code and

transmit a confirmation of execution verification management system of commercial operations of the system perform commercial operations.

5. The method according to claim 4, which includes the transmission in the wireless communication device of the customer after confirming the execution of the verification referred to the first code, the second code used to execute said application on a commercial operation.

6. The method according to claim 5, which also includes the verification referred to the second code, the transmission system perform commercial transactions in the system management of commercial operations after the verification referred to the second verification code execution verification referred to the who code to correlate with the second event run commercial operations.

7. The method according to claim 6, in which the verification referred to the second code comprises transmitting the decoded representation mentioned second code from the system perform commercial transactions in the system management of commercial operations.

8. The method according to claim 5, in which the transfer of the mentioned first and second codes is the transfer of them directly from the system perform commercial operations in the wireless communication device of the customer.

9. The method according to claim 8, in which the transfer of the mentioned first and second codes directly from the system perform commercial transactions is the transfer from radiopropagation system perform commercial operations in radiopropagation wireless communication device of the customer.

10. The method according to claim 5, in which the transfer of the mentioned first and second codes is the transfer from the system of management of commercial operations in the wireless communication device of the customer.

11. The method according to claim 5, in which the transfer referred to the first code and the second code is the transfer of, respectively, the first barcode and the second barcode.

12. The method according to claim 6, which includes the transmission of messages from the management of commercial operations in a wireless communications device after verificati is referred to the second code.

13. The method according to item 12, whereby the transmission of the message is a transfer directly from the system perform commercial operations in the wireless communication device of the customer.

14. The method according to item 13, which transfer messages directly from the system perform commercial transactions is the transfer of messages from radiopropagation system perform commercial operations in radiopropagation wireless communication device of the customer.

15. The method according to claim 1, in which the sending application for a commercial operation is performed with the wireless communication device of the customer.

16. The method according to claim 1, in which the transmission of the first code mentioned involves the transfer of the first optically scanned code.

17. The way to perform commercial transactions using a wireless communication device that includes

receipt of the application for the commercial operation of the wireless communication device of the customer;

the transmission management system of commercial operations in the wireless communication device of the customer first code used to execute said application;

the call to display the first code mentioned on the video display of the wireless communication device of the customer;

the presentation mentioned display the first code on the video display Wi-Fi the th communication device of the customer for the optical scanning system of commercial operations, associated with the control system of commercial transactions;

the resolution ordered execution of the application in response to optical scanning display mentioned first code by the runtime system commercial operations.

18. The way to perform commercial transactions using a wireless communication device that includes

receipt of the application for commercial operation from the client system to perform commercial transactions;

authentication of the customer's business operations;

the transmission code used to execute said application, from commercial operations in the wireless communication device of the customer after successful authentication of the customer's business operations;

call display mentioned code on the video display mentioned wireless communication devices;

the presentation mentioned code is displayed on the video display of the wireless communication device of the customer for the optical scanning system of commercial transactions;

the resolution performance of the ordered application by the runtime system commercial operations in response to optical scanning of the mentioned code is displayed.

19. Device for performing commercial transactions using a wireless communication device, sod is rashee

the system of commercial transactions, including

a processor interconnected with the storage device, to ensure the implementation of commercial operations, and system network interface, with the specified processor has software that allows at least on the basis of receiving through the network interface applications for commercial operation to transmit the code used to perform commercial transactions, through the communication device in the wireless communication device of the customer's business operations;

the optical scanning device associated with the processor, intended for optical scanning display mentioned code from the video display of the wireless communication device of the customer;

with this software processor provides read mentioned the scanned code is displayed and development in response to this permission to execute said application on a commercial operation.

20. The device according to claim 19, characterized in that the communication device is a telecommunication network system.

21. The device according to claim 20, characterized in that the telecommunication network system linked to the execution of commercial transactions over a computer network system.

22. The device is in according to claim 19, characterized in that the communication device is a wireless network data transfer system.

23. The device according to item 22, wherein the wireless data transmission system associated with the wireless communication device of the customer through a computer network system.

24. The device according to item 23, wherein the wireless data transmission system includes a wireless local area network system.

25. The device according to claim 19, characterized in that it contains associated with commercial operations management system in commercial transactions, which is made with the ability to authenticate the customer's business operations and in case of successful authentication of the customer's commercial operations to commit the commercial operations permit transfer code used to perform commercial operations, with the specified system of management of commercial operations module contains speech services for voice authentication referred to the customer, and the module voice services performed with voice authentication code with the wireless communication devices referred customer and authentication mentioned speech code through a system of identification to vote, providing sravnenie the mentioned speech authentication code with an authentic sample of the voice of the customer.

26. The device according to claim 19, characterized in that the scanning device is configured to optically scan the video display of the wireless communication device of the customer bar codes as mentioned display code.

27. The device according to claim 19, characterized in that the system perform commercial transactions made with the possibility of decoding the operation code in response to an optical scanning display operation code.

28. The device according to claim 19, characterized in that the communication device is radiopropagation for direct communication between the wireless communication device of the customer and system operations.

29. Device for performing commercial transactions using a wireless communication device, containing

system operations, including interconnected with the storage device, to ensure the implementation of commercial operations, and system network interface, a processor with software, which, at least on the basis of receiving through the network interface applications for commercial operation of the wireless communication device of the customer pass code used to perform commercial transactions, via the network interface to the wireless device the connection of the customer's business operations;

associated with the processor, the optical scanning device, is configured to optically scan the display mentioned code from the video display of the wireless communication device of the customer;

with this software processor provides read mentioned the scanned code is displayed and development in response to this permission to execute said application on a commercial operation.

Priority items:

13.07.2000 according to claims 1-4,15-29;

17.10.2000 on pp.5-14.



 

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