TW200951848A - System and method for providing product or service with cellular telephone - Google Patents

Abstract

The present disclosure provides for a mobile communication device identifier, constituted of: a shielding defining a coverage area, the shielding arranged to attenuate radio signals originating externally of the coverage area to be less than a pre-determined signal strength; an antenna associated within the defined coverage area; a transceiver coupled to the antenna, the transceiver operative to communicate with a mobile station inserted within the defined coverage area utilizing a signal strength greater than the pre-determined signal strength; and a service control unit responsive to the transceiver, the service control unit operative responsive to the communication to output a signal indicative of an authorization to provide a product or service.

Description

200951848 * VI. Description of the Invention: [Technical Field of the Invention] The present disclosure relates generally to the field of cashless transaction devices, and in particular to systems and methods for providing products or services by cellular telephones. [Prior Art] Mobile station (also known as mobile communication device, mobile phone, mobile phone, mobile phone, wireless phone, cell phone, cell phone, cellular phone, mobile handset or cell phone) Teleph〇ne)) is a long-range electronic device for mobile voice or data communication on a network of base stations. Each of the base stations is often referred to as a cell site, a base transceiver station (BTS), an e-Node B, or a Node B, and provides seamless communication as a mobile communication device over a relatively large geographic area in a cooperative manner. One of the features of the mobile station is the ability to establish communications via any of the network base stations and seamlessly hand over from one base station to another. The network supporting this mobile station is often referred to as a cellular network because the various base stations of the network define several cells (where radio signals predominate) and have pre-selected location area identification (L〇cati〇n Area Identification (LAI), Location Area Code, or Location Area Color (LAC) is collectively referred to herein as LAI. In addition, data communication services have been added to the cellular network, providing a wide range of features for mobile station users in addition to voice communications. Due to the convenience mentioned above, the mobile station has grown rapidly in use. Historically, the mobile station has been linked to telephone usage, talk time and message delivery 098108203 4 200951848 charges. However, the ubiquitous mobile station with associated means for user identification and charging fees presents an opportunity to use the mobile communication device as an electronic wallet. In particular, the mobile station can be used as a medium to initiate, initiate or confirm payments. ‘ There are several known methods for providing products, and in particular, by using a mobile station to provide payment for products or services that are different from phone usage or talk time. A system is known in the prior art (as described in U.S. Patent No. 6,584, issued toW.S. In the consumer, the consumer requests the available product from the vending machine by dialing the designated phone number to the server via its mobile station. The server identifies the request for the product, creates a package, records the transaction for the billing of the consumer, and transmits the voucher code to the mobile station of the consumer. The received voucher code is transmitted to the machine that provided the product. The ship is that this system is not convenient and requires many steps to perform a simple transaction. In addition, 'but when the voucher code is received, the consumer cannot be greened. Standing next to the vending machine' and ready to receive the service, and the consumer_ may therefore be charged for the product it did not receive.

U.S. Patent Application Publication No. S/N 2//0084272 A1, the entire disclosure of which is incorporated herein by reference in its entirety in its entirety in The side of the mobile station operated on the network is automatically electronically authorized to enter - geographical area 098108203 c 200951848. Disadvantageously, in the case where a plurality of users who have a - mobile station request to enter at the same time, a method of distinguishing the users from + 1 is not provided. Thus, for example, it may be inappropriate to identify a method of receiving other payment methods for the carriage of a plurality of users. For example, it is called "Near Field," and "Method" (Near Field C〇_ic: atiQn, (4) The mobile station is required to support additional low-power, short-range communication protocols. In the specific case, the payment via _ includes a smart card preloaded with a certain amount of money installed in the mobile station, such as a user identity module. (SIM) or Universal Integrated Circuit Card (UICC), and the machine providing the product or service is provided with compatible hardware. Alternatively, the credit card or debit card information can be carried in the smart card. It can be pre-loaded from the smart card. The amount minus the currency, or subtracted from the credit card account (4). However, this method usually requires special design or modification of the mobile station to include communication components that are independent of the telecommunications components required for mobile communications. Therefore, the use of NFC is limited. To support the agreement's ordering station, and therefore does not apply to 1% of potential mobile station users. Requires additional hardware that is not required in the mobile station and does not require consumers to do A method and system for making a ride to make a payment in the case of an extra step. [Summary of the Invention] The cloud provides the above discussion and other considerations. [This disclosure provides a means for overcoming (4) mobile communication devices. A system and apparatus for some or all of the disadvantages of the prior and current methods of the product or service. Other novel and useful advantages of the method and apparatus will also be described herein, and can be understood by those skilled in the art, 098108203 200951848. In a specific example, a shield defining a coverage area is provided, the shield being configured to reduce the radio signal degradation from any antenna outside the coverage area to less than a failure rate (four degrees). a coupled antenna' and the antenna is preferably within the defined coverage area and is lightly coupled to the transceiver. The server operates to communicate with any mobile station within the coverage area defined by the spare with a radio signal greater than a predetermined strength Providing a service control unit and configured to respond to communication between the transceiver and the mobile station. A service desk providing products or services (better) The product or service is provided by the coverage area service control unit defined by the present invention. Additional features and advantages of the present invention will become apparent from the accompanying drawings and claims. [Embodiment] 本 - This specific example is in response to the mobile station Providing and enabling the provision of a product or service feature 5, providing a shield defining a coverage area, the shield being configured to cause a radio signal from any antenna outside the coverage area to decay to a predetermined k number Intensity. Provided with an antenna area defined by the defined coverage area. The antenna is preferably within the defined coverage area. The transceiver operates 'with radio signals greater than a predetermined intensity and placed at the boundary; t Communicates with any mobile station within the coverage area. Provides a service control unit and is configured to respond to communication between the & mobile station. The service desk providing the product or service (more than the coverage area of the near boundary & coverage) operates in response For the service control unit, please provide 098108203 200951848 for this product or service. It will be appreciated that the invention is not limited in its application to the details of construction or configuration of the components set forth in the following description or illustrated in the drawings. The invention is applicable to other specific examples or to practice or practice in various ways. Moreover, it will be understood that the phraseology and terminology used herein is for the purpose of the description The term "connected" as used herein is not intended to be limited to a direct connection, and the intermediate device or component is not limited. In the following description, the term "mobile station" refers to any mobile communication device, mobile phone, mobile phone, mobile phone, wireless telephone, cell phone, cellular phone, cellular phone, cell phone or mobile phone for operation on the base station network. Voice or data through other electronic devices. Although in the following description, an embodiment of cellular communication (in particular, GSM) is used to describe the pass, it will be understood that the scope of the present invention is This aspect is not limited, and the wanted method used may be based on any suitable communication protocol, including but not limited to Universal Mobi le Telecommunications (Universal Mobi le Telecommunications)

System, UMTS), IEEE 802. Ιΐχ, IEEE 802.16x and CDMA. The term "Mobile Station Location Management Program" is intended to include any means for managing the connection of a mobile station to a cellular network, and is specifically intended to be (especially) the term "scheduled management procedures in GSM, data mobility management, GPRS. Synergies in action management and conversational action management in their respective systems. 098108203 200951848 FIG. 1A illustrates a high level block diagram of an exemplary embodiment of a system for providing products or services in cooperation with a mobile station, the system including: a service desk, including a selective audible notifier 20 and an optional The visual notifier 30; the mobile station 'identifier device 40' includes a shield 50 defining the coverage area 55, an antenna-60, a transceiver 70, and a service control unit 8 that exhibits an output port 85; a mobile port 90' and a base transceiver station (BTS) 1〇〇. The term "bts" as used herein is intended to include (for a corresponding network Node B or Node B, but without limitation. Figure 1B (iv) Front view of shield 50, the shield 5 is configured to at least partially form a surround insertion The Faraday cage of the mobile station 9〇 in the shield 5. The action port 90 can be inserted by the user and removed from the coverage area 55 defined by the shield. The antenna 60 is mounted in the shield 5〇 and is connected to The transceiver 〇 is further in communication with the service control unit 8. The output 埠 85 of the service control unit 8 is coupled to the service station 10. The service station 1 is preferably located close to the mobile station device 40, And specifically ' is juxtaposed with the shield 50 of the mobile station identifier device 4B. The BTS 1GG is configured to provide radio signals to provide communication for all of the mobile stations 90 within the range of no-wire power. Shield 5() It is configured to attenuate the radio signal from the BTS 100 such that the signal strength of the radio signal from the BTSi is less than the predetermined radio signal strength within the coverage area 55. The shield 5G preferably has a three-dimensional structure, such as a box shape, a circle. The shape or conical structure, and further preferably comprised of a radio signal attenuating material, to reduce the signal strength of the radio signal transmitted by the BTS 100 to less than a predetermined signal strength within the area 55 of the overlay 098108203 9 200951848. In a specific example The shield 5 is configured and sized to allow only a single mobile station 90 to be inserted into the coverage area 55 at a time when held by the user. The transceiver 70 preferably operates according to a plurality of protocols and transmission frequencies. A large number of types of mobile stations interact. In a preferred embodiment, the transceiver 90 operates to interact with each of the cellular protocols by means of a cellular network for the cellular protocol to deploy around the shield 50. In operation, the mobile station 9 inserted into the shield 5 is subjected to attenuation of the radio signal from the BTS 100 to less than a predetermined radio signal strength. The combination of the transceiver 7A and the antenna 60 is configured to use a signal greater than the predetermined radio signal strength. The strength is in communication with the mobile station 90 inserted into the shield 5. Therefore, the mobile station 90 prefers to communicate with the transceiver 7 via the antenna 60. The BTS 1 is in communication. The mobile station 90 thus establishes communication with the transceiver 70 within the shield 50, and the mobile station 90 attempts to replace any communication link service control unit 8 previously established via the BTS 100 to operate the surveillance mobile station. The pass between the transceiver and the transceiver is in the specific case 'service control unit 8' is consuming to 70, and operates with <specificity between the transceiver 7() and the mobile station 9() The transmission '' indicates that the mobile station 9G is authorized to receive products or services from the service station 1G. The side of the specific transmission can be detected via a direct connection or via wireless detection without exceeding the material. The service control unit 8 〇 further responds to the monitoring The communication is to provide a product or service by providing the product or service via the output port 85 to provide a product or service to the 098108203 200951848, the second service. In the event that the product or service is not available, the service control unit 8G operates to provide a signal to the service desk 10' audible audible notification and visual notification towel - or more, indicating the provision of the product or service e was rejected. In response to the signal indicating that the connection is rejected, the service desk 1G operates to read the audible notification (via the audible notifier 20) and the visual notification (via the visual notifier 3). In a specific example, as described above, the transceiver 7 is associated with a ui

The L' is different from the UI associated with BTS1. Thus, when entering the coverage area 55 in accordance with the established cellular communication protocol, the mobile station 9 preferably operates to provide identification information as part of the location update procedure. Preferably, the service control unit 80 is further operative to prevent the service station 1 from providing products or services in the event that more than one mobile station 9 is detected within the coverage area 55. In one embodiment, and as described above, the shield 5〇 is juxtaposed with a particular service station 10. Thus, when a particular mobile station 90 is inserted into the shield 50, the provision of a product or service is advantageously achieved in conjunction with the mobile station 90, thereby ensuring that the user of the order actually receives the product or service. • It is not required to provide a single service control unit 80 or transceiver 70 for each shield 50, and in one embodiment, a single service control unit is in communication with a plurality of transceivers 70, each of which is mounted to one A particular antenna 60 within a particular shield 50 communicates. In one embodiment, a single transceiver 70 operates to control a plurality of antennas 6A, each antenna 60 being mounted within a particular shield 50 098108203 11 200951848. Figure 1C illustrates a high level process 51 of an exemplary embodiment of the operation of the system of Figure 1A providing a shield 50 defining a coverage 55 in the stage. Optionally, the shield 50 at least partially defines the Faraday cage. The shield 50 is configured to attenuate radio signals originating outside of the defined coverage area 55 to less than a predetermined radio signal strength. In phase 1010, communication is selectively performed in accordance with the cellular network protocol with the mobile station 90 within the coverage area 55 defined by the insertion phase 1000. Communication is established via a radio " ί § indicating a signal strength greater than the predetermined signal strength of phase 1. In stage 1020, the setting of the product or service is enabled in response to the communication of stage 1010. In the optional stage 1030, in the event that a plurality of mobile stations 90 are detected within the coverage area 55 defined by stage 1000, the enabling of the setting of the product or service of stage 1020 is prevented. In the optional phase 1〇4〇, the user is provided with a visual or audio notification without enabling the setting of the product or service. 2A illustrates a high level block diagram of an illustrative embodiment of a system 200 for providing products or services in cooperation with a mobile station and a cellular telephone network, wherein an application server coupled to a network switching subsystem or core network is provided. . The system 200 includes a network switch subsystem (NSN) or a core network (Core Network 'CN) 210, and a base station subsystem (BSS) 220 (referred to as 098108203 12 in other systems). 200951848 Radio Network Subsystem (RNS), mobile station identifier device 40 and service station 10. The BSS 220 includes: a Base Station Controller (BSC) 222, which is referred to as a Radio Network Controller (RNC) in other systems'; and at least one BTS 100, as indicated above It may also be referred to as, for example, a Node B or an eNode B in other standard terms. Each BTS 100 can define the small area by, for example, the coverage of an antenna coupled to a cell. For example, if a mobile station receives signals from a corresponding BTS 100 antenna with better quality than signals received from other BTS 100 antennas (because the BTS 100 antenna is closer, and/or because of the BTS 100 antenna and the mobile station) There are fewer obstacles between them), then the mobile station can be attributed to a specific cell. The NSS/CN 210 includes a Mobile Services Switching Center (MSC) 212, which may also be referred to as, for example, a GMSC, MTX, 3GMSC, SGSN, Access GW, or in other standard terms. IWF-MSC; application server 213 (e.g., gsmSCF); visitor location register 'VLR' 214; home location register 'HLR' 215; equipment identity register (eqUipment identity) Register, EIR) 216; and Certification Center (AuC) 218. The MSC 212 can control one or more BSSs 220. NSS/CN 210 and BSS 220 may be substantially as known in the art or as provided in any mobile communication system and will not be described in greater detail herein. The mobile station identifier device 40 includes a shield 50 defining a coverage area 55, 098108203 13 200951848 and exhibiting an antenna 60 mounted therein; a transceiver 7A; and a service control unit 80, and is similar in all respects to FIG. 1A And the mobile station identifier device 40 of FIG. 1B. The service desk 10 is preferably juxtaposed with or associated with the station identifier device 40 and includes any machine that provides a product or service. The service desk 1 can include, for example, food, refreshing beverages, ticket vending machines, parking fee machines, movie ticket machines, photocopiers, gates/doors, and/or any other suitable service desk. BSC 222 and each BTS 100, and a mobile station identifier device 4 that preferably acts as a BTS for a cellular network with a limited capability system 200, and preferably (specifically) with transceiver 70' and with NSS /CN 210 communication. The service control unit 80 communicates with the transceiver 70 and the service station 1 and communicates with the mobile station 90 placed in the coverage area 55 via an antenna 60 mounted in the shield 50. Optionally, the mobile station identifier device communicates directly with the NSS/CN 210' as indicated by the dashed connection, and in this particular case, communication via the BSS 220 is typically not implemented. In operation, the mobile station 90 inserted into the shield of the mobile station identifier device 40 experiences reduced signal strength from all BTSs 100 and increased signal strength from the transceiver 7 via antenna 60, and thus attempts to transmit and receive via the transceiver. The device 70 is in communication with the NSS/CN 210. In one embodiment, the transceiver 7 is coupled to an LAI that is different from the BTS 1 that is experienced by the mobile station 90 directly outside the shield 50 of the mobile station identifier device 40. LAI 〇 098108203 14 200951848 The transceiver 70 is in communication with the BSS 220 and the BSS 220 operates to communicate communication attempts to the NSS/CN 210. The NSS/CN 210 operates to provide network authorization symbols for the mobile station 9 to communicate via the transceiver 70, such as temporary mobile subscriber identification in the gsm network (Temporary Mobile Subscriber*)

Identification’TMSI) code or location update acceptance information in the CDMA network. In other networks, P-TMSI or TLL is provided. The transceiver and mobile station 90 are thus identified by the NSS/CN 210. The NSS/CN 210 and, in particular, the VLR 214 transmits the identification information of the mobile station 90 and the transceiver 70 to the application server 213. Based on the identification information of the mobile station 90 stored at the application server 213, and in response to the identification information received from the VLR 214, the user of the mobile station 90 can be identified and debited for the product or service. In particular, the service control unit 80 operates to detect the presence of the provided network authorization symbol and to enable the service desk to provide a product or service in response to the presence of the provided network authorization symbol. In the event that the authentication process fails or the application server 213 refuses to provide products or services to the mobile station 90, the NSS/CN 210 may send a rejection notification, which may force the mobile station to erase its network authorization symbol. In this case, the service control unit 80 operates to detect the rejection notification and prevents the service station 10 from providing the product or service. In a specific example, the network unauthorized symbol is transmitted if the authentication process fails or the application server 213 refuses to provide the product or service to the mobile station 90. In order for the NSS/CN 210 to notify the mobile station 90 of incoming calls 098108203 15 200951848 received via the MSC 212, regardless of the geographic location of the mobile station 90, the NSS/CN 210 typically operates to monitor each mobile station 90 that is powered on. The location. Thus, the mobile station 90 can inform the NSS/CM 210 when to roam to a different location area. A location area may comprise a group of cells, which may have the same location area identifier (LAI), also referred to as a location area code. When the mobile station is powered on, it can detect the LAI, which can be transmitted from the BSC 222 via the BTS 100 of the cell. When the mobile station 90 moves to another cell in another location area, the mobile station 90 can detect a different LAI, and thus can initiate a mobile station location procedure, such as by, for example, sending a location update request to the VLR. The location update procedure or routing area update performed by 214 includes, for example, the identification of the mobile station 90. The VLR 214 can be used by the mobile station 90 to perform the authentication process. For example, the mobile station 9 can have a unique authentication key, which can also be stored at the AuC 218. In the event that mobile station 90 is free to roam in another VLR controlled cell, VLR 214 may have to receive the authentication key and possibly other authentication code and/or roaming action from HLR 215 and/or AuC 218 and/or from the previous VLR. The details of the 90. After the authentication is completed, the location update can be performed 'where the VLR 214 can assign the network authorization symbol to the mobile station 90. In some embodiments, prior to assigning a network authorization symbol, the VLR 214 can, for example, use a smart network method (such as IN, CAP, or any other suitable method) to take details of the mobile station (eg, 'real action identity, which is at In a specific example, the mobile subscriber integrated service digital network number (Mobile Subscriber Integrated Services Digital Network Number, 098108203 16 200951848 MSISDN), the transceiver 70 identification, and the LAI are transmitted to the application word server 213. For example, if the LAI is associated with a particular cell corresponding to the application controlled by the application server 213 (e.g., the LAI associated with the transceiver 70 of the mobile station identifier device), the VLR 214 may be required to move the mobile station. The identification information of 90 is sent to the application server 213. Based on the mobile station's identification information, the application server 213 can identify the user of the mobile station 90 and/or the mobile station 90 and decide whether to allow the mobile station positioning management program to complete. If the mobile station location management procedure is approved by the application server 213, the VLR 214 may proceed to assign the network authorization symbols to the mobile station 90. The network authorization symbol may be unique within the current location area of the mobile station 90. Thus, for example, the 'network authorization symbol and LAI can enable the VLR 214 to recognize the mobile station 90 and its location. When an incoming call is to be connected to the mobile station 90, the MSC 212 can, for example, by transmitting a page number message to all of the mobile stations 90 in the location area identified by the network authorization symbol associated with the mobile station 90. Position the mobile station 90. In a specific example, a portion of the radio parameters of the transceiver 70 is similar to a portion of the radio parameters of the BTS 100 that control the area surrounding the shield 50, thereby enabling a short registration period. The shield 50 is preferably further used to limit the coverage of the transceiver 70 so as not to exhibit the radio signal strength of the outside of the shield 50 beyond the radio signal strength experienced by the mobile station 90 of another BTS 100. Thus, the interference to the mobile device 90 that is not placed in the shield 50 is minimized and preferably reduced to near zero. 098108203 17 200951848 In more detail, when the mobile station 90 is configured to operate in a GSM network, the mobile station 90 can include a smart card, such as a SIM card. The smart card can be stored (eg 'in particular') international mobile user identity (International Mobile

Subscriber Identity, IMSI), Encryption Key (Kc) and Authentication Key (Ki) and the TMSI Authorization Code mentioned above. When the mobile station 90 is inserted into the shield 50, the location update process can be initiated. In particular, as described above, the mobile station 90 can detect the LAI from the transceiver 70 different from the LAI to which it was previously associated, and initiate a location update procedure. The mobile station go may send a location update request to the MSC 212 via the BSS 220. The location update request may include the current TMSI stored on the smart card and a location area identifier (LAI) associated with the TMSI. The MSC 212 may forward these details to the VLR 214 along with the information to update the LAI. In the event that the new LAI and the previous LAI of the mobile station 90 are controlled by the same VLR 214, the VLR 214 can identify the mobile station 90' based on the received TMSI and/or LAI and preferably initiate the authentication process. The vlr 214 may have authentication data stored therein that is dedicated to the mobile station 9〇 currently in the shield 5〇. The certification material may include, for example, the IMSI, the random number (RAND), and the signed response (SRES) of the mobile station. In the case where the VLR 214 is based on the received TMSI unidentified mobile station 90, for example if the mobile station 9's previous LAI is controlled by another VLR 214, or if the mobile station 90 is not registered with the network associated with the VLR 214 or / and when closed before being inserted into the shield 5, the VLR 214 can request and receive authentication material from the hlr 215 and/or from the previous VLR 214. The IMSI of the mobile station 90 may be received by the VLR 214 as part - of the authentication 098108203 18 200951848 and may be used to request details from the 215 and/or from the preamble VLR 214 corresponding to the mobile station 9A. The new RAND and SRES may be generated by the AuC 218 and sent to the Ηϋί 215, for example after each authentication process or after some authentication process.

The VLR 214 may initiate the authentication process by sending the raND to the mobile station 90 along with the authentication request. The mobile station can calculate the SRES by a predetermined algorithm based on the Κι and the received rAND stored in the smart card stored therein, and the algorithm can be written as, for example, A3 'which can use the stored Ki and the The received RAND is used as input. Algorithm A3 operates to calculate SRES and the calculated SRES is transmitted to VLR 214 as part of the response to the authentication request. The VLR 214 operates to compare the calculated SRES transmitted by the mobile station 9 with the SRES stored thereon or calculated therein, and to confirm that the received SRES matches the stored or locally calculated SRES of the VLR 214. If the SRES received from the mobile station 90 is different from the stored or locally calculated old one, the authentication is successful. The authentication process prevents the duplication of the mobile station, for example because the random number RAND can be transmitted over the network during the authentication process, and the keys and algorithms used in the process can be stored on the mobile station 90 and can generate SRES. Certification Center. In the case of the copying station 90, the replicated mobile station 90 is not capable of generating the same SRES as the SRES stored in the vlr 214. If the authentication is successful, the VLR 214 can generate and/or assign a new Tmsi to the campaign 90, which acts as a network authorization symbol. The new TMSI can be transmitted to the mobile station 90' in an encrypted mode. The encryption is implemented by a VLR 214 that cooperates with a specific mobile station 098108203 19 200951848 Kc. The encryption method can be calculated, for example, based on kc and RAND by a predetermined algorithm (which can be written as, for example, A8), which can use Kc and RAND as inputs. The mobile station 9 is similarly equipped with an algorithm A8 to decrypt the received TMSI. In an exemplary embodiment, the VLR 214 causes the transmission of the network grant symbol (TMSI in a particular embodiment) to the mobile station 9 to be deferred until an acknowledgment from the application server 213 is received. The application server 213 can receive information from the VLR 214, such as location update details and/or mobile station identification information, such as real action identity and/or LAI, along with requests for confirmation. In the event that the current LAI of the mobile station is associated with a cell corresponding to an application controlled by the application server 213 (e.g., the transceiver 7 associated with the shield 50), the VLR 214 may send a request for confirmation. . The application server 213 can identify the user of the mobile station 90 based on the mobile station identification information received from the VLR 214. The application server 213 responds to the received mobile station identification information to determine whether to approve or reject the mobile station location management program. In some specific examples, the application dragon 213 may include an approved user's list of information 'and if the mobile station identification information is received by the VLR 214 for the mobile station (10) and the mobile station identification information in the list If one matches or matches, the bottle H 213 is used to approve the mobile station location management program. In a specific example, the approved user (also referred to as the user) may have a prepaid account at the associated cellular service provider, and the application word server 213 may check the remaining in the prepaid account. (4) Quantity, in order to decide to approve also 098108203 20 200951848

Or reject the mobile station positioning tube _ sequence. In another specific money, the 213 may include actions that should not be provided for the products or services of the service desk 10, and identify the information of the mobile phone's identification device (4). In the case, the (4) (4) 213 operation shall be rejected by the mobile station positioning management program of the VLR 214. Alternatively or in addition, the application server 213 can perform some (four) 'money mosquitoes' whether to provide services to the user, such as by the company, the bank, or any other suitable repository. The bribe H 213 preferred operation is to approve the miscellaneous message sent to the VLR 214. Upon receipt of the approval message, the VLR 214 operates to complete the mobile station location management procedure, such as confirming the location update to the transceiver 7 and/or transmitting the TMSI or other network authorization symbol to the action. If the reject message is received from the application server 213, the mR214 cannot complete the mobile station location management procedure, and cannot confirm the location update to the transceiver 7, and/or can send the network unauthorized symbol to the mobile station. . In one embodiment, the VLR 214 may send a reject message to the transceiver 7G. The application vessel 213 can operate by a smart network method (e.g., IN, CAP, or any other suitable protocol). • In the event that the mobile station location management procedure fails (e.g., during the authentication process), the VLR 214 can notify the application server 213 and/or the transceiver 70. The service control unit 8 operates to monitor communications between the transceiver 7 and/or the mobile station 9 and the transceiver 70 and to detect transmission of network grant symbols from the NSS/CN 210 to the mobile station. In a specific example, the service control unit 8 further operates to identify and store the network authorization symbol for post-trade auditing. 098108203 21 200951848. Advantageously, the service control unit go in response to detecting the presence of the network authorization symbol. And the operation. The service control unit 80 is further responsive to detecting the network authorization symbol to enable the service desk to provide a product or service. In the event that the authentication process and/or the location update process fails, the network unauthorised symbol is transmitted to the mobile station (10) in a particular example, and is therefore detected by the service control ticket 7L 80. In a specific example, the service control unit 8 performs a further operation to detect a location update request initiated by the mobile station 9G. If the network authorization symbol is not detected after the predetermined time period of the location update request is detected, then the service (4) unit 8G does not operate to enable the service station to provide the product or service. In another embodiment, the service control unit 8 operates to prevent the service station 10 from providing the product or service for a predetermined bed cycle or until another mobile station 9 is detected within the coverage area 55. The service control unit 80 preferably further operates to detect that only a single mobile station 90 is within the coverage area 55 at a time. In a specific example, the transceiver 7 is operative to communicate with any of the mobile stations 9 disposed within the coverage area 55, and the service control unit 80 operates to extract a plurality of mobile station location management procedures, specifically location update requests. And / or network authorization symbol. In the case where a plurality of location update requests and/or network authorization symbols are detected before the delivery of the service or product from the service desk 1G is completed, it is preferable to prohibit the delivery of the service or product 'to avoid which-action The user will receive a mix of the service or product. In the event that the service control unit 80 does not cause the service station 10 to provide a product or service after the mobile station 9 098108203 22 200951848 4 in the broadcast coverage area 3555, the service control unit 80 preferably further operates to provide a rejection. Audible and/or visual notification. Additionally or alternatively, the application server 213 can command the NSS/CN 210 to send a message to the mobile station 90, which can indicate the failure and/or success of the process, and include further information. The service control unit 80 is shown coupled to a single transceiver 70, a single shield 5A, and a single service desk 1 ,, however, this is not intended to be limiting in any way. In another embodiment, a single service control unit 8 controls a plurality of service stations 10. Similarly, a single transceiver 70 can control a plurality of coverage areas 55, preferably assuming that communication between the transceivers 7" and each coverage area 55 can be individually identified by the service control unit 8. In some embodiments, a cellular service provider associated with the NSS/CN 210 may receive money from a user associated with the mobile station from a product or service provided by the service desk. For example, the cellular service provider may have a payment settlement with an operator of the service desk 10, for example, its cellular service provider payment service operator U then receives money from the user, or • a cellular service provider The merchant can only pay for the service operator f after the self-acquisition collects the money. Or the 'honeycome service provider' can also be the operator of the service desk 10. In a particular embodiment of the invention, the mobile station (10) may be a prepaid device, for example, a call made by the mobilization station 90 and/or other operations may be prepaid. In this case, the example %, the payment of the service provided by the service desk 10, can be deducted from the prepaid amount by the amount of 098108203 23 200951848. In other specific examples, as described in more detail below, the operator of the service desk can charge the service in a variety of ways. In their specific case, an additional identification process may be required to allow the operator to identify the user. In a specific example, the 'service control unit 8' is coupled to a plurality of shields 5' and is only provided after the network authorization symbol is detected for the mobile station 9 in which each shield 5 is inserted. Taiwan's products or services. 2B illustrates a high level block diagram of an exemplary embodiment of a system for providing products or services in cooperation with both a mobile station and a cellular telephone network, providing a network switching subsystem or core network Application server for communication. System 300 includes an NSS or CN 310, a Service Control Unit Server (SCUS) 350, a BSS or MS 220, a Mobile Station Identifier Device 340, and a Service Desk 10BS BSS 220 including: BS (: 222, which is as described above Other systems are referred to as RNCs; and at least one BTS 100, which, as indicated above, may also be referred to as, for example, node β or eNode β in other standard terms. Each BTS 100 may be, for example, by The coverage of the antenna of the cell is used to define the cell. A mobile station can be attributed to a specific cell, for example, if the mobile station receives signals from the corresponding BTS 1 antenna, the quality is better than that received from other bTS 100 antennas. The quality of the signal is, for example, because the BTs 1 〇〇 antenna is closer, and/or because there are fewer obstacles between the BTS 100 antenna and the mobile station. The NSS/CN 310 includes: MSC 212 'which is different Possible configurations and/or 098108203 24 200951848 may also be referred to in other standard terms as, for example, GMSC, ΜΤΧ, 3GMSC, SGSN, access GW, or IWF-MSC; VLR 214, HLR 215, EIR 216, and AuC 218 MSC 212 can control one or more bsS 220. NSS/CN 310 and BSS 220 may be substantially as known in the art, or as provided in any mobile communication system' and will not be described in greater detail herein. The scus 35 includes an application server 313. The mobile station identifier device 340 includes a shield 50 defining a coverage area ❹ 55 and exhibiting an antenna 60 mounted therein; a transceiver 70; and a service control unit 380, and is similar in all respects to FIGS. 1A and 1B A mobile station identifier device 40. The service desk 1 is preferably juxtaposed with or associated with the mobile station identifier device 34 and includes any machine that provides a product or service. The service desk 10 can include, for example, food, cool Beverages, ticket vending machines, parking fee payers, movie ticket machines, printers, gates/doors, and/or any other suitable service desk. The service desk 10 selectively displays the input module 39〇, in fact Limited to the keypad. The BSC 222 and each BTS 100, and the mobile station identifier device that preferably acts as a BTS for the cellular network with limited capabilities, and preferably (specifically) and the transceiver 70 And with NSS /CN310 communication. The service control unit 380 communicates with the transceiver 70 and the service station 1B, and the transceiver 7A communicates with the mobile station 9A disposed in the coverage area 55, the communication being installed in the shield 50. The antenna 60 is implemented. Optionally, the mobile station identifier device 340 communicates directly with the NSS/CN 310, as indicated by the dashed connection, -°* 098108203 25 200951848 In this particular example, communication via the BSS 220 is typically not implemented. The SCUS 350 preferably communicates with each of the service control units 380. It will be understood that although only a single service control unit 380' is shown in detail, a plurality of service control units 380 and a plurality of mobile station identifier devices 340 may be provided without departing from the scope. In operation, system 300 operates in all respects similar to system 200 described above, except for the operation of SCUS 350 and application server 313 formed therein. In particular, the application server 313 operates in all respects similar to the operation of the application server 213 of the system 200 to allow the VLR 214 to send network authorization symbols to the mobile station 90, the mobile station identifier device 340 in all respects. Each operates similarly to the operation of the mobile station identifier device 4, and the service control unit 380 operates in all respects similar to the operation of the service control unit 8 with the exceptions as described below. The SCUS 350 is further operative to receive from the vlr 214 a communication reference number for each network authorization symbol enabled by the server 213. The VLR 214 proceeds further to authorize the communication reference number along with the network. The symbol is transmitted to the mobile station 90. The service control unit 38 operates to detect the presence of the network authorization symbol and is further operative to identify and store the transaction reference number, preferably coupled to the day/time stamp, the service control unit 38. Further operating to store transaction information associated with the received transaction reference, the transaction information received from the service desk 10 and associated with the enabling delivery of the product or service. In a specific example, the transaction information includes The price of the product or service delivered, and in another specific example, 098108203 26 200951848, includes a code associated with the product or service delivered. Advantageously, the user may choose from a plurality of differently priced products or services. And the authorization to deliver the product or service is not linked to the pricing information. Optionally, the SCUS 350 periodically communicates with the service control unit 8 Communication to retrieve the parent information and the associated communication reference number. The scus is further inserted to arrange payment for the transaction information retrieved in response to the associated communication reference number. © In more detail, the SCUS 350 can The user's payment details, such as payment route details and/or user credits, are included. The application server 313 can identify the user based on the details of the mobile station 90 received from the NSS/CN 310, such details in a particular example. The cellular phone number of the mobile station is 9. Based on the user's physical injury, the application server 313 can determine whether to enable the product or service from the service desk 1 to be connected to the user connected to the mobile station 90. The decision is made based on information received from NSS/CN 310, resources stored on scus 35, and/or other databases. If the user associated with mobile station 90 is approved to receive a service, then The application server 313 sends the confirmation to the NSS/CN 310, which can complete the location update procedure as described above with respect to System 2. The NSS/CN 310 responds to the authorization from the application server gig. The communication reference number is provided in one step, which is sent by the NSS/CN 310 along with the network authorization symbol to the mobile station 90. The SCUS 350 preferably receives the authorization notification provided to the NSS/CN 310 from the application server 313 along with the nss/cn 310 The received communication reference number and the mobile station 90 details. 098108203 27 200951848 The application server 313 operates to match the details of the mobile station 90 received from the NSS/CN 31〇 with the details of the approved user. For example, the application word processor 313 may include a table containing the identity of the user and/or (eg, the user's payment route details 'or 'or the application server 313 may be associated with the user's database (eg, included in the SCUS 35G) Database) communication. After the application server 313 identifies the user based on the details of the mobile stations, it preferably allows the NSS/CN 310 to proceed with the location update process. In the event that the details of the mobile station do not match the details of the user, the application server may send a rejection message to the NSS/CN 31G, which may accordingly send a rejection message or a network unauthorised symbol to the mobile station. In one embodiment, the service control unit 8 may require additional input from the user, such as a personal code and/or other identification. The service control unit 8 may require the input on the input module 390 to be coupled to the service desk 1 and preferably to provide additional input to the scus 35 prior to enabling the setting of the product or service. In an alternative embodiment, additional inputs are provided via a keypad of the mobile station. In the event that the additional input matches the pre-stored authorization information, the 350 directly provides the second level of authorization to the service control unit 8 to enable the provision of products or services from the service station 10. In yet another embodiment, the additional input entered by the user can be received by the application server 313 and can be further used to cause the mobile station 90 to be authorized by the application server 313 to the NSS/CN 310. Figure 2C illustrates a high level flow diagram of an illustrative embodiment of the operation of the system of Figures 2A, 2B. In stage 2000, a screen 098108203 28 200951848 covering 50 defining a coverage area 55 is provided. Optionally, the shield 50 at least partially defines the Faraday cage. The shield 50 is configured to attenuate radio signals originating outside of the defined coverage area 55 to below a predetermined radio signal strength. • In the optional phase 2010, the LAI is coupled to a coverage area 55 that is different from the LAI experienced by the mobile station directly outside of the coverage area 55, ie, different from the surrounding LAI. In stage 2020, the mobile station within the coverage area 55 provided by stage 2000 operates to generate a location update transaction, or request. In stage 2030, the mobile station location management procedure is performed using the phase 2020 mobility platform in accordance with the cellular network protocol. Optionally, the mobile station location management process includes: location update transaction, which can obtain identification information from the mobile station of phase 2020; and provide a network authorization symbol to the mobile station. In stage 2040, the traffic of the mobile station location management program is snooped and, in particular, the presence of the network authorization symbol is detected. Optionally, further detect and store the communication reference number. In phase 2050, the network identifier/number detected in response to phase 2040 is enabled to provide the product or service. In the optional stage 2060, in the case where a plurality of mobile stations are detected in the coverage area 55 defined in stage 2000, the provision of the provision of products or services of stage 2050 is prevented. In the optional phase 2G7G, visual or audio notifications are provided to the user without providing a product or service. Figure 3A illustrates a high level block diagram of an illustrative embodiment of a system for providing mobile station identification in cooperation with a mobile station providing products or services without reference to a cellular network 098108203 29 200951848. System 400 includes a service desk 1, a mobile station identifier device 440, an application server 42A, and a BTS 10 port. The mobile station identifier device 44A includes: a shield 50 defining a coverage area 55; an antenna 6; a transceiver 70; a radio access network emulator 41; a service control unit 48A, which exhibits an output 埠85; Mobile station 90. The mobile station 9 can be removed by the user or inserted from the coverage area 55 defined by the shield 50, and the application server 42 includes the database 425. The service desk 1 〇 selectively displays: the input module 39〇, implemented as (not limited to) a keypad; and an output device implemented as (not limited to) a printer. In the specific example, the 'radio access network emulator 41' is incorporated in the service control unit 480. The transceiver 70 is connected to the antenna 6 and to the radio access network emulator "O-Services Control Unit 48G and Radio Access Network Emulator 41Q, with the Application Server 420 and with the Service Desk. Shield 50 Coverage The area 55, the BTS 1, the mobile station, and the service desk are operated in all respects similar to the similar reference numerals of Fig. 1A. The line electric access network emulator 41G (which is in the specific example) A general purpose microcontroller, FPGA or DSP implementation) is configured to self-insert the action within the coverage area 55. In general, the radio access network emulator operates to mimic the operation of the cellular network. To the extent necessary to obtain identification information about the insertion of the coverage area 55, the trigger station 90. In more detail, the 'radio access network emulator 41' operates to continuously or 098108203 30 200951848 or periodically Transmitting, via the transceiver 70, a signal strength indicative of a predetermined radio signal strength of the BTS 100 in the coverage area 55 (which has been attenuated by the shield 50) to transmit a broadcast signal indicative of the base station associated with the cellular network. Insert The mobile station 90 in the coverage area 55 can transmit broadcast signals associated with one or more cellular networks without exceeding the category. In a specific example, the broadcast signal from the transceiver 70 and a LAI In conjunction, the LAI is different from the LAI associated with other BTS 100 units in its vicinity. 行动 The mobile station operates in response to a broadcast signal from the radio access network emulator 410, which is due to the shield 5 The signal strength in the coverage area 55 is greater than the signal from the BTS 100 to transmit the location update request. The location update request may include the current network authorization symbol (such as TMSI) and the associated network authorization symbol. The radio access network emulator 410 operates in response to the transmitted location update request 'to transmit an identity request message (also referred to as an identity request signal) to the mobile station 90. The radio access network is not required The road emulator 410 decrypts the current network authorization symbol, and in a specific example, does not take any action using the actual negative in the location update request. The identity request message is composed of consecutive blocks. In the GSM and UMTS specific examples, one of the consecutive blocks is of the type of identity block, and the field can be set as the capture and action station. The identification information associated with the actual device is set to 90. In a particular embodiment, the type of the identity field is set to a binary value of 〇〇1 and is understood by the mobile station 90 as a request for IMSI. In the example, the identity field type is set to 098108203 31 200951848 010 binary value and is understood by the mobile station 90 as a request for International Mobile Equipment Identity (IMEI). In yet another specific example, the identity field type is set to 〇U binary value and is understood by the mobile station 90 as an International Mobile Equipment Identity and Software Edition (International Mobile Equipment Identity and

Software Version, IMEISV) request. The mobile station 90 responds by transmitting the identification information in response to the transmitted identity request message, preferably in response to the type of identity block. The radio access network emulator 410 operates to retrieve the requested identity information from the response and forward the retrieved identity information to the service control unit 48. The service control unit 480 cooperates with the application server 420 and, in its particular repository 425, operates to compare the retrieved identity information with the profile information stored on the repository 425. In the event that the retrieved identity information matches the identity information stored on the repository 425, the service control unit 48 provides a product or service via the output server to signal the service desk 10. The service control unit communicates with the application server 420 over a network, such as a network or a closed network. The application server 42 operates to provide an interface that allows authorized (4) information to be loaded into the database 425. The database 425 can be shared between many service control units. The service control element is preferably further step-by-step to output an indication of the charge for the more product or service associated with the authorized identity information provided by the service desk 10 to the billing system or other (4) network. In the specific example, the billing is completed in conjunction with (4) server = 098108203 32 200951848, and the transaction record is selectively provided to the user via the output device. The Service (4) unit may require additional input to the Module 390 to interface with the Service Desk 1M prior to enabling the provision of the Product or Service. • In an alternate embodiment, the additional input is provided via the keypad of the mobile station 90. Figure 3B illustrates a high level flow diagram of an illustrative embodiment of the operation of the system of Figure 3A. In stage _, a shield 50 defining a coverage area 55 is provided. Optionally, the shield 50 at least partially defines the Faraday cage. The shield 5〇 is configured to smear the radio signal outside the cover 55 defined by the escaping to less than the expected radio signal strength. In SF 3010, a broadcast signal is transmitted in the coverage area 55 with a radio signal strength greater than the predetermined signal strength of the phase sequence. Optionally, the broadcast signal associated with the coverage area 55 exhibits an LAI that is different from the UI experienced by the mobile station directly outside of the coverage area 55, i.e., different from the surrounding LAI. Preferably, a plurality of broadcast signals are transmitted, each of which is coupled to a cellular network surrounding the coverage area 55. In stage 3020, in response to the broadcast signal, the line within the coverage area 55 • the port transmission position is updated. In stage 3030, an identity request is transmitted to the action within coverage area 55 in response to the location update request of stage 3020. Preferably, the body is presented with a location that is extracted to reveal identity information associated with one of the hardware of the mobile station or the identifier of the smart card inserted therein. 098108203 33 200951848 In stage 3040, the mobile station in the coverage area 55 compares the identity information received by the identity request 1 in response to the identity request of the phase 3 with the identity information stored in the database of the authorized identity information, and The comparison is analyzed in order ^ 3050. In the case where the identity information is authorized identity information, in stage 3060, the provision of the product or service is enabled. In the optional stage 3070, in the case where a plurality of mobile stations are detected within the coverage area defined by stage 3000, the provision of the product or service of stage 3060 is prevented. In the event that the identity information is not authorized identity information in stage 3050, the provision of the product or service is not enabled, and in optional stage 3080, a visual or audio notification is provided to the user. Therefore, this specific example is capable of responding to the products or services provided by the mobile station. Specifically, a shield defining a coverage area is provided that is configured to attenuate radio signals from any antenna external to the coverage area to less than a predetermined signal strength. The antenna is provided within the defined coverage area and is connected to the recipient. The transceiver is operative to communicate with any mobile station placed within the defined coverage area with a radio signal greater than a predetermined strength. A service control rate element and configuration is provided in response to communication between the transceiver and the mobile station. The service desk providing the product or service (preferably close to the defined coverage area) operates to provide the product or service in response to the service control unit. It will be appreciated that certain features of the invention, which are depicted in the context of a separate embodiment for clarity, may also be provided in combination in a single embodiment, 098108203 34 200951848. On the contrary, the various features of the invention, which are described in the context of a single embodiment, may be provided individually or in any suitable sub-combination. σ ' _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Although methods similar or equivalent to those described herein can be used in the practice or testing of the present invention, suitable methods are depicted herein. © Caigong _, the patent application and other references mentioned herein are hereby incorporated by reference. In case of conflict, the patent specification (including definitions) will prevail. In addition, the materials, methods, and examples are merely ambiguous and are not intended to be limiting. The terms "including", "comprising" and "having" and the same terms as used herein mean "including but not - (four) to". The term "connected" is not limited to direct connections, and specifically includes connections via intermediate devices. As will be appreciated by those skilled in the art, the present invention is not limited to the specific display and the valleys therein. In fact, the scope of the present invention is defined by the scope of the appended patent application, and includes the various Longdehe and sub-combinations of the above-mentioned teachings, as well as the modifications and modifications of those skilled in the art. Changes and modifications. BRIEF DESCRIPTION OF THE DRAWINGS In order to better understand the present invention and to show how the present invention can be implemented, reference will now be made to the accompanying drawings by way of example only. Or section. The details of the present invention are to be considered as illustrative only, and the details of the preferred embodiments of the present invention are intended to be The details that are displayed are presented in the most useful and easily understood content. In this regard, the structural details of the present invention are not intended to Several forms. 1A illustrates a high level block diagram of an illustrative embodiment of a system for providing a product or service in cooperation with a mobile station; FIG. 1B illustrates a front view of an exemplary embodiment of the shield of FIG. 1A; 1C illustrates a high level flow diagram of an illustrative embodiment of the operation of the system of FIG. 1A; FIG. 2A illustrates a high level block of an illustrative embodiment of a system for providing products or services in cooperation with both a mobile station and a cellular telephone network. Figure, which provides an application server coupled to a network switching subsystem or core network; Figure 2B illustrates an exemplary embodiment of a system for providing products or services in cooperation with both a mobile station and a cellular telephone network A hierarchical block diagram providing an application server in communication with a network switching subsystem or core network; FIG. 2C illustrates a high level flow diagram of an exemplary embodiment of the operation of the system of FIGS. 2A, 2B; FIG. 3A illustrates and acts a high-level block diagram of an exemplary embodiment of a system that provides a product or service and provides reference to the mobile station without reference to the hive 098108203 36 200951848 network; and Figure 3B illustrates a high level flow diagram of an illustrative embodiment of the operation of the system of Figure 3A. [Main component symbol description]

10 Service Desk 20 Audible Notifier 30 Visual Notifier 40 Mobile Station Recognizer Device 50 Shield 55 Coverage Area 60 Antenna 70 Transceiver 80 Service Control Unit 85 Output 埠 90 Mobile Station 100 Base Transceiver Station (BTS) 200 System 210 Network Road Handover Subsystem NSS/Core Network CN 212 Mobile Service Switch Center (MSC) 213 Application Server 214 Visitor Location Register (VLR) 098108203 37 200951848 215 Home Location Register (HLR) 216 Equipment Identity Register (EIR) 218 Authentication Center (AuC) 220 Base Station Subsystem (BSS) 222 Base Station Controller (BSC) 300 System 310 Network Switching Subsystem NSS/Core Network CN 313 Application Server 340 Mobile Station Identifier Device 350 Service Control Unit Server (SCUS) 380 Service Control Unit 390 Input Module 400 System 410 Radio Access Network Simulator 420 Application Server 425 Library 440 Mobile Station Identifier Device 480 Service Control Unit 490 Output Device 098108203 38

Claims (1)

200951848 VII. Scope of application for patents: 1· _ In the use of the mobile station to provide a system of products or services, the system includes: + shields define - coverage area, the shield is configured to be derived from outside the t-cover area The radio signal is attenuated to less than - pre-signal strength; antenna,. Arranged to be coupled to the defined coverage area; the transceiver is consuming to the antenna, the transceiver is operative to utilize a signal strength greater than the intensity of the ® pre-d number via the antenna and interpolating within the defined coverage area Mobile station communication; a service control unit; and a service desk' responsive to the service control unit, the service station operating to provide the product or service, the remote service control unit operating in response to the communication to enable the service station to provide the product or service. The system of claim 1, wherein the communication between the transceiver and the mobile station is based on establishing a cellular network protocol. 3. The system of claim 1, wherein the service control unit further operates to prevent the service station from providing the product if a plurality of mobile stations are simultaneously present in the defined coverage area. Or service. 4. If you apply for a patent scope! The system of claim wherein the shield defining the coverage area at least partially defines a Faraday cage. 5. The system of claim 1 wherein the transceiver is coupled to a 098108203 39 200951848 zone identifier. The location zone identifier is different from the mobile station directly outside the defined coverage zone. A location area identifier. 6. The system of claim 1, wherein the service desk further comprises one of an audible notifier and a visual notifier, wherein the service station is configured to not provide the product or service. In the case, the user is audibly or visually notified via the corresponding one of the audible notifier and the visual notifier. The system of any one of claims 1 to 6, wherein the transceiver is further in communication with a cellular network, and wherein the service control unit is operative to monitor the cellular network via the A network authorization symbol sent by the transceiver to the mobile station. The enabling of the service station is responsive to the detection of the network authorization symbol. 8. The system of claim 7, wherein the transceiver is a restricted capability base station of the cellular network. 9. The system of claim 7, further comprising an application server in communication with the cellular network 'the application server operates to receive one of the mobile stations from the cellular network' and optionally In response to the receiving identification of the mobile station providing authorization for one of the services, or denying authorization of one of the services, the cellular network operates to provide the network authorization symbol in response to the provided authorization*. 10. The system of claim 9, wherein the application server is further operative to debit a user associated with the mobile station phase 098108203 40 200951848 for the provision of the product or service. No. 7 is the system of the patent scope of the patent application No. 7, wherein the network authorization symbol is the part of the cellular network location management program. ^ 2. If the patent application scope is ί Ε η 4 1 to 6 of the secrets of the item, including the network simulation, the secret of the radio interface, the simulation material is received from the mobile station. Identify information. For example, the radio access © network emulator operates to: broadcast a signal with the signal strength greater than the predetermined signal strength; receive a location update request in response to the broadcast signal And transmitting an identity request in response to the receiving location update request, wherein the receiving identification information is responsive to the transmission identity request. 14. The system of claim 12, further comprising a database of authorization identification information communicated with the service control unit, the service control unit operating in response to the receiving device identification information and the database The authorization identification information is matched to enable the service to be provided. 15. A mobile station identifier device comprising: a shield defining a coverage area configured to decay a radio signal originating outside the coverage area to less than a predetermined signal strength; an antenna Cooperating with the defined coverage area; a transceiver coupled to the antenna, the transceiver operative to utilize a signal strength greater than the predetermined signal strength, via the antenna and an insertion of the defined overlay 098108203 41 200951848 region Mobile station communication; and - service control unit, operating in response to the number indication for providing - product or service - authorized outgoing - signal 'the letter 16. The transceiver of claim 15 and the mobile station A device, in which a road agreement. (4) 5 series according to - establish a cellular network 17. If the patent application scope is 15th, the service control unit is further operated, and the device is installed, wherein the platform exists at the same time = the station is in a plurality of operations. The product or service is provided in the event of a field obstacle. 18. The mobile station identifier device of claim 15 wherein the shield defining the coverage area at least partially defines a Faraday cage. . The mobile station identification control unit of any one of the fifteenth to eighteenth aspects of the medium-micro patent range operates to detect the network authorization number, miscellaneous number sent by the network to the mobile station. The output is triggered by the detection of the system authorization symbol. The mobile station identification device 'in the range of items 15 to 18 of the patent scope' includes the radio access network emulator that is connected to the transceiver. The radio access network emulator operates from The mobile station receives the identification f* message. 21. The mobile station identifier device of claim 2, wherein the radio access network emulator operates to: 098108203 42 200951848 broadcast a signal in response to the signal strength greater than the predetermined signal strength Receiving an update request by broadcasting a signal; and transmitting an identity request in response to the receiving the update request, wherein the receiving device identification information is responsive to the transport identity request 22. The mobile station identifier device of the patent application scope 帛 2G is further The database includes a database of authorized information relating to the service control unit. The control unit operates to output the indication signal in response to the receiving device identification information conforming to the authorization identification information on the database. 23. A method of using a mobile station to provide a product or service. The method comprises: 4 providing a y shield to define a coverage area configured to attenuate radio signals originating outside of the coverage area to less than a predetermined Signal Strong Utilization - Signal strength greater than the predetermined signal strength is communicated with the mobile station within the defined coverage area; and the provision of the product or service is enabled in response to the communication. 24. The method of claim 23, wherein the communication with the mobile station is based on a cellular network agreement. 25. If the method of applying for the scope of patent No. 23 includes, in the case of a plurality of mobile stations defining the coverage area (4), the provision of the product or service of any of the plurality of mobile stations is prevented. The method of claim 23, wherein the providing shield 098108203 43 200951848 at least partially defines a Faraday cage. 27. The method of claim 23, further comprising associating a location area identifier with the provided coverage area, the location area identifier being different from a location experienced by the mobile station directly outside the defined coverage area Area identifier. 28. If the method of claim 23 is applied, it also includes visually or audibly notifying a user if the product or service is not available. 29. The method of any one of claims 23 to 28, wherein the communication is responsive to a cellular network, the method further comprising: detecting, transmitting, by the cellular network to the mobile station A network authorization symbol that is responsive to the detection of the network authorization symbol. 30. The method of claim 29, further comprising: obtaining an identification of the mobile station; and providing an authorization for the product or service in response to the identification of the mobile station, the network authorization symbol responding to The product or service should be sent with authorization. 31. The method of claim 30, further comprising: debiting a user associated with the mobile station for the provision of the product or service. 32. The method of any one of claims 23 to 28, further comprising 098108203 44 200951848 comprising: extracting identification information from the mobile station, the enabling response to the identified identification. The method of claim 32, wherein the capturing device information comprises: broadcasting a signal with the signal strength greater than the predetermined signal strength; receiving an update request in response to the broadcast signal; and φ responding Transmitting an identity request in response to receiving the update request, wherein the retrieval identification information is responsive to the transmission identity request. 098108203 45