KR100823572B1 - Method and system for accessing intelligent network and related devices - Google Patents

Abstract

The present invention discloses an intelligent network access method and system and related apparatus according to the present invention, wherein user input information is stored in advance in an external audio frequency signal generator of a user terminal, and the audio frequency signal demodulation unit is a service switch point of the intelligent network. Pre-configured for Advanced Intelligent Peripheral (SSP / AIP) devices. The access procedure may include: receiving, by the user terminal, audio frequency signals carrying the user input information transmitted by the audio frequency signal generator, and forwarding the signals to the SSP / AIP device through the transmission network; The audio frequency signal demodulation unit in the SSP / AIP device demodulates the audio frequency signals and transmits the demodulated user input information to the SCP of the intelligent network; The SCP includes controlling the user terminal to access the intelligent network according to the user input information. The present invention simplifies the operation process of the user for accessing the intelligent service and brings convenience to the user.

Intelligent network, smart card, multi-purpose billing service, authentication server, demodulation

Description

Intelligent network access method and system and related devices {METHOD AND SYSTEM FOR ACCESSING INTELLIGENT NETWORK AND RELATED DEVICES}

The present invention relates to network connection technologies, in particular methods and systems for connecting intelligent networks, audio frequency signal generators and service switch points / advanced intelligent peripherals of such systems.

An intelligent network is a concept standardized by the CCITT in 1992. It refers to a system that can create and access a variety of new services in a fast, convenient, flexible, economical and very efficient way. The purpose of the intelligent network is to provide services for all communication networks.

1 shows a user terminal 101, a transmission network 110, a service switch point / advanced intelligent peripheral (SSP / AIP) 120, and a service control point (FIG. It is a schematic diagram showing the basic configuration of an intelligent network including a Service Control Point (SCP), 130.

Here, the user terminal 101 may be a fixed telephone set or a mobile phone, and the transmission network 110 may be a public switch telephone network (PSTN) or a wireless communication network such as GSM and CDMA.

The SSP is responsible for accessing call processing functions and service switch functions. AIP is a special resource that supports to achieve intelligent services and is generally for example voice synthesis, play announcement, dual tone multi-frequency dial voice functions such as reception of multi-frequency dials, speech recognition, etc. The AIP may be part of an independent physical device or SSP.

The SCP is a key function of the intelligent network. It serves to store user data and service logics, its main functions being to receive query information from the SSP, to query the database, and to perform various decoding procedures. At the same time, it also activates other service logics according to call events reported by the SSP, and controls call with the corresponding SSP according to the service logics to access various intelligent calls. Send call control instructions.

Recently, the intelligent network includes a free phone (FPH), an account card call (ACC), a virtual private network (VPN) service, a versatile billing service, Wide Area Centrex (WAC) Service, Universal Personal Telecommunication (UPT), On-line Emergency Phone Service, Mass Call Service (MAS) Many types of services have been disclosed, including Free Call Forwarding Service and Personalized Services.

Here, the ACC service allows its users to make calls on any dual-tone telephone set, charge the call within a specified account, and this particular account Included in the serial number of the account card. When a user uses the ACC service, he can first dial the access number for all dual-tone telephone sets within the area covered by the ACC service, and then to the voice prompts that follow. Accordingly dials his card number and corresponding password for the telephone set. After the system checks and authenticates the card number and password, the user can dial the called number as in a normal call. For example, the card 200, the card 201, the card 300, the IP card, and the Yitong Card all belong to a password ACC service.

Now take the card 200 as an example. The following operations are performed to access the service 200.

1. The user dials 200 and a voice prompt is displayed, "Welcome to use the service 200. Press your card number."

2. The user dials ten digits or more than ten digits and a voice prompt " Press Your Password. &Quot;

3. The user dials his password, six digits or six or more digits, and a voice prompt " press the receiving number " is output.

4. The user dials the received number.

When accessing service 200, it is clear that the user must dial long strings of card number and password number, and if they make a mistake in the dialing process, they have to dial these numbers once more, thus, this kind of Using the service is very annoying.

This problem also exists in the multipurpose billing service provided by the intelligent network. In brief, the multipurpose billing service allows the intelligent network to provide a pay account to the user, with which the user may pay costs including water, electricity, expenses for online shopping, and the like. It is related to that. When the user uses the multipurpose billing service, he can dial the access number for all dual-tone telephone sets within the area covered by the multipurpose billing service, and then in accordance with the following voice prompts. Enter the item he is to pay for the phone set, his account number and the corresponding password. Once the dialed account and password are checked and authenticated, the system performs the associated expense tasks. The following operations are performed to access the service.

1. The user dials the access number of the multipurpose billing service and selects the item he is to pay according to the following voice prompt.

2. After the user dials his account number, a voice prompt is displayed, "Press your password."

3. After the user dials his password, the system queries the cost for the item to be paid by the user, performs the corresponding actions, and notifies the user of the payment status.

Thus, when the user accesses the multi-purpose billing service, he must surely remember his account number, and he needs to dial long strings of account number and password, and he needs to dial these numbers if he makes a mistake while dialing. You must dial once more. Therefore, using the multi-purpose billing service is also very cumbersome.

In addition, in the case of other services, such as the UPT service, the user must remember relevant information including the access number as well as the universal number and the password, and the information must be stored for service registration. You must enter it manually. For example, in the case of an UPT service in which one user has a plurality of communication terminals and numbers, the user combines his plurality of communication terminal numbers into a single UPT service number. You can simply call the other person on this number. When someone dials this number, the UPT service replaces this number with the actual number of the user concerned.

The UPT service provides the user with the ability to combine the numbers of the communication devices of the user with its UPT service number. The traditional task to implement this functionality is to dial the number for the user to access the UPT service, enter its UPT service number and password, and follow the number association procedure in accordance with voice prompts. To do. This association process is called registration process for the UPT service.

This registration task becomes complicated in operation, and the user must enter and store the associated information including the access number, the UPT service number, and the password.

UPT service manual dialing registration allows the user to manually dial the access number of the UPT service, and then complete the UPT according to voice prompts to complete the operation to combine the current call number with the UPT service number. Indicates dialing the number and password of the service.

UPT service manual dialing registration causes the following problems.

1. The technical scheme of manual dialing for telephone set registration requires the user to store association information, such as the UPT service access number, which burdens the user with additional storage.

2. The technical scheme of manual dialing for telephone set registration requires the user to manually enter the UPT service information such as the service access number, the service number and the password. Therefore, the task becomes complicated, and there is a possibility of a mistaken input in an operation process which causes inconvenience in use.

3. The technical scheme of manual dialing for telephone set registration requires the user to manually enter his UPT service number and password, and thus is vulnerable to security. The number can be seen in the dialing process, which can result in the number being stolen.

Therefore, in the process for accessing the intelligent network, there is a problem that the user has to store a lot of information for the operation, and the input operation is not only cumbersome but also the safety of the input is low.

In view of the above, the present invention provides an intelligent network access method for simplifying the operation process of the user and facilitating the use by the user.
In addition, the present invention may provide not only an audio frequency signal generator and a service switch point / advanced intelligent peripheral device, but also a system for connecting the intelligent network in which the devices are used, which can significantly simplify the operation process of the user. Can be.

According to the present invention, the intelligent network access method stores the user's input information in advance in the external audio frequency signal generator of the user terminal, and in advance the service switch point / advanced intelligent peripheral device (SSP) of the intelligent network. / AIP) device) to set the audio frequency signal demodulation unit. The service connection process is:

A. receiving audio frequency signals carrying the user input information transmitted by the audio frequency signal generator, and transmitting, by the user terminal, the signals to a switching device in a transmission network;

B. transmitting the received audio frequency signals from the switching device to the SSP / AIP device over the transmission network;

C. demodulate the received audio frequency signals carrying the user input information, and input the user input information by the audio frequency signal demodulation unit in the SSP / AIP device. SCP)); And

D. connecting the user terminal to the intelligent network according to the user input information by the SCP.

Wherein the audio frequency signal generator may be an audio frequency signal generator capable of generating DTMF audio frequency signals or FSK audio frequency signals;

The user input information stored in the audio frequency signal generator carries a service access number and service registration information.

When the user accesses the intelligent network for service registration:

Step A, the user terminal first receives DTMF audio frequency signals of the service access number generated by the audio frequency signal generator, and transmits the signals to the switching device in the transmission network; After a predetermined time has elapsed, the user terminal receives DTMF audio frequency signals or FSK audio frequency signals of the service registration information generated by the audio frequency signal generator, and transmits the signals to the switching device in the transmission network. Transmitting to;

In step B, the switching device receives the DTMF audio frequency signals of the service access number, triggers an intelligent service according to the service access number, and then the switching device then transmits the transmission network in accordance with the intelligent service. Transmitting the DTMF audio frequency signals or FSK audio frequency signals of the service registration information received via the SSP / AIP;

In step C, the audio frequency signal demodulation unit in the SSP / AIP device demodulates the received DTMF audio frequency signals or FSK audio frequency signals of the service registration information, and converts the demodulated service registration information to the SCP of the intelligent network. Transmitting to;

Step D includes the SCP registering the user terminal as an intelligent service terminal according to the service registration information.

The service registration information previously stored in the audio frequency signal generator may carry a registration number and a password of the user. If the registered service is a UPT service, the registration number of the user is a UPT service number registered by the user.

Step D may include the SCP storing the received registration number and password of the user and registering the user terminal as an intelligent service terminal.

The service registration information stored in advance in the audio frequency signal generator may carry a personal ID and a password of the user.

In step D, the SCP stores the received personal ID and password of the user, and transfers the user terminal to the intelligent service terminal according to a combined relationship between the personal ID of the user and the intelligent service stored in the SCP. May include registering.

Step B causes the switching device to receive the DTMF audio frequency signals of the service access number, causing the SCP to trigger the intelligent service according to the service access number, and the SCP according to the intelligent service to the switching device And transmitting the received DTMF audio frequency signals or FSK audio frequency signals of the service registration information to the SSP / AIP device through the transmission network according to the intelligent service.

The audio frequency signal generator may be a device capable of generating DTMF signals or a device capable of generating FSK signals.

The personal input information stored in the audio frequency signal generator carries the user information.

When the user connects to the intelligent network to receive the intelligent service:

Step A is

A1. Receiving, by the user terminal, a connection request manually input by the user, and transmitting the request to the SSP / AIP through the transmission network of the intelligent network;

A2. Transmitting, by the SSP, a portion of prompt information using the user terminal through the transmission network according to the connection request; And

A3. Receiving, by the user terminal, DTMF audio frequency signals or FSK audio frequency signals carrying user information, generated by the audio frequency signal generator, and transmitting to the switching device in the transmission network;

Includes:

Step B includes the switching device sending the received DTMF audio frequency signals or FSK audio frequency signals to the SSP / AIP via the transmission network:

Step C includes demodulating the received DTMF audio frequency signals or FSK audio frequency signals by the audio frequency signal demodulation unit in the SSP / AIP device, and transmitting the demodulated user information to the SCP of the intelligent network; :

Step D includes the SCP performing the following connection steps of the intelligent service in accordance with the connection request.

Step D authenticates the received user information by the SCP; If the authentication is successful, perform the following steps of the intelligent service by the SCP according to the connection request; If the authentication is not successful, it may include notifying the SSP that the authentication is not successful by the SCP, and providing an authentication failure prompt message by the SSP using the user terminal through the transmission network. have.

The method may further comprise setting an authentication unit in the intelligent network;

The DTMF audio frequency signals or FSK audio frequency signals transmitted by the audio frequency generator are audio frequency signals carrying encrypted user information;

Step C records the encrypted user information demodulated immediately by the SCP, and transmits the encrypted user information that has been demodulated this time and the encrypted user information that has been demodulated immediately before to the authentication unit; Authenticate the encrypted user information that has been demodulated at this time in accordance with the encrypted user information that has been demodulated immediately before by the authentication unit; If the authentication is successful, return the encrypted user information to the SCP by the authentication unit; Otherwise, return an authentication failure message to the SCP by the authentication unit; Thereafter, notifying the SSP of the authentication failure by the SCP, and providing an authentication failure prompt message by the SSP using the user terminal through the transmission network;

Step D further includes decrypting, by the SCP, the encrypted user information before performing the following steps of the intelligent network.

The authentication unit may be an authentication module or authentication server in the SCP that performs information interaction with the SCP via TCP / IP.

The user information stored in advance in the audio frequency signal generator may carry a card number of an account card calling (ACC) service or a card number and password of the ACC service.

The user information stored in advance in the audio frequency signal generator may carry the account number of the user of the Versatile Billing Service or the account number and password of the user of the Versatile Billing Service.

Prior to demodulation of the audio frequency signals, step C includes the audio frequency signals transmitted by the audio signal generator in accordance with the characteristics of the received signals by the SSP / AIP device. Determine whether to convert from; If the signal was converted from the audio frequency signals, demodulate the signals; Otherwise, further comprising reading the user input information from the signals in the original mode of the intelligent service.

The audio frequency signal generator may be an audio frequency generator including a triggering device and an audio frequency smart card.

The input information of the user is stored in the audio frequency smart card.

The user terminal may be a fixed telephone set, a mobile terminal, or a microphone connected to a computer. The transmission network may be a PSTN or a wireless communication network. The wireless communication network may be GSM or CDMA.
The intelligent network access system according to the present invention includes at least one user terminal, a transmission network, a service switch point / advanced intelligent peripheral device (SSP / AIP), and a service control point (SCP). Wherein the system is:
At least one audio frequency signal generating device coupled to at least one of said user terminals for generating audio frequency signals carrying user input information and for transmitting said generated audio frequency signals to said connected user terminal; ;
Wherein the user terminal is further used to forward the audio frequency signals received from the user terminal to the SSP / AIP via the transmission network;
The SSP / AIP further comprises an audio frequency signal demodulation unit for demodulating the received audio frequency signals from the transmission network to obtain input information of the user and for transmitting the demodulated user input information to the SCP. To;
The SCP is used to control the user to access the network according to the received user input information.
The audio frequency signal generator comprises: an audio frequency smart card and an external triggering device;
Wherein the audio frequency smart card further comprises a chip used for storing the user input information;
When the audio frequency smart card is inserted into the external triggering device, the external triggering device confirms the user input information stored in the audio frequency smart card, generates audio frequency signals according to the user input information, and the audio Output frequency signals to the user terminal via its audio interface.
The system receives the user input information from the SCP, authenticates the received user input information according to the user input information received immediately before, and returns the user input information that has passed authentication to the SCP; In other cases, if the authentication fails, further including an authentication unit connected to the SCP to return a portion of the authentication failure information to the SCP.
The audio frequency generating device according to the present invention includes an audio frequency smart card and an external triggering device, wherein the audio frequency smart card further comprises a chip used for storing the user input information; When the audio frequency smart card is inserted into the external triggering device, the external triggering device confirms the user input information stored in the audio frequency smart card, generates audio frequency signals according to the user input information, and the audio Output frequency signals to the user terminal via its audio interface.
The Service Switch Point / Advanced Intelligent Peripheral (SSP / AIP) according to the present invention demodulates received audio frequency signals to obtain user input information, and then demodulates the demodulated user input. An audio frequency signal demodulation unit for outputting information.

According to the technical scheme of the present invention, the intelligent network access method according to the present invention sets an audio frequency signal demodulation unit in the SSP / AIP device of the intelligent network, and provides service information or a user in the external audio frequency signal generator of the user terminal in advance. Store information; The user terminal receives the audio frequency signals together with the user input information transmitted by the audio frequency signal generator and transmits the signals to the transmission network; The transmission network sends the signals to the audio frequency signal demodulation unit in the SSP / AIP device; The audio frequency signal demodulation unit in the SSP / AIP device demodulates the received audio frequency signals and transmits the demodulated input information of the user to the SCP; The SCP shows that the intelligent service connection is performed according to the received service information or user information.

In the present invention, the user may use the audio frequency signals generated by the audio frequency signal generator in place of all or part of the manual input information to avoid the annoying task of entering a long portion of information, instead, The user only needs to trust the audio frequency signals generated by the audio frequency signal generator. Therefore, the operation process of the user is simplified, and the use of the user is greatly facilitated.

1 is a schematic diagram showing the basic configuration of an intelligent network.

2 is a schematic diagram illustrating the operation of an audio frequency smart card and an external triggering device.

3 is a schematic diagram showing the configuration of an intelligent service according to a preferred embodiment of the present invention.

4 is a flowchart illustrating a process of registering a UPT service in the intelligent service illustrated in FIG. 3.

FIG. 5 is a flowchart illustrating a process of accessing the intelligent network service shown in FIG. 3.

DETAILED DESCRIPTION A detailed description of the present invention is given below with reference to the embodiments and the accompanying drawings, and thus the objects, technical schemes and effects of the present invention will become more apparent.

In the intelligent network access method according to the present invention, the audio frequency signals generated by the audio frequency signal generating apparatus for transmitting the user input information required to be input by the user to the intelligent service system (intelligent service system) And an audio frequency signal demodulation unit is set in the SSP / AIP device of the intelligent network to demodulate the user input information, so that the intelligent network accesses the demodulated input information of the user. Can be.

In the present invention, the audio frequency signal generator may be an audio frequency signal generator capable of generating and transmitting DTMF audio frequency signals and / or FSK audio frequency signals. For example, it may be an audio frequency signal generating device comprising a triggering device and an audio smart card, which may also store the user input information in the audio smart card.

2 is a schematic diagram showing the operation of the audio frequency smart card and an external triggering device, wherein the chip 201 on the audio frequency smart card 200 is used to store the number information. After the audio frequency smart card 200 is inserted into the external triggering device 210, the external triggering device 210 recognizes the number information, with an authentication sequence signal type similar to MODEM. It continues to transmit the number information through its audio interface.

The present invention employs the audio frequency smart card and the external triggering device as shown in FIG. 2, wherein the audio frequency smart card 200 is capable of transmitting DTMF audio frequency signals or FSK audio frequency signals carrying user information. Triggered by the external triggering device 210 to transmit. The service access number, service information or user information is stored in advance in the chip 201 of the smart card.

3 is a schematic diagram showing the configuration of an intelligent service according to a preferred embodiment of the present invention. The difference between the configuration of the present embodiment and the configuration shown in FIG. 1 is: An audio frequency signal demodulation unit 311 is provided in an SSP / AIP device 310 of the intelligent network. Set, it can demodulate the received audio frequency signals carrying the user input information, further carrying the service information or user information, and also send the demodulated service information or user information to SCP 300 Can be. At the same time, an authentication server (Authentication Server) 301 is set in this embodiment, which can perform information interaction with SCP 300 via TCP / IP. In this embodiment, the user terminal is a fixed telephone set 330 and the transmission network is a PSTN 320. In the present embodiment, the audio frequency signal demodulation unit 311 may demodulate DTMF signals or FSK signals. Since the audio frequency signal demodulation unit can adopt an audio frequency signal demodulation mode generally adopted in the industry for audio frequency signal demodulation, no further detailed description is provided.

Here, the user terminal 330 receives an encrypted service access number and service information transmitted by the audio frequency smart card or audio frequency signals carrying the user information, and transmits the signals to the transmission network 320. To; The transmission network (320) transmits the service information or the user information to the audio frequency signal demodulation unit (311) of the SSP / AIP device (310); The audio frequency signal demodulation unit (311) demodulates the received audio frequency signals and transmits the demodulated service information or user information to SCP (300); SCP 300 stores the encrypted user information demodulated immediately before, and encrypts the encrypted service information or user information that has been demodulated at this time and the encrypted service information or user information that has been immediately demodulated, that is, an authentication unit. , To an authentication server 301 according to the present embodiment; The authentication server 301 performs authentication for the encrypted service information or user information that has been demodulated at this time according to the encrypted service information or user information that has been demodulated before, and the service information or user information that has passed authentication Return to SCP 300 or return a piece of authentication failed information to SCP 300 when authentication fails; SCP 300 decrypts the received service information or user information, and performs an intelligent service according to the decoded service information or user information.

In this embodiment, the encrypted input information of the user is used to guarantee information security and an authentication unit is added. In practical applications, the encrypted or unencrypted input information of the user may be used according to the requirements of the data safety level, and the authentication unit may or may not be added.

In this embodiment, the user terminal is a fixed telephone set, and the transmission network is a PSTN. In practical applications, the user terminal may also be a microphone connected to a mobile terminal or a computer, and the transmission network may be a wireless communication network such as GSM or CDMA.

In this embodiment, the authentication unit is an authentication server that performs information interaction with the SCP via TCP / IP. In practical applications, the authentication unit may also be an authentication module in the SCP.

FIG. 4 is a flowchart illustrating a UPT service registration process in the intelligent service system shown in FIG. 3. In this signal flow, the UPT service access number and the service registration number carrying a user registration number and user password are stored in advance in the audio frequency smart card. The signal flow includes the following steps:

Step 401: the fixed telephone set 330 receives DTMF audio frequency signals of the service access number sent by the audio frequency smart card 340 and transmits the signals to a switching device in a PSTN 320; After a predetermined time has elapsed, the fixed telephone set 330 receives FSK audio frequency signals carrying the service registration information sent by the audio frequency smart card 340, and the switching in the PSTN 320. Send the signals to the device.

Step 402: the switching device receives DTMF audio frequency signals of the service access number and triggers an intelligent service in SCP 300 according to the service access number; The SCP 300 controls the switching device according to the intelligent service, and transmits the received FSK audio frequency signals of the service registration information to the SSP / AIP device 310 through the PSTN 320.

Step 403: While receiving the audio frequency signals, the SSP / AIP device 310 performs the audio frequency signal sent by the audio frequency smart card 340 according to the characteristics of the received audio frequency. Determine whether or not to lift the device; If yes, perform step 404; Otherwise, the SSP / AIP device 310 reads the service registration information from the signals in the original mode of the intelligent service.

Step 404: The audio frequency signal demodulation unit 311 in the SSP / AIP device 310 demodulates the received FSK audio frequency signals in the service registration information, and sends the demodulated service registration information to the SCP 300 in the intelligent network. To send).

Step 405: SCP 300 stores the received user registration number and password in the service registration information and registers the fixed telephone set 330 as a UPT service terminal.

In this embodiment, the service registration information stored in the audio frequency smart card in advance may be the personal ID and password of the user. In the process described above, step 405: SCP 300 stores the received personal ID and password of the user, and the association relationship between the user ID of the user and the UPT service number stored in SCP 300 Therefore, the fixed telephone set 330 may be registered as an intelligent service terminal.

The service adopting this embodiment for registering the UPT service can simplify the registration operation of the user in the intelligent service.

In practice, the user can first select the receiver and then trigger the audio frequency card to transmit DTMF audio frequency signals by pressing the corresponding button (s) of the audio frequency card triggering device. . After receiving the DTMF signals, the telephone set transmits the DTMF signals to a PSTN terminal exchange device. The exchange device analyzes the DTMF signals and then connects to the UPT service. Thereafter, association registration of the current originating party and the user's UPT service number is completed by the UPT service. The method relies on the DTMF signals transmitted by audio frequency technologies to realize a one-off combined registration of the UPT service number and the calling number.

It requires forwarding the UPT service access number, the UPT service number and the UPT service password to the exchange once to realize the one-time registration of registration of the UPT service number and the calling number. In this mode there may be a case where the numbers are too long for the switching device to receive. Therefore, in this embodiment, a secondary reception method for the numbers for realizing the combined registration of the UPT service and the calling number is adopted, i.e., the user is responsible for the UPT service number and the calling number. To realize the combined registration of the first, first connect to the UPT service using DTMF signals transmitted by the audio frequency card, and then use DTMF signals or FSK signals transmitted by the audio frequency card. Pass UPT service number and password.

According to the invention, it is clear that when the user registers the UPT service, the user does not need to enter a long service access number, UPT service number and user password, which avoids input mistakes and uses It is convenient to

FIG. 5 is a flowchart illustrating a process of accessing the intelligent service system shown in FIG. 3.

In this process, the user information is only the encrypted card number and password of the calling card or the encrypted card number of the calling card. Also in practical applications, the user information may not be encrypted. In addition, when accessing the multipurpose billing service, the user information may be the account number of the user or the account number and password of the user, and the account number and password may or may not be encrypted. In fact, the audio frequency card can store all digital information not limited to the aforementioned user information, such as card number, account number and the like. Thus, in practical applications, the audio frequency may be provided to store other digital information to be input to the system.

This signal flow includes the following steps:

Step 501: The fixed telephone set 330 receives the intelligent service access number input by the user and transmits the intelligent service access number to the SSP / AIP device 310 through the PSTN 320.

Step 502: The SSP / AIP device 310 is referred to the user by the fixed telephone set 330 through the PSTN 320 in accordance with the connection request, in order to require the user to enter his or her card number and password. Send prompt information.

Step 503: The fixed telephone set 330 receives the FSK audio frequency signals transmitted by the audio frequency smart card 340 according to the use by the user, and sends the signals through the PSTN 320 to the SSP. / AIP device 310 to send.

Step 504: The SSP / AIP device 310 receives the audio frequency signals transmitted from the PSTN 320, wherein the signals are transmitted by an audio frequency card in accordance with the characteristics of the received audio frequency signals. Determine whether they are frequency signals; If yes, perform step 505; Otherwise, perform the original intelligent service signal flow.

Step 505: The audio frequency signal demodulation unit 311 in the SSP / AIP device 310 demodulates the received audio frequency signals and transmits the demodulated encrypted user card number and password to SCP 300. .

Step 506: SCP 300 queries the database for the immediately demodulated encrypted user card number and password, and the encrypted user card demodulated immediately before the encrypted user card number and password that has been demodulated this time for authentication. The number and password are sent to the authentication server 301.

Step 507: the authentication server 301 authenticates the decrypted encrypted user card number and password according to the immediately decrypted encrypted user card number and password; If the authentication is successful, perform step 508; Otherwise, the authentication server 301 returns an authentication failed message to SCP 300, and SCP 300 notifies the SSP / AIP 310 of the information; The SSP / AIP 310 then voice prompts by the fixed telephone set 330 via the PSTN 320 to inform the user that the user's card number and password are incorrect. send a voice prompt and prompt the user to retype the user's card number and password. The user then enters the card number and password again and returns to step 503. Or if the user does not input information, terminate the signal flow.

Step 508: The authentication server 301 sends the encrypted user card number and password that passed the authentication to SCP 300, and SCP 300 decrypts the encrypted user card number and password.

Step 509: SCP 300 confirms the decrypted user card number and password; If the authorization is successful, access the intelligent network and continue performing the intelligent service; Otherwise, SCP 300 notifies the SSP / AIP 310 that the verification is not successful, and the SSP / AIP 310 informs the user that the card number and password of the user are correct. A voice prompt is sent to the user by the fixed telephone set 330 via PSTN 320 to notify the user that the user is not, prompting the user to re-enter the user's card number and password. Also, after the user re-enters the card number and password of the user, the process returns to step 503. If the user does not input information, the signal flow may be terminated.

In this embodiment, the audio frequency smart card 340 may also transmit the card number and password of the user to the transmission network through DTMF signals.

In this embodiment, an authentication server 302 may be added within the intelligent service system. In practical applications, it may also be designed as a software authentication module set up within SCP 300; In the case where the card number and password stored in the audio frequency smart card are not encrypted, no authentication server or module is set, and the aforementioned steps 506-508 are unnecessary. According to this embodiment, the authentication server 301 is set up to enhance security.

By adopting the service connection process in this embodiment according to the present invention, the connection operation of the user in the intelligent service is simplified. Also, if the service 200 is used as an example again while accessing the service 200, the following operation may be performed:

1. The user dials 200 and a voice prompt is displayed, "Welcome to use the service 200. Enter your card number and password."

2. The user triggers an audio frequency smart card, and the output card number and password are entered into the system through the fixed telephone set set by the user's use and said "Press the receive number." The system's voice prompt is output.

4. The user dials the received number.

When the user connects to the service 200, it is clear that he does not need to enter the long card number and password, which avoids typing mistakes and is convenient for use.

From the above embodiments, the method for accessing an intelligent network according to the present invention does not require the user to input long user information, thus simplifying the operation process of the user for accessing the intelligent service, and consequently It can be seen that it brings convenience to the user.

Claims (25)

The user's input information is stored in the external audio frequency signal generator of the user terminal, and the audio frequency signal demodulation unit is a service switch point / advanced intelligent peripheral device (SSP /) of an intelligent network. In a method for accessing an intelligent network configured in an AIP) device), A. receiving audio frequency signals carrying the user input information transmitted by the audio frequency signal generator, and transmitting, by the user terminal, the signals to a switching device in a transmission network; B. transmitting the received audio frequency signals from the switching device to the SSP / AIP device via the transmission network; C. demodulate the received audio frequency signals carrying the user input information, and input the user input information by the audio frequency signal demodulation unit in the SSP / AIP device. Step C); And D. connecting the user terminal to the intelligent network according to the user input information by the SCP D Intelligent network access method comprising a. The method of claim 1, The audio frequency signal generator is an audio frequency signal generator capable of generating DTMF audio frequency signals or FSK audio frequency signals; The user input information stored in the audio frequency signal generator includes a service access number and service registration information; And When the user accesses the intelligent network for service registration, Step A, the user terminal first receives DTMF audio frequency signals of the service access number generated by the audio frequency signal generator, and transmits the signals to the switching device in the transmission network; After a predetermined time has elapsed, the user terminal receives DTMF audio frequency signals or FSK audio frequency signals of the service registration information generated by the audio frequency signal generator, and transmits the signals to the switching device in the transmission network. To send to, In step B, the switching device receives the DTMF audio frequency signals of the service access number, triggers an intelligent service according to the service access number, and then the switching device according to the intelligent service Transmitting the DTMF audio frequency signals or FSK audio frequency signals of the service registration information received through the transmission network to the SSP / AIP, The step C is characterized in that the audio frequency signal demodulation unit in the SSP / AIP device demodulates the received DTMF audio frequency signals or FSK audio frequency signals of the service registration information, and the demodulated service registration information is stored in the intelligent network. Including sending to SCP, and Step D includes the SCP registering the user terminal as an intelligent service terminal according to the service registration information, Intelligent network connection method. The method of claim 2, And the service registration information previously stored in the audio frequency signal generator includes a registration number and a password of the user. The method of claim 3, If the registered service is a UPT service, the registration number of the user is an UPT service number registered by the user. The method of claim 3, The step D includes the SCP storing the received registration number and password of the user, and registering the user terminal as an intelligent service terminal. The method of claim 2, And the service registration information previously stored in the audio frequency signal generator includes a personal ID and a password of the user. The method of claim 6, In step D, the SCP stores the received personal ID and password of the user, and sets the user terminal according to the combined relationship between the personal ID of the user and the intelligent service stored in the SCP. Intelligent network access method comprising the step of registering with. The method of claim 2, The step B causes the switching device to receive the DTMF audio frequency signals of the service access number, cause the SCP to trigger the intelligent service according to the service access number, and the SCP switches the switching according to the intelligent service. And controlling the device, and transmitting the received DTMF audio frequency signals or FSK audio frequency signals of the service registration information to the SSP / AIP device through the transmission network according to the intelligent service. Way. The method of claim 1, The audio frequency signal generator is an apparatus capable of generating DTMF signals or an apparatus capable of generating FSK signals; The personal input information stored in the audio frequency signal generator includes the user information; And When the user connects to the intelligent network to receive the intelligent service: Step A is A1. Receiving, by the user terminal, a connection request manually input by the user, and transmitting the request to the SSP / AIP through the transmission network of the intelligent network; A2. Providing, by the SSP, part of prompt information using the user terminal through the transmission network according to the connection request; And A3. Receiving, by the user terminal, DTMF audio frequency signals or FSK audio frequency signals carrying user information, generated by the audio frequency signal generator, and transmitting to the switching device in the transmission network. Includes: The step B includes the switching device sending the received DTMF audio frequency signals or FSK audio frequency signals to the SSP / AIP via the transmission network: Step C includes demodulating the received DTMF audio frequency signals or FSK audio frequency signals by the audio frequency signal demodulation unit in the SSP / AIP device and transmitting the demodulated user information to the SCP of the intelligent network. And: The step D comprises the SCP performing the following connection steps of the intelligent service according to the connection request. The method of claim 9, Step D is Authenticate the received user information by the SCP; If the authentication is successful, perform subsequent steps of the intelligent service by the SCP according to the connection request; If the authentication is not successful, further comprising notifying the SSP that the authentication is not successful by the SCP, and providing an authentication failure prompt message by the SSP using the user terminal through the transmission network. Intelligent network connection method, characterized in that. The method of claim 9, Setting up an authentication unit in the intelligent network; The DTMF audio frequency signals or FSK audio frequency signals transmitted by the audio frequency generator are audio frequency signals carrying encrypted user information; Said step C records said encrypted user information demodulated immediately by said SCP, and transmits said encrypted demodulated information this time and said immediately encrypted demodulated user information to said authentication unit; Authenticate the encrypted user information that has been demodulated at this time in accordance with the encrypted user information that has been demodulated immediately before by the authentication unit; If the authentication is successful, return the encrypted user information to the SCP by the authentication unit; Otherwise, return an authentication failure message to the SCP by the authentication unit; Thereafter, notifying the SSP of the authentication failure by the SCP, and providing an authentication failure prompt message by the SSP using the user terminal through the transmission network; The step D further includes decrypting the encrypted user information before performing subsequent steps of the intelligent service by the SCP. The method of claim 11, And the authentication unit is an authentication module or authentication server in the SCP that performs information interaction with the SCP via TCP / IP. The method of claim 9, And the user information stored in the audio frequency signal generator in advance includes a card number of an account card calling (ACC) service or the card number and a password of the ACC service. The method of claim 9, The user information stored in advance in the audio frequency signal generator includes an account number of the user of the Versatile Billing Service or the account number and password of the user of the Multi-Purpose Billing Service. Intelligent network connection method. The method according to any one of claims 1, 2 and 9, Prior to demodulation of the audio frequency signals, the step C is performed by the SSP / AIP device in which the signals are transmitted by the audio signal generator in accordance with the characteristics of the received signals. Determine whether they are converted from If the signal was converted from the audio frequency signals, demodulate the signals; Otherwise, further comprising reading the user input information from the signals in the original mode of the intelligent service. The method of claim 1, The audio frequency signal generating apparatus is an intelligent network access method comprising an audio frequency generating device including a triggering device and an audio frequency smart card. The method of claim 1, The user terminal is a fixed telephone set, a mobile terminal, or a microphone connected to a computer; The transmission network is an intelligent network access method, characterized in that the PSTN or wireless communication network. The method of claim 17, The wireless network is intelligent network access method, characterized in that GSM or CDMA. An intelligent network access system comprising at least one user terminal, a transmission network, a service switch point / advanced intelligent peripheral device (SSP / AIP), and a service control point (SCP), At least one audio frequency signal generating device coupled to one or more of said user terminals for generating audio frequency signals carrying user input information and for transmitting said generated audio frequency signals to said connected user terminal; Wherein the user terminal is further used to forward the audio frequency signals received from the user terminal to the SSP / AIP via the transmission network; The SSP / AIP further comprises an audio frequency signal demodulation unit for demodulating the received audio frequency signals from the transmission network to obtain input information of the user and for transmitting the demodulated user input information to the SCP. To; And the SCP is used to control the user to access the network according to the received user input information. The method of claim 19, The audio frequency signal generator comprises: an audio frequency smart card and an external triggering device; Wherein the audio frequency smart card further comprises a chip used for storing the user input information; When the audio frequency smart card is inserted into the external triggering device, the external triggering device confirms the user input information stored in the audio frequency smart card, generates audio frequency signals according to the user input information, and the audio And output frequency signals to the user terminal through its audio interface. The method of claim 19, Receive the user input information from the SCP, authenticate the received user input information according to the user input information received immediately before, and return the user input information that has passed authentication to the SCP; In another case, if the authentication fails, the intelligent network access system further comprises an authentication unit connected to the SCP to return a portion of the authentication failure information to the SCP. The method of claim 21, The authentication unit is an intelligent network access system, characterized in that the authentication server to communicate with the SCP via a Transfer Control Protocol / Internet Protocol (TCP / IP). The method of claim 21, And said authentication unit is an authentication module arranged in said SCP. Audio frequency smart cards and external triggering devices include: Wherein the audio frequency smart card further comprises a chip used for storing user input information; When the audio frequency smart card is inserted into the external triggering device, the external triggering device confirms the user input information stored in the audio frequency smart card, generates audio frequency signals according to the user input information, and the audio And outputting frequency signals to a user terminal through its audio interface. In Service Switch Point / Advanced Intelligent Peripheral (SSP / AIP), And an audio frequency signal demodulation unit for demodulating received audio frequency signals to obtain user input information, and then outputting the demodulated user input information.

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