JP2000501578A - Broadband network and method for connection information provider - Google Patents

Abstract

(57) [Summary] A broadband system network for connecting an information transmitter / receiver (101), and a broadband session for communicating with a broadband switching network (100) and an information transmitter / receiver (101) A controller (104) and a broadband service control point (106) connected to the broadband session controller (104).

Description

DETAILED DESCRIPTION OF THE INVENTION                               Broadband network and method                               Cross-reference of related applications   This application is related to US patent application Ser. No. 08 / 432,586, filed on the same day. No. 08 / 431,131. No. 989, which is incorporated by reference under No. 01333.0091; U.S. Pat. 08 / 432,581, Incident No. 01333.0092; U.S. patent application Ser. No. 08 / 432,582, case reference number 01333.0094. No. 08 / 432,578, Case Reference No. 013. No. 33.0095, the contents of which are hereby incorporated by reference. Incorporated into this application.   This application also discloses Zaher A. November 6, 1992 by Nazif et al. The title of the invention filed in the "Communication system creation, transfer and monitoring service US Patent Application Serial No. 07 / 934,240; and Sud. san K. K. Of the invention filed on November 6, 1992 by Man et al. US Patent Application No. 07 / 972,817, entitled "Method of Creating Communication Service Specifications" Is also relevant. The contents of these applications are also incorporated herein by reference.                                   Background of the Invention   The present invention relates generally to telecommunications networks and services, and more particularly to broadband. For bandwidth networks and services.   Compared to today's mature telephone networks, nationwide broadband networks are in early childhood. In this application, the term broadband refers only to conventional voice and alphanumeric data. Image information (both moving images and still images). Over the past few years , The industry is equivalent to broadband access, switching (switching / switching), forwarding technology development Has made every effort. However, efforts aimed at integrating and controlling broadband networks Very little so far. As a result, broadband network control is generally adopted. There is no architecture used. In addition, control functions for broadband networks, Standards or industry requirements that define interfaces and protocols (indu There are very few stry requirements).   For certain vendors, such as AT & T and Fujitsu, broadband access and switching Provides end-to-end solution with control capacity coupled within the product As you can see, these approaches are proprietary and should be Had been doing phone service compliant replacements for over 20 years Due to similar obstacles and difficulties, that is, custom-made limited services only And is characterized by challenges in service delivery, deployment and uniformity .   Therefore, one or more of the problems caused by the limitations and disadvantages of the related technologies have been sufficiently solved. It is desirable to provide bandwidth networks and services.   And network operators can respond quickly to changing market demands, A broadband network that can quickly create, test, and deploy new services on broadband networks. It is desirable to provide a band network.   In addition, existing services that support the creation and execution of broadband services in broadband networks It is desirable to extend the features and functions of configuration and service control.   In addition, we create broadband services and deploy these broadband services within the execution environment. It is desirable to provide systems and methods for fast and efficient supply .   Video on demand service (request response video output service) It would be desirable to provide an efficient and inexpensive system and method for providing a system.   Providing efficient and inexpensive systems and methods for providing video conferencing services Is also desirable.   It would also be desirable to provide an integrated broadband and telephone network.   Operators respond quickly to changing market demands and quickly deliver new services It is also desirable to provide an integrated broadband network / telephone network that can be created, tested and deployed. New   Furthermore, the creation of integrated broadband / telephone network services and the provision of these services in the execution environment It would be desirable to provide systems and methods that provide fast, efficient, and efficient delivery.   Still further, an efficient and inexpensive system for providing caller identification services. It is desirable to provide a stem and method.   Additional objects, features, and advantages of the present invention will be set forth in the description that follows, and will be set forth in part. It will be apparent from the description or may be learned by the practice of the present invention. Eye of the invention The objectives and other advantages, together with the summary of the invention described and the accompanying drawings, are set forth in the appended claims. Combined with the instrumentality specifically noted in the claims Understand and achieve by                                   Summary of the Invention   To achieve these and other advantages, according to the purpose of the present invention, by way of illustration and overview As described, the present invention relates to a broadband network for connecting information transmitters / receivers. The broadband network is a broadband switching network, a broadband session communicating with an information transmitter / receiver. Control device and broadband service connected to the broadband session control device With control points.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention First and second information transmitter / receiver, broadband switching network, and broadband session control Device, the broadband session control device comprising a user unit at the first information transmitter / receiver. Means for managing a user session initiated by a user, said broadband session According to the control information given from the broadband service control point connected to the Set up a broadband connection between a first information transmitter / receiver and a second information transmitter / receiver Means.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention A broadband service control point, wherein the broadband service control point is associated with each predetermined user. A database of a plurality of user records containing corresponding service information; A trigger from the broadband session controller to perform at least one of Means for responding, and broadband control in response to at least one information of the user record. Means for giving a processing instruction to the control device.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention First and second information transmitters / receivers, a broadband switching network, a broadband service control point, and Transmitter / receiver in a broadband network, comprising: A method for providing a broadband connection between the first information transmitter and the first information transmitter Responding to a control signal from a receiver, and Requesting a processing instruction from a service control point; A broadband connection between said first and second information transmitter / receiver in response to a processing command from And issuing a command to the broadband switching network.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention A broadband switching network, a broadband session controller, and a broadband service control point. A method in a broadband network, comprising the steps of: Receiving a request for a wideband processing record corresponding to a given user. Performing the broadband processing according to the information contained in the wideband processing record. Providing a processing instruction to the application control device.   Also, in accordance with the purposes of the present invention, as broadly described by way of illustration, the present invention Bandwidth switching network, broadband session controller for controlling communication at information transmitter / receiver And / or a broadband session controller and / or an information transmitter / receiver Perform communication between an information transmitter / receiver having a broadband service control point communicating with one side. Includes a broadband network for   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention Multiple information transmitters / receivers, broadband switching networks, and broadband session controllers A broadband network, comprising: a first transmitter / receiver or said broadband session control. Means for managing a user session initiated by one of the users on the device; Given by the Broadband Service Control Point connected to the Bandwidth Session Controller The first information transmitter / receiver and one or more other information transmitters / Means for establishing a broadband connection with the receiver.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention Multiple information transmitters / receivers, wideband switching networks, wideband control points, and wideband sessions A broadband network with a location control device and a network between two or more information transmitters / receivers. Including a method of providing a band connection, the method comprising: a first information transmitter / receiver or a broadband Responding to a control signal from an area control device; and Requesting a processing instruction from a global service control point; Broadcast between two or more of the above information transmitters / receivers depending on processing instructions from a point. Issuing a command to the broadband switching network to set up a bandwidth connection.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention A broadband network for connecting an information transmitter / receiver, said broadband network comprising A broadband switching network, a broadband service control point, and a And a plurality of broadband session controls each connected to the broadband session control point. Device.   The general description so far and the detailed description below are typical descriptive. It is intended that the invention be construed as further interpreted as set forth in the claims. Should be understood.                               BRIEF DESCRIPTION OF THE FIGURES   BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included in and constitute a part of this specification, are presently preferred embodiments of the invention. Which illustrates the above general description and preferred examples given below. Together with the detailed description of the present invention will help explain the gist of the present invention.   In these drawings,   FIG. 1A is a block diagram of a broadband network according to an embodiment of the present invention;   FIG. 1B is a block diagram of a broadband network for providing video information according to an embodiment of the present invention. Is a diagram;   FIG. 2 is a block diagram of a broadband session control apparatus according to an embodiment of the present invention. R;   FIG. 3A is a block diagram of a broadband service control point according to an embodiment of the present invention. ;   3B and 3C are examples of a wideband processing record according to an embodiment of the present invention;   FIG. 4 is a block diagram of a set-top controller according to an embodiment of the present invention. Yes;   FIG. 5 relates to a video-on-demand service according to an embodiment of the present invention. A process flow diagram;   FIG. 6 is an example of a level 1 gateway menu according to one embodiment of the present invention. Yes;   FIG. 7 shows a user PIN (program item number) according to an embodiment of the present invention. ) Is an example of a display menu for requesting;   FIG. 8 is a view for a video information provider according to an embodiment of the present invention. This is an example of a video selection menu.   FIG. 9 is a representation provided by a video information provider according to one embodiment of the present invention. Shows a typical selection menu;   FIG. 10 illustrates another example provided by a video information provider according to an embodiment of the present invention. Shows a typical selection menu of:   FIG. 11 is a block diagram of a broadband network according to another embodiment of the present invention;   12-14 illustrate another system setup according to another embodiment of the present invention. (Preparation) and processing flow operation;   FIG. 15 is a display menu for a video conference service according to an embodiment of the present invention. Shows;   FIG. 16 is a flowchart of a process for providing a video conference service according to an embodiment of the present invention. Is a diagram;   FIG. 17 is a block diagram of an integrated broadband and telephone network according to one embodiment of the present invention. R;   FIG. 18 is for connecting a remote location to a telephone network according to an embodiment of the present invention. FIG. 4 is a block diagram of another alternative scheme of the present invention;   FIG. 19 is a block diagram of an integrated telephone / broadband service control point according to an embodiment of the present invention. Is a diagram;   FIG. 20 shows an example of a service preparation menu according to an embodiment of the present invention;   FIG. 21 illustrates a video-on-demand access screen according to one embodiment of the present invention. Here is an example of a leaning menu:   FIG. 22 is a list (table) of telephone-based services according to an embodiment of the present invention. For example:   FIG. 23 is an example of a call history menu according to one embodiment of the present invention;   FIG. 24 shows an incoming call information menu displayed on a display screen according to an embodiment of the present invention. Show;   FIG. 25 shows an incoming call information menu displayed on a display screen according to an embodiment of the present invention. -Is an example;   FIG. 26 shows a video-based caller I.C. according to one embodiment of the present invention. D. (Identification number) 3 is a flowchart of a process for providing information;   FIG. 27 shows a video-based caller I.C. according to another embodiment of the present invention. D. Providing information 6 is a flowchart of the processing performed.                             BEST MODE FOR CARRYING OUT THE INVENTION   The structure and operation of the preferred embodiment of the present invention illustrated in the accompanying drawings will be described in detail. explain. In these drawings, similar components and steps are denoted by the same reference numerals. ing.   The preferred embodiments of the invention described below are merely exemplary of the invention. Departure The description is not limited to these embodiments, but can be realized in other embodiments. You.   FIG. 1A is a block diagram of a broadband network according to an embodiment of the present invention. Shown in this figure As such, the preferred broadband network is a broadband switching network ("BSN") 100, an information transmitter. / Receiver 101, broadband session controller ("BSC") 104, and broadband Service control point ("BSCP") 106 is included.   BSN 100 is preferably digital to and from information transmitter / receiver 101. Includes one or more broadband switches 114 for routing information. No. Broadband switch 114 may be, for example, an asynchronous transfer mode (ATM) or some other Conventional digital information exchanges can be included.   The information transmitter / receiver 101 preferably transmits information over a broadband connection 116. Transmit to and / or receive from BSN 100. Broadband connection 116 For example, twisted pair copper wire, coaxial cable, optical fiber cable Or a hybrid thereof.   BSC 104 includes information transmitter / receiver 101, BSCP 100, and broadband switch 1 14 through data connections 120, 124, and 126, respectively. This These data connections are preferably copper twisted pair, coaxial cable, fiber optic Link, or any one of these hybrids. Connection 120 is shown in this figure. Physical connection with the BSC 104 and the information transmitter / receiver 101 respectively I do. However, in other (alternative) embodiments, these connections 120 Broadband switch 114, or a separate public packet data network (shown No) Logically connected using a passing logical data path.   An information transmitter / receiver 101 according to the present invention comprises a control signal, data information, and / or Or any other type of communication device or computer for transmitting and / or receiving broadband information. Or a network cable. For example, the present invention The information transmitter / receiver 101 according to the following is a customer (customer) home device, a personal Computers, data communication hubs (concentrators), information servers, video servers, It can include cameras, monitor devices, telephones, other networks, and the like.   Broadband session controller 104 is preferably provided by BSCP 106 The signal from the information transmitter 101 is processed based on the command. BSC104 and BSCP1 The 06 interaction is described in detail below. Also, broadband sessions The controller 104 controls the information (data and wideband) between the information transmitter / receiver 101. To switch 114 of BSN 100 as to when and how to route You. Therefore, the broadband switch 114 according to the present invention is a Limited intelligence, as long as it only needs to be able to successfully obtain the routing instruction from 04 (Intelligence) only.   Next, the processing and functions of the broadband network of the present invention are used to provide video services to users. The description will be made in connection with the provided broadband network. FIG. 1B shows a bidet according to the present invention. FIG. 2 is a block diagram of a broadband network that provides an e-service. As shown in FIG. One of the broadcast transmitter / receivers 101 preferably has a set-top controller 110, Or at a remote-controlled user's location. This set-top controller 110, a video display device 112, a video camera 120, There is a remote control device (remote control device) 118. Other information transmitters / Receiver 101 may be one or more than one in this video service embodiment. Has been replaced by a video information provider 102. Also a preferred embodiment Communication between the set-top controller 110 and the broadband switching network 100 Connection 116 may be provided by access network 108. Access network 108 is wide band Coaxial cable, fiber optic line, or some hybrid Hybrid). However, as another alternative, the access network 108 may be ADSL (Asymmetrical digital subscriber line; one of the digital video transmission methods) It may be constituted by operation.   The set-top controller 110 according to the present invention is a remote control device. Responsive to an input signal from the unit 118. These input signals are used to select signals and data. Table of information on the video display device 112, including information entered by the user, such as Control the indication. The set-top control 110 is a video Based on whether the application is currently set up (established) and established These input signals are relayed to either the BSC 104 or the VIP 102.   The broadband session controller 104 preferably transmits the commands supplied by the BSCP 106. The control signal from the set-top controller 110 is processed based on the command. Ma In addition, the broadband session controller 104 is connected to the VIP 102 and the set-top controller. The BSN 100 determines when and how to route data between Instructs switch 114 and responds to set-top controller 110 To tell VIP 102 when and how to transfer broadband video .   FIG. 2 is a block diagram of the broadband session control apparatus 104 according to an embodiment of the present invention. The figure is shown. As shown in this figure, the broadband session controller 104 is preferably A processor (arithmetic processing unit) 200, a session manager (management unit) 202, Network connection manager 204, 1 or Two or more resource adapters 206, one or more signal agents 208, and a database 210.   The session manager 202 communicates with the set via the signaling agent 208 Intelligence to communicate with top controller 110 and VIP 102 Have intelligence (intelligence, information). Prior to setting up a new session, Session manager 202 includes set-top controller 110 and VIP Negotiate on attributes of 102 and its session (negotiate) ). The session manager 202 also modifies an existing session / Set-top controller before modifying / terminating Interact with 110 and VIP 102. Session Manager processing The process includes a set of predetermined events (referred to as "triggers"), which are Interrupts the current process to the session manager 202 and The BSCP 106 is to be inquired about a command to execute. Therefore , The session manager 202 responds to the "trigger" A signal is input from the roll device 118 to provide the user with interactive functionality.   The network connection manager 204 manages the network assigned to a particular session. Requests to allocate / change / deallocate network resources Received from the manager 202. The network connection manager 204 The logical specifications of the transport topography (connection form) are And the assignment / allocation of specific network resources, such as switches Correct the request for release. For example, the network connection manager 204 A predetermined VIP 102 for a particular user, set-top controller 110 Determine what connections should be needed to connect to Command to the resource adapter 206 that controls the broadband switch 114 to Send.   Resource adapter 206 communicates directly with broadband switch 114 to provide a broadband session. Commands from controller 104 are converted to commands understood by a particular broadband switch 114. Convert. Thus, in a preferred embodiment, the broadband session controller 104 Are the resource adapters 206 corresponding to each type of broadband switch 114. Or some other network resource controlled by the broadband session controller 104. Including source. Resource adapter 206 is preferably broadband via connection 126 (FIG. 1A). Communicate with the regional exchange. Connection 126 is preferably connected to broadband switch 114 organization. From a broadband link (line) and multiple broadband content (content) with control information Become. Instead, a separate connection (not shown) is controlled. It can be prepared for your information.   The signal adapter 208 controls the session manager 202 from needs. Pre-screen and implement multiple session signaling protocols. Signal ray Agent 208 is utilized by set-top controller 110 and VIP 102. The session signal protocol used by the session manager 202 To a generic session signaling protocol.   As described above, in the preferred embodiment, the session manager 202 Is a professional that processes with seeking information from BSCP106. Respond to triggers in the protocol. For example, the session manager 202 Request from BSCP 106 on how to respond to the "power on" appearance “Power on” (power on) at the set top controller 110 according to the information ) May be responded to. The trigger operation in BSC104 is for the purpose of explanation For this reason, call-triggered birds in the improved intelligent network ("AIN") By a telephone switch in response to a call model trigger You can think of it as analogous to triggering. Associations to be merged In the AIN, as described in the patent application, the telephone exchange is a telephone network SCP (service Call control information from the service control point) In response to the MSAP (Msap) application and SPACE (about each user) Space) Perform base call processing record. In a preferred embodiment, BSC10 4 provides broadband functionality in response to the following triggers:     1.Session Creation Requested  This trigger The message is sent to a broadband network client, such as a set-top BSCP1 indicates that Troller 110 is requesting the creation of a new broadband session. 06 is notified. The network client is preferably the user's agent As software, interacting with the network on behalf of the user It is. For example, a set-top controller may have a video-on-demand app. Network that processes applications and interacts with the network within this capacity. Client software type. In response to this trigger, the BSCP 106 performs output "preselection" services (outgoing "screening" services) can do. In addition, the BSCP 106 determines where the session should be transferred. Give the name and / or address to the bandwidth client (s) Replies can be used to perform "call forwarding and routing" services. Wear.     2.Session Change Requested    This trigger Messages are sent to existing broadband sessions with broadband network clients. BSCP10 states that a request has been made for a revision to a session (already in progress). Notify 6. The requested change is made by any of the following operations: Can include:           a. Subscription and / or removal of network clients;           b. Session transport (transport) topology (connection form)                 Changes, For example, a transformer between network clients participating in a session Add / remove port connections;           c. Changes in session control policies (strategies, policies). This session Control policies can be set up through the Network Directory Service. Session privacy policy) Rishi, a group of network policies that allow modifying the characteristics of a session Change control policy (identifying the client), plan to engage in Consent policy (identifying a fixed set of clients), State change notification policy (identifies a group of clients that will be notified of the state change) Seek, pay for network resources used by the session Billing policy (identifying network users who are going to be charged).   In response to the session change requested by the trigger, the BSCP 106 An optional modification screening service can be performed. For example, BSCP10 6 is a change control policy by a broadband client requesting a change to a session. To confirm that the session is currently validly authorized. Can be. In addition, the BSCP 106 determines if the broadband client to which the Call forwarding and routing according to the name and address of the ant ng and routing ”) service.     3.Address Information Available  This bird Gar messages report session signal addresses of participants in proposed sessions I do. In response to this trigger, BSCP 106 is now valid for the session Examine session consent (aggregation) policy and create / change proposed session Clients to be queried for acceptance of the can be determined. BS The CP 106 queries the session controller 104 about acceptance. Will be reporting a list of clients.     4.Client's Response (Client'Respones Received)    This trigger Is a client to BSCP106 for accepting session creation / change Report the response. In response to this trigger, BSCP 106 Session creation and session creation / modification based on client response. Can be determined.     5.Session Action CommittedThis trigger is BS The broadband session controller 104 requests the CP 106 to create / modify a session. Report success. In response to this query, the BSCP 106 Clients that need to be aware of the policy and to be notified of the resulting session Can be determined. In addition, the BSCP checks the billing policy and changes the session Can determine the client to pay for.     6.Session TerminatedThis trigger is applied to BSCP106 Notifies that a session has ended. This is also a session for BSCP. Report the use of network resources invited by the service. Based on this trigger, The BSCP 106 can execute various billing services.   As noted in the related patents and related patent applications to be merged, SPAC E is the call processing record (“CPRs”) used for the system of graphic nodes (nodes, nodes) and branches Is a graphical programming language for generating Nodes and branches are operators Or assembled by the user on a computer screen with graphics Process flow for handling telephone calls based on various call model triggers (Flow). The MSAP program also executes CPRs and calls the telephone exchange. Provides processing information. In accordance with the present invention, the SPACE programming language Offer.   As shown in FIG. 3A, according to the present invention, the BSCP 106 is a processor (arithmetic processing unit). ) 300, a broadband application (application) 302, and multiple user It includes a database 304 in which bandwidth processing records ("BPRs") 306 are stored. The broadband application 302 preferably has wideband extended SPACE programming and Execution language.   The broadband database 304 contains one or more BPRs 306 for each user. including. In response to a trigger from the broadband session controller 104, the BSCP 10 6 inquires the BPR 306 about the user and executes the BPR to obtain processing information. , And returns a processing instruction to the broadband session controller 104. Broadband session controller The device 104 preferably responds to processing instructions from the BSCP 106 by a set-top Command one of Troller 110, Broadband Switch 114, or VIP 102 Respond by things. The details of these instructions are described below.   3B and 3C illustrate an exemplary BPR 306 processing flow in accordance with one embodiment of the present invention. Indicates low. First, the BPR 306 performs a video-on-demand (“V0D”) session. In response to a creation (creation) trigger (node 310), the user Determines if the user is eligible to initiate screening (preselection) (Node 312). If the user screens his / her VOD service If not (false branch 314), the BPR 306 returns to the set-top controller 110. Command to display the level 1 gateway ("L1GW") menu (Node 316). The L1GW menu will be described in further detail later. BPR306 is next The L1GW menu selection made by the user is identified (node 318). if, If the selection cancels the session (branch 320) , BPR 306 cancels VOD session setting to Session Manager-202 Request (node 322). If that choice is made in the VOD service settings ( (Branch 324), the BPR 30 6 calls the service providing logic (node 326). Service delivery logic Provides users with VOD service characteristics, such as VOD access screening targets. Change on / off (start / cancel). Other selections other than these In response (branch 328), BPR 306 instructs BSC 104 to select VIP 102 Connect the user (node 330).   If the user uses VOD screening (branch 332), the BPR 306 calls the screening service process (node 334). Screen The ning service process is, for example, that shown in FIG. 3C. VOD screening BPR requests the set-top controller 110 to provide a PIN (personal An identification number) prompt (instruction message) screen is displayed (node 340). Next, the user makes a selection (node 342). If the user takes a session If delete is selected (branch 344), BPR 306 closes the session (Blocks) (node 346) and exit this routine (node 348). other For user selection (branch 350), BPR 306 is the PIN entered by the user. Is evaluated (node 352). If the PIN entered by the user is a predefined PIN If it does (branch 354), the process proceeds as schematically indicated by node 356. To continue. Instead, if the user has not entered a matching PIN (Branch 358), the BPR 306 closes the process and exits this routine (each , Nodes 360 and 362).   Referring back to FIG. 2, the BSC 104 also includes the set-top controller 11. Database 21 which preferably stores data or information to be transmitted to 0 is also included. For some triggers, the broadband session controller 1 04 does not need to tell the BSCP how to respond to information. So Instead, the session manager 202 sends response information from the database 210 (Responsive information) can be provided. For example, set-top If the controller 110 is out of hook, the session manager Manager 202 first retrieves interface graphics from database 210. Can be transferred to the set-top controller 110. Substitute Even if the session manager 202 responds to the trigger BSCP1 even when operating broadband BSCP 106 for information about 06 instructs session manager 202 to send broadband session device 104 Responsive to information from the database 210 within the server.   As shown in FIG. 2, the broadband session controller 104 has a single session manager. Manager 202. However, in the present invention, the wideband The session controller 104 may include one or more session managers 202. Good. Preferably, the session manager 202 includes the system shown in FIG. 1A. Have each broadband application or service provided It is. For example, if one session manager manages a VOD service Then the other second session manager has a set of different triggers. In other words, it manages a video conference service. More on videoconferencing later. You.   In accordance with the present invention, the network connection manager 204 It also contains a set of triggers to query. In particular, the physical The network connection manager 204 Can require BSCP 106 to grant permission to use certain resources .   For example, some network resources, such as trunks, Reserved for exclusive use by certain network users, such as governments Can be The connection manager 204 determines these for a particular session. Whenever trying to allocate a reserved resource, the trigger state is BSCP10 Network connection manager so that 6 authorizes the allocation of resources. Request from the manager 204.   Session manager 202, network connection manager 204, resources Adapter 206 and the signal adapter preferably execute on processor 200 Software or microcode, and the software or Any hardware necessary to achieve crocode execution in accordance with the prior art It is composed of The processor 200 may be software or micro- To perform the functions described above in relation to those components. Type of processor or computer cable. However, this In an alternative embodiment, the components of the broadband session controller 104 are It can be implemented in electronic logic.   FIG. 4 is a block diagram of a set-top controller 110 according to one embodiment of the present invention. FIG. As shown in this figure, the set-top controller 110 is preferably Is the broadband session controller 104, the video display 110, and the BSN 100 Processor that controls the information flow of signals and broadband content between And a control application 402. In addition, set The controller 110 preferably stores data and video information and stores A memory 404 for buffering.   The set-top controller 110 is a remote control (remote control). ) Decode the input signal sent from 118 to the set top controller 110 An IR (infrared) decoder 406 is also included. Network access I / O (in / out) 408) provides input / output control of information to and from the broadband switching network 100. Offer. The session controller I / O (input / output unit) is a broadband session control device. It provides control of signal information to and from the device 104. Video I / O (input / output unit) 4 Numeral 12 provides control of video information to and from the video display device 112. Finally , A video camera I / O (input / output unit) 414 Provides information control.   FIG. 5 is a block diagram of the broadband network of FIG. FIG.   First, in response to a user input signal from the remote control 118 , The set top controller 110 transmits a service request command to the BSC 104. (Step 500). The session manager 202 of the BSC 104 A service request is issued to the BSCP 106 (step 502). Respond to that service request In response, BSCP 106 performs a BPR (Broadband Processing Record) for that user ( Step 503). In the embodiment of FIG. 5, the BPR for this user is L1GW ( Set Top Controller to Display Level 1 Gateway) Menu Command and set L1GW menu selection through BSC104 Send to top controller 110.   FIG. 6 illustrates an example of the L1GW menu 600. The L1GW menu 600 is It is preferable to have selection buttons for various services provided from the band network. These service buttons include a conventional broadcast TV (television) 602 and a VOD (video- On-demand) 604 or video conference 606 button can be included. Wear. The video conference will be described in more detail later. Furthermore, L1GW menu 60 0 is a text area (text) that provides information as needed to the user Region 610).   Referring again to FIG. 5, a series of interactions between the user and the set-top box (b) Through interaction, BSCP 106 provides the following service settings: (Step 506). User selects VOD button 604 from L1GW menu 600 BSCP 106 then responds by requesting the user's personal identification number (“PIN”). You.   FIG. 7 shows a typical display menu requesting the user's PIN. As shown in this figure , The PIN display menu 700 has a “cancel” button (704) and an “OK” button. (706) as well as the sentence “Your PIN: Please enter "(Column 702). The user enters a predefined PIN number, Select the "0K" button (706). In response, the BSCP 106 is A VIP menu display 800 as shown in FIG. 8 is displayed. Video selection panel 800 Select button 800 corresponding to various VIPs that provide VOD service in the network (A)-(d) are included. In addition, the VIP selection menu establishes a connection to the VIP server. Not only the setting button 806 to be set, but also preview information for each VIP server A preview button 804 to provide may also be included.   Referring again to FIG. 5, when the user selects one of the VIP buttons 802, the BSCP 106 transmits a session setting request command to the BSC 104 (step 50). 8). Next, the session manager 202 selects the VIP1 selected by the user. A session connection request is transmitted to the client device 02 (step 510). Session from VIP After receiving the connection connection acceptance signal, that is, the acknowledgment signal (step 514), the BS C104 transmits a setting command to BSN 100 (step 512). BSN 100 is a video (video) between the set-top controller 110 and the VIP 102; Then, the signal connection is set (set up) (step 516). BSC104 is connected Notify VIP 102 and set-top controller 110 that connection has been established (Step 520). Therefore, the VIP 102 occupies (such as a video selection menu) Proprietary) Start to enter the interface menu (pumping), Bring down the broadband connection 518 to the set top controller 110.   FIG. 9 shows a typical video selection menu 900 provided by the VIP 102. . The video selection menu 900 includes an exit button (904) and a setting button (906). Include video catalog (catalog) selection buttons 902A and 902B Can be. FIG. 9 shows only two criteria, entertainment (902a) and education (902b). The video selection based on the video selection is shown, Can be given based on many inventories, such as those found in tal stores You.   Depending on the user's selection of the catalog button 902 and the setting button 906, the VIP1 02 may respond by displaying a movie listing menu in that particular inventory . FIG. 10 shows a “more” button 1004 and a “previous menu” button 1 006 as well as video titles (titles) 1002 (a) to 1002 (d 4) shows a typical menu 1000 including a list of items in FIG. The user has a movie title Upon selecting a name, the VIP 102 sends the user's video to the set-top controller 110. The transmission of the video signal to be displayed on the video display device 112 is started.   Referring back to FIG. 5, the VOD session is performed through the set-top controller 110. Terminate in response to a session completion request from either VIP 102 or the user (Step 522). In response to such a session completion request In addition, the network connection manager 204 The broadband switching network 100 to take down the broadband connection to the VIP. (Step 524). Once the connection is closed, the session manager Manager sends session end notification signal to VIP102 and set-top controller 110 (step 526), which causes the system operation (Operation) ends.   In this alternative embodiment, the broadband network according to the present invention provides certain system functionality. Includes intelligent peripherals (“IP”) to provide. In FIG. As shown, this alternative network is the network shown in FIGS. 1A and 1B. Although the same basic configuration as that described above is left, the IP1100 has BSCP106, BSC104, The transmitter / receiver 101 (in the case of FIG. 11, in the set top 110), And one or more exchanges 114 of the BSN 100.   In the embodiment of FIG. 11, the IP 1100 is the set-top computer in the previous embodiment. It preferably replaces the lower level operations associated with the Troller 110. New In this embodiment, the BSCP 106 issues an image display of the VOD menu screen. The IP1100 sends signal information requesting the IP1100 to generate Set through the transport connection in the band switching network 100 and the access network 108. Preferably, it is transmitted to the top controller 110. Then, in this embodiment , IP1100 is set-top control from the occurrence of image display of VOD menu screen Offload to IP1100 modified to have the broadband network functionality already described Of Bellcore Intelligent Services Peripherals Preferably. Connections 120, 122 and 128 in FIG. 4 may be a logical connection with a passing physical connection.   FIG. 12 shows a system for connecting a user with an IP 1100 that provides a VOD service. FIG. 2 illustrates the system settings and processing operations. First of all, the user When you generate a session request, the session request is Sent from the server 110 to the BSC 104 (step 1200). BSC104 is a positive response A signal is returned (step 1202), and an information request signal is transmitted to the BSCP 106 ( Step 1204). BSCP 106 performs BPR (step 1206), and Information response to the session manager 202 of the bandwidth session controller 104 ( information response) (step 1208). This response message (scan Step 1208) is for the signal and video connection between the IP and the set-top controller 110. Instruct the broadband session controller to establish a connection. Session money The jar 202 then sends a signal to the IP to send a session connection request to the IP. A request is made to the module 208 (step 1210). IP110 0 indicates a session operation acceptance signal to the broadband session controller 104 in response to this signal. A signal (session action accepted signal) is transmitted (step 1212). this In response to the session operation acceptance signal, the session manager 202 Call the connection manager 204 (step 1214). Network connection The connection manager 204 controls the set-top control via the resource adapter 206. Establish a signal data and video connection between roller 110 and IP 1100. In particular, The resource adapter 206 corresponding to the access network 108 and the broadband switch 114 0, set-top controller 110, and signal, video, and audio A port connection is set (connection 1216). After the transport connection is established, The session manager 202 then communicates with the set-top controller 110 and the IP By transmitting the session connection mode notification to both the IP 1100 and the IP 1100, Let the top controller 110 know when to start using the connection.   IP 1100 then communicates directly with the user to provide the service functions described above. Can be For example, as shown in FIG. 13, in this alternative embodiment, the IP Once the 1100 and the user's set-top controller 110 are connected, The processing of IP 1100 is performed by BSCP 106 to provide VOD service to the user. Information can be taken over and commanded (step 1302). According to this request Then, the BSCP 106 executes the BPR again (step 1304), and sends the response information to the IP 1100. Information is supplied (step 1306). An example of this is BSCP106 These information instruct the IP 1100 to display VOD menu information (step 1308) (ie, upon receiving this information, the IP 1100 Generate a video representation (drawing) and send it to the set-top controller 110 ). The user's set-top controller then sends the selection information to IP1100 Return (step 1310).   In response, IP 1100 again sends an information request to BSCP 106 (step 1312). BSCP 106 again executes BPR in response to the information request (step 1314) And another response is returned to the IP 1100 (step 1316). IP1100 And BSCP106 and IP1100 and set-top controller 110 This communication between the user connects the set top controller 110 to the VIP 102 This continues until all information needed to continue is obtained by BSCP 106. At this time At this point (step 1316), the BSCP 106 commands the IP 1100 to The connection between the set-top controller 110 and the VIP 102 is requested.   FIG. 14 shows the user's set-top controller 11 in this alternative embodiment. 0 shows a processing step for connecting 0 to the VIP 102. First of all, IP1100 Creates an existing session between the set top controller 110 and the IP 1100 It requests the broadband session controller 104 to change. This requested security The session change is based on the signals between the set top controller 110 and the IP 1100 and Disconnect video connection and connect between set-top controller 110 and VIP 102 And establishing a video connection. More specifically, IP1100 is a change session Request to the BSC 104 (step 1400), and the BSC 104 issues a positive acknowledgment signal. It returns to IP 1100 (step 1402). BSC 104 then from BSCP 106 Request (step 1404), and the BSCP 106 executes BPR and issues the request. Decide how to handle (step 1406) and return response information to BSC 104 (Step 1408). Then, session manager 2 of BSC104 02 sends a session action (action) request (step 14 10 and 1412), and transmits a reception session operation acceptance signal (steps respectively). 1414 and 1416), the user's set-top controller 110 and And negotiate with the VIP 102. Set-top controller In response to the session operation acceptance signal from the VIP 110 and the VIP 102, the session manager Manager 202 is a network connection manager for setting up a network connection. Caller 204 (step 1418). Connection manager 204 is appropriate Invokes the resource adapter 206 and sets it through the access network 108 and the BSN 100. Connect the top controller 110 to the VIP 102 (signal and video connection 1 420). The BSC 104 then sends a final notice, the session operation complete signal, to the VIP. (Step 1422), set-top controller (step 1424), And to IP 100 (step 1426).   The present invention also provides for broadband video conferencing. The general operation of this network The video source is not a VIP, but a set of users. Broadband text coming from a video camera 120 connected to the top controller 110 Except for the Levi conference operation, the operation of the VOD service The same as the option. Preferably, for video conferencing, a set-top computer The troller 110 includes a camera 120, a micro horn (not shown), and a video display device. And a speaker (not shown).   The video conferencing service is preferably a teleconference on the L1GW menu as shown in FIG. The selection is made by using the discussion button 606. In response to the videoconference selection, BSCP1 06 preferably provides a video conference menu to the caller's set top controller 10. Transfer to 2. A preferred videoconferencing menu 1500 is shown in FIG. You. The videoconferencing menu 1500 is preferably a caller's videoconferencing service. A personal list (personal list) of the sender's personal or professional names contained in Including.   Also, the video conference menu 1500 includes “Return” 1504, “Continue” 1506 , "Search" 1508, and "Stop" 1510 buttons. A “go back” button 1504 displays the main menu shown in FIG. I do. A “find” button 1508 determines the address of the videoconference subscriber. Set. In response to the selection of the “Search” button 1508, the set-top control LA 110 prompts the caller for information about videoconference subscribers who need an address Display (prompt) screen. "Continue" ("more") button 1506 In response to the selection, the set-top controller 110 provides the caller with a video conferencing service. Service, often calling for services Display other parts of the list 1502 (a) -1502 (d). "Stop"(" hang up ") button 1510, the set-top controller 110 Engage in the current video conferencing session with the set-top controller 110 Videoconferencing network being used by another videoconference user Request to end existing videoconferencing sessions between client and client .   FIG. 16 is a processing step for providing a video conference service according to an embodiment of the present invention. Show As mentioned earlier, video conferencing is a set-top Setup (preparation / setting) step 1600 between controller and BSC 104 1608 and the communication between the BSC 104 and the BSCP 106 correspond to Step 1 shown in FIG. Same as 200 to 1208. In response to the information request message (step 16 04), the BSCP 106 preferably performs a broadband processing record BPR (step 1). 606), which is similar to the typical BPR shown in FIGS. Services to be provided to the user, for example, "call preselection" (call screen Services), "transfer and route" services, etc. You. In this mode, in response to information from the BSCP 106, The application manager 202 communicates via the signal adapter 208 Send a session operation request signal to the called party (called subscriber) of the conference (step 1) 610). The called party's set-top controller 110 Responds by accepting or rejecting the request to the session manager 202 via I do. In this case, it is assumed that the request has been accepted (step 1612). . Session manager 202 then calls connection manager 204 To set up a broadband connection between the calling party (the calling subscriber) and the called party. (Step 1614). The connection manager 204 then proceeds to the resource adapter 20 6 for the transport connection (for the broadband network 100 and the access network 108) Transfer connection) is set (step 1616). Network resources are allocated once Once allocated, the session manager 202 Send a notification signal to both set-top controllers 110 on the side (step 1618 and 1620). In this mode, video information (image information) and audio information Both information is extracted to the broadband connection.   So far, this description has focused on the configurations and services provided by broadband networks. And concentrated. However, the broadband network according to the invention is integrated with the telephone network. To provide additional services and features.   FIG. 17 shows a block diagram of an integrated broadband and telephone network according to one embodiment of the present invention. As shown in this figure, the broadband network 1700 and the telephone network 1702 are integrated through a connection 124. Communicate with the combined broadband / telephone SCP ("BTSCP") 1704. Broadband network 1700 Preferably including a broadband switch 114 and a broadband session controller 104 Includes the basic components of a broadband network as described. Broadband switch 114 is a user To provide broadband information as described above. Offer.   The telephone network 1702 is a public switched telephone network (PSTN), an intelligent network (“ IN ”), or with an improved intelligent network (“ AIN ”) Type telephone networks can be included. AIN is detailed in the related patent application to be merged It is described in detail. FIG. 17 shows the basic exchange 1706 of the telephone network and the line information data. Only the database (“LIDB”) 1708 is shown.   As described above, the AIN exchange 1706 relays the command from the SCP, and processes the call processing information. Provide information. The switch 1706 of the telephone network 1702 then connects via the connection 124 Connect to BTSCP1704. Switch 1706 also passes through traditional connection 1712. Finally, an end-user (end-user) call processing device 1710, such as a telephone, Also connect. In addition, a switch 1706 in accordance with the present invention provides a remote location for the user. A direct connection to the top controller 110 is also possible. Fig. 17 is telephone exchange From the switchboard 1706 to the user's CPE (call processing equipment) 1710 and set-top controller Although separate and independent connections 1712 and 1714 are shown for roller 110 Alternatively, only a single connection may be required. This embodiment is illustrated by way of example in FIG. Where a single connection 1712 connects from telephone network 1702 to a remote location. ing. In this embodiment, the line splitter / caller I. D. (Identification number) Adapter The 1800 splits the telephone connection 1712 and connects the telephone extension 1802 to the CPE 1710 And sends it to the set-top controller 10. Caller I. D. Of the adapter part of The functionality will be described in more detail later.   In accordance with the present invention, the integrated BTSCP 1704 includes a broadband network 1700 and a telephone network 1702. Services across these networks in a competent and effective way for both Give processing instructions to integrate. As shown in the embodiment of FIG. In order to integrate the network, the integrated BTSCP 1704 has a broadband SPACE app. Application 302 and phone SPACE application 1900 Contains. Again, a basic phone SPACE application 1900 is described in the related patent application to be incorporated. In alternative embodiments The broadband SPACE application 302 and the telephone SPACE application 19 00 exists as a single integrated application.   In one embodiment, BTSCP 1704 is the data containing BPRs 306 Auxiliary database 1 containing base 304 and telephone call processing records CPRs 1904 902. CPRs are also described in related patent applications to be combined. Teens In an alternate embodiment, both BPRs 306 and CPRs 1504 are a single database. Included in the Processor 300 may be a broadband network 1700 or a telephone network 170. Corresponding SPACE application in response to a trigger from one of the two Perform 302 or 1900 to provide processing instructions to either network Access the appropriate database 304 or 1902.   In one embodiment of the present invention, broadband and telephone functions are provided by an integrated SCP However, in alternative embodiments, the functions are distributed across multiple SCPs. You.   By integrating the broadband and telephone networks (circuit networks), the present invention New network-based services (end-of-line based services) Service). For example, in accordance with the present invention, end users may Video and telephone services via a display interface at the remote location of the user Can now be supplied. The display interface of this embodiment Is preferably connected to a set-top controller 110, for example as shown in FIG. 1B. It consists of a connected video display device (or television receiver).   Video and / or telephone service via display interface To provide, the present invention provides a service provisioning menu similar to the broadband menu described above. I will provide a. FIG. 20 shows a service supply menu. Just the other mentioned above As a broadband menu of FIG. 20, the service supply menu of FIG. 4. Integrated peripheral device 1100, BSC104, or set-top controller It can be launched on a variety of resources, including 110.   As shown in FIG. 20, the service provision menu 2000 is preferably a video button. Button 2002, telephone button, and previous button (previous screen button) 20 06. Video-on available by selecting video button 2002 Preferably displaying a list of demands, while the telephone button 20 Preferably, a list of telephone services that can be provided by selecting 04 is displayed. Step A REVISION button 2006 allows the user to return to the previous menu.   Broad band that can be supplied to the end user in accordance with an embodiment of the present invention An example of an area network-based service is video-on-demand access. Screening service. For this service, users will see a video List of video services that will be displayed after selecting button 2002 Select VOD access screening from the list (not shown). Broadband network 17 00 is displayed in response to this selection, for example, in the display of a menu as shown in FIG. Therefore, respond. This menu is used to turn on “VOD access screening”. 2100 and a line that can be read as a “new PIN” column 2102. VOD access script The user has to box in order to enable binning (preselection of VOD access). 2108 and input a PIN (personal identification number) in the new PIN field 2102. Thus, the VOD access / screening row 2100 is selected. Cancel button 2 104 prompts the user to undo any changes and return to the previous menu screen Allow. OK button (approval button) 2106 is a service after the menu is completed To the user. I explained the other broadband services above As described above, the information collected by the VOD access Returned to TSCP 1704 and added to the user's BPR 306.   As mentioned above, the user can connect via the video interface according to the invention. Talk services can also be provided. User receives diagram A telephone button 2004 in the service supply menu 2000 of the user 20 is selected. FIG. 2 is a telephone-based service that will be displayed in response to the selection of the telephone button 2004. Here is a typical list of services. For example, the telephone service supply menu in FIG. Turn on the call blocking feature (line 2200) Accept to the. When the user selects the incoming call blockade 2200, the user receives the blockade service. The service can also lock out the desired telephone number (line 2202). Ma Was This telephone service processing menu is for caller I. D. Turn on display function (line 2204) The user or review the latest incoming call history (line 2206). It is acceptable. The telephone menu of FIG. 22 also includes a cancel button 228 and an OK button 2210. It also contains   FIG. 23 shows a display device of the user in response to the selection of the power-on history button 2206 in FIG. 11 shows an incoming call history service display screen displayed at 112. Column 2300 is the most recent Predetermined number of incoming calls, date and time of incoming calls, and incoming state (distribution or blockade) Show the list. In addition, the incoming call history according to the present invention is Caller I. containing the caller's name D. (Identification) information. This caller I. D. Information This will be described in more detail later. Also, the incoming call history menu ends the list and the next screen (M0RE) button 2302 to move to the screen and the previous screen Also includes a previous button 2304 for causing   As mentioned above, the present invention provides a video-based caller I. D. Providing delivery You. FIG. 24 is a diagram to help explain this service. FIG. 24 shows a weather forecast, for example. A normal television program such as a weather report is displayed on the user's display device 112. Indicates that At this time, when a call arrives at the user's phone, the call is made according to the prior art. This call will ring the user's phone. However, in accordance with the present invention, the originator's I.D. D. The information is transmitted to the set-top controller 110 and the display device 112 win Caller I. who received a call on dove 2402 D. Display information.   FIG. 25 shows a typical dress that can be displayed in the display window of the user's display device 112. 3 shows a list of call information. The incoming call information 2500 preferably contains the name of the caller (field 2 502), the caller's telephone number (column 2504), call arrival time (column 2506) Dates (column 2508) and incoming call processing (column 2510) are listed. Incoming call The status column 2510 reports to the user whether the call was delivered or blocked, and Is provided by the user making a reservation to the incoming call blocking function. DONE button The button 2512 allows the user to return to the normal display screen. Call history (CALL HIST0RY) button 2514 provides the same function as the incoming call history column 2206 in FIG. You.   Next, the processing operation of the integrated broadband and telephone network for providing the incoming call information will be described with reference to FIGS. This will be described with reference to FIG. In the first embodiment, the line splitter / sender I. D. adapter Caller I. of 1800 (FIG. 18). D. Adapter part (1800 is "Sender I. D. Outgoing calls that connect to the user's telephone line) Today's ordinary caller I. D. It has the same functionality as the equipment. This fruit In the embodiment, the sender I. D. Adapter 1800 rings user's phone 1710 Rashi, caller I. D. Sending the information to the user's set top controller 110, The set-top controller 110 sends the caller I. D. Information to the user's display device 112 The appropriate columns (2502 and 2504) of the incoming call information window 2500 according to FIG. ).   FIG. 26 shows a video-based caller I. according to a first embodiment of the present invention. D. Providing information FIG. In this embodiment, a telephone call through the telephone network Is today's common caller I. D. Achieved in a manner consistent with the service.   First, a calling subscriber calls a user (called subscriber). The caller's telephone set to transmit a call setup request to the telephone exchange. (Step 2600). The exchange detects the calling name in response to the call setup request. A search request is transmitted to the LIDB (step 2602). LIDB uses the calling subscriber's phone number Match the calling subscriber's name and return the calling subscriber's name to the switch (step 2604). The switch then sends a call setup request (including caller identification) to the caller. Request to the telephone (step 2606). However, in the present invention, Follower I. D. Adapter 1800 receives the call setup request and includes Caller I. D. Requests information from the set-top controller 110 (step 2 608). The set-top controller will then open the window as shown in FIG. (Step 2610). At the same time, caller I. D. adapter 1800 sends the call setup request information to the called subscriber's telephone (step 2612). ), Make the telephone ring (step 2614). The called party is displaying the outgoing call The information of the caller can be reviewed to determine whether to answer the call. In this embodiment And the caller I. D. Information is sent to the set-top controller 110 and the display device 112 In an alternative embodiment, although sent to be displayed to Corrugator / Sender I. D. Adapter 1800 is the caller I. D. CPE for displaying information Delivered directly to 1710 or directly to sender I. D. You can display information .   As just described, caller I. according to the embodiment shown in FIG. D. Provide information That is, according to the present invention, the broadband network is the originator I. D. No need to distribute information. Rather, caller information is provided remotely according to conventional telephone network technology. However However, in an alternative embodiment, caller I. D. Information is called through the broadband network 1700 It can also be delivered to the subscriber's display.   Referring to FIG. 27, first of all, the calling subscriber is called by the user (called subscriber). Dial the talk number. Again, the calling subscriber's telephone sets a call setup request. The message is sent to the telephone exchange (step 2700). In this embodiment, the telephone exchange The exchange preferably sends a trigger query to BTSCP 1704 (step 2702). The BTSCP then requests the name of the calling subscriber from the LIDB (step 27). 04), the LIDB returns the name of the calling subscriber (step 2706). BTSCP17 04 instructs the telephone exchange to confirm the call setup for that exchange (step 2708) and set-top control of the called party through the broadband network 1700. The sender information is sent to the controller 100 (step 2710), and the set-top The controller displays the caller information on the display device 112 (step 2702). phone The switch sends a call setup request to the called party's telephone (step 2714), which Causes the telephone to ring (step 2716). Therefore, at almost the same time, The incoming telephone rings and the set-top controller sends the caller identification to the user. Is displayed on the video display device 112. Instead, BTSCP uses the traditional caller ID (Phone number) Returns the name of the calling subscriber to the exchange for distribution to the display device. Can be.   The presently illustrated preferred embodiments and methods of the present invention are illustrated here. Although described, those skilled in the art of the present invention (the skilled artisan) will appreciate that Various changes and modifications of the present invention are possible without departing from the true scope (intent) of Ming. Therefore, it can be understood that the components can be replaced with equivalent components. For example In a preferred embodiment, the BSCP 106 is a service generated by the BSC 104. Supplying processing instructions and / or data in response to the service. However In an alternative embodiment, the BSCP 106 communicates directly with the information transmitter / receiver 101. Communicate, through the BSC 104, BSN 100, or other communication facsimile In response to a direct inquiry from the information transmitter / receiver 101, processing instructions and / or Or could supply data.   In addition, many modifications may be made without departing from the central scope (gist) of the present invention. What is done by adapting specific elements, techniques or practices to the guidance it can. Accordingly, the present invention is limited to the specific embodiments and methods described herein. Without departing from the scope of the appended claims, all embodiments that fall within the scope of the appended claims are included. It is intended to be rare.

[Procedure amendment] [Submission date] March 4, 1999 (1999.3.4) [Correction contents]                                   Specification                   Broadband network and method for connection information provider                             Cross-reference of related applications   No. 08 / 432,586, filed on the same date as US patent application Ser. U.S. Pat. No. 5,583,297, issued Dec. 10, 996; U.S. Pat. 8 / 431,989, now abandoned; U.S. patent application Ser. No. 08 / 432,581, currently 1 U.S. Patent No. 5,574,778, issued November 12, 996; U.S. Patent Application No. 0 8 / 432,582, now U.S. Pat. No. 5,574, issued Nov. 12, 1996; 779; U.S. patent application Ser. No. 08 / 432,578, now dated Dec. 9, 1997. No. 5,696,815, the contents of which are hereby incorporated by reference. Is incorporated into the present application more.   This application also discloses Zaher A. November 6, 1992 by Nazif et al. The title of the invention filed in the "Communication system creation, transfer and monitoring service US Patent Application Ser. No. 07 / 934,230, now abandoned; Sud. san K. K. Of the invention filed on November 6, 1992 by Man et al. US Patent Application No. 07 / 972,817, entitled "Method of Creating Communication Service Specifications" Is also relevant. The contents of these applications are also incorporated herein by reference.                                 Background of the Invention   The present invention relates generally to telecommunications networks and services, and more particularly to broadband. For bandwidth networks and services.   Compared to today's mature telephone networks, nationwide broadband networks are in early childhood. In this application, the term broadband refers only to conventional voice and alphanumeric data. Image information (both moving images and still images). Over the past few years , The industry is equivalent to broadband access, switching (switching / switching), forwarding technology development Has made every effort. However, efforts aimed at integrating and controlling broadband networks This Hardly ever been. As a result, it is generally adopted for control of broadband networks There is no such architecture. In addition, control functions for broadband networks, Standards or industry requirements that define interfaces and protocols ry requirements) are very few.   For specific vendors, such as AT & T and Fujitsu, broadband access and switching Provides end-to-end solution with control capacity coupled within the product As you can see, these approaches are proprietary and should be Had been doing phone service compliant replacements for over 20 years Due to similar obstacles and difficulties, that is, custom-made limited services only And is characterized by challenges in service delivery, deployment and uniformity .   Therefore, one or more of the problems caused by the limitations and disadvantages of the related technologies have been sufficiently solved. It is desirable to provide bandwidth networks and services.   And network operators can respond quickly to changing market demands, A broadband network that can quickly create, test, and deploy new services on broadband networks. It is desirable to provide a band network.   In addition, existing services that support the creation and execution of broadband services in broadband networks It is desirable to extend the features and functions of configuration and service control.   In addition, we create broadband services and deploy these broadband services within the execution environment. It is desirable to provide systems and methods for fast and efficient supply .   Video on demand service (request response video output service) It would be desirable to provide an efficient and inexpensive system and method for providing a system.   Providing efficient and inexpensive systems and methods for providing video conferencing services Is also desirable.   It would also be desirable to provide an integrated broadband and telephone network.   Operators respond quickly to changing market demands and quickly deliver new services It is also desirable to provide an integrated broadband network / telephone network that can be created, tested and deployed. New   Furthermore, the creation of integrated broadband / telephone network services and the provision of these services in the execution environment It would be desirable to provide systems and methods that provide fast, efficient, and efficient delivery.   Still further, an efficient and inexpensive system for providing caller identification services. It is desirable to provide a stem and method.   Additional objects, features, and advantages of the present invention will be set forth in the description that follows, and will be set forth in part. It will be apparent from the description or may be learned by the practice of the present invention. Eye of the invention The objectives and other advantages, together with the summary of the invention described and the accompanying drawings, are set forth in the appended claims. Combined with the instrumentality specifically noted in the claims Understand and achieve by                                 Summary of the Invention   To achieve these and other advantages, according to the purpose of the present invention, by way of illustration and overview As described, the present invention relates to a broadband network for connecting information transmitters / receivers. The broadband network is a broadband switching network, a broadband session communicating with an information transmitter / receiver. Control device and broadband service connected to the broadband session control device With control points.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention First and second information transmitter / receiver, broadband switching network, and broadband session control Device, the broadband session control device comprising a user unit at the first information transmitter / receiver. Means for managing a user session initiated by a user, said broadband session According to the control information given from the broadband service control point connected to the Set up a broadband connection between a first information transmitter / receiver and a second information transmitter / receiver Means.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention A broadband service control point, wherein the broadband service control point is associated with each predetermined user. A database of a plurality of user records containing corresponding service information; A trigger from the broadband session controller to perform at least one of Means for responding, and broadband control in response to at least one information of the user record. Means for giving a processing instruction to the control device.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention First and second information transmitters / receivers, a broadband switching network, a broadband service control point, and Transmitter / receiver in a broadband network, comprising: A method for providing a broadband connection between the first information transmitter and the first information transmitter Responding to a control signal from a receiver, and Requesting a processing instruction from a service control point; A broadband connection between said first and second information transmitter / receiver in response to a processing command from And issuing a command to the broadband switching network.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention A broadband switching network, a broadband session controller, and a broadband service control point. A method in a broadband network, comprising the steps of: Receiving a request for a wideband processing record corresponding to a given user. Performing the broadband processing according to the information contained in the wideband processing record. Providing a processing instruction to the application control device.   Also, in accordance with the purposes of the present invention, as broadly described by way of illustration, the present invention Bandwidth switching network, broadband session controller for controlling communication at information transmitter / receiver And / or a broadband session controller and / or an information transmitter / receiver Perform communication between an information transmitter / receiver having a broadband service control point communicating with one side. Includes a broadband network for   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention Multiple information transmitters / receivers, broadband switching networks, and broadband session controllers A broadband network, comprising: a first transmitter / receiver or said broadband session control. Means for managing a user session initiated by one of the users on the device; Given by the Broadband Service Control Point connected to the Bandwidth Session Controller The first information transmitter / receiver and one or more other information transmitters / Means for establishing a broadband connection with the receiver.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention Multiple information transmitters / receivers, wideband switching networks, wideband control points, and wideband sessions A broadband network with a location control device and a network between two or more information transmitters / receivers. Including a method of providing a band connection, the method comprising: a first information transmitter / receiver or a broadband Responding to a control signal from a range control device; and Requesting a processing instruction from a bandwidth service control point; Between two or more of the above information transmitters / receivers depending on the processing command from the point Issuing a command to the broadband switching network to set up a broadband connection.   Also, according to the purpose of the present invention, as described by way of illustration and overview, the present invention A broadband network for connecting an information transmitter / receiver, said broadband network comprising A broadband switching network, a broadband service control point, and a And a plurality of broadband session controls each connected to the broadband session control point. Device.   The general description so far and the detailed description below are typical descriptive. It is intended that the invention be construed as further interpreted as set forth in the claims. Should be understood.                               BRIEF DESCRIPTION OF THE FIGURES   BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included in and constitute a part of this specification, are presently preferred embodiments of the invention. Which illustrates the above general description and preferred examples given below. Together with the detailed description of the present invention will help explain the gist of the present invention.   In these drawings,   FIG. 1A is a block diagram of a broadband network according to an embodiment of the present invention;   FIG. 1B is a block diagram of a broadband network for providing video information according to an embodiment of the present invention. Is a diagram;   FIG. 2 is a block diagram of a broadband session control apparatus according to an embodiment of the present invention. R;   FIG. 3A is a block diagram of a broadband service control point according to an embodiment of the present invention. ;   3B and 3C are examples of a wideband processing record according to an embodiment of the present invention;   FIG. 4 is a block diagram of a set-top controller according to an embodiment of the present invention. Yes;   FIG. 5 relates to a video-on-demand service according to an embodiment of the present invention. A process flow diagram;   FIG. 6 is an example of a level 1 gateway menu according to one embodiment of the present invention. Yes;   FIG. 7 shows a user PIN (program item number) according to an embodiment of the present invention. ) Is an example of a display menu for requesting;   FIG. 8 is a view for a video information provider according to an embodiment of the present invention. This is an example of a video selection menu.   FIG. 9 is a representation provided by a video information provider according to one embodiment of the present invention. Shows a typical selection menu;   FIG. 10 illustrates another example provided by a video information provider according to an embodiment of the present invention. Shows a typical selection menu of:   FIG. 11 is a block diagram of a broadband network according to another embodiment of the present invention;   12-14 illustrate another system setup according to another embodiment of the present invention. (Preparation) and processing flow operation;   FIG. 15 is a display menu for a video conference service according to an embodiment of the present invention. Shows;   FIG. 16 is a flowchart of a process for providing a video conference service according to an embodiment of the present invention. Is a diagram;   FIG. 17 is a block diagram of an integrated broadband and telephone network according to one embodiment of the present invention. R;   FIG. 18 is for connecting a remote location to a telephone network according to an embodiment of the present invention. FIG. 4 is a block diagram of another alternative scheme of the present invention;   FIG. 19 is a block diagram of an integrated telephone / broadband service control point according to an embodiment of the present invention. Is a diagram;   FIG. 20 shows an example of a service preparation menu according to an embodiment of the present invention;   FIG. 21 illustrates a video-on-demand access screen according to one embodiment of the present invention. Here is an example of a leaning menu:   FIG. 22 is a list (table) of telephone-based services according to an embodiment of the present invention. For example:   FIG. 23 is an example of a call history menu according to one embodiment of the present invention;   FIG. 24 shows an incoming call information menu displayed on a display screen according to an embodiment of the present invention. Show;   FIG. 25 shows an incoming call information menu displayed on a display screen according to an embodiment of the present invention. -Is an example;   FIG. 26 shows a video-based caller I.D. D. (Identification number A) a flow chart of a process for providing information;   FIG. 27 shows a video-based caller I.D. according to another embodiment of the invention. D. Provide information It is a flowchart of a process to provide.                             BEST MODE FOR CARRYING OUT THE INVENTION   The structure and operation of the preferred embodiment of the present invention illustrated in the accompanying drawings will be described in detail. explain. In these drawings, similar components and steps are denoted by the same reference numerals. ing.   The preferred embodiments of the invention described below are merely exemplary of the invention. Departure The description is not limited to these embodiments, but can be realized in other embodiments. You.   FIG. 1A is a block diagram of a broadband network according to an embodiment of the present invention. Shown in this figure As such, the preferred broadband network is a broadband switching network ("BSN") 100, an information transmitter. / Receiver 101, broadband session controller ("BSC") 104, and broadband Service control point ("BSCP") 106 is included.   BSN 100 is preferably digital to and from information transmitter / receiver 101. Includes one or more broadband switches 114 for routing information. No. Broadband switch 114 may be, for example, an asynchronous transfer mode (ATM) or some other Conventional digital information exchanges can be included.   The information transmitter / receiver 101 preferably transmits information over a broadband connection 116. Transmit to and / or receive from BSN 100. Broadband connection 116 For example, twisted pair wire of copper wire, coaxial cable, optical fiber Links or a hybrid of these.   BSC 104 is the information transmitter / receiver 101, BSCP 106, and broadband switch 114 and data connections 120, 124, and 126, respectively. These data connections are preferably copper twisted pair, coaxial cable, fiber optic • Include links or any one of these hybrids. Connection 120 is As shown, the BSC 104 and the information transmitter / receiver 101 are physically connected, respectively. Continue. However, in other (alternative) embodiments, these connections 120 Is a broadband switch 114 or a separate public packet data network (not shown). No) are logically connected using a logical data path.   An information transmitter / receiver 101 according to the present invention comprises a control signal, data information, and / or Or any other type of communication device or computer for transmitting and / or receiving broadband information. Or a network cable. For example, the present invention The information transmitter / receiver 101 according to the following is a customer (customer) home device, a personal Computers, data communication hubs (concentrators), information servers, video servers, It can include cameras, monitor devices, telephones, other networks, and the like.   Broadband session controller 104 is preferably provided by BSCP 106 The signal from the information transmitter / receiver 101 is processed based on the command. BSC104 The interaction between the BSCP 106 and the BSCP 106 will be described in detail below. In addition, broadband security The communication control device 104 transmits information (data and data) between the information transmitter / receiver 101. When and how to route broadband) switch 114 in BSN 100 Command to. Therefore, the broadband switch 114 according to the present invention is a It is only necessary to successfully obtain the route designation command from the control device 104. It only requires advanced intelligence.   Next, the processing and functions of the broadband network of the present invention are used to provide video services to users. The description will be made in connection with the provided broadband network. FIG. 1B shows a bidet according to the present invention. FIG. 2 is a block diagram of a broadband network that provides an e-service. As shown in FIG. One of the broadcast transmitter / receivers 101 preferably has a set-top controller 110, Or at a remote-controlled user's location. This set-top controller 110, a video display device 112, a video camera 120, There is a remote control device (remote control device) 118. Other information transmitters / Receiver 101 may be one or more than one in this video service embodiment. Video information provider "VIP" 102. Also preferred In an embodiment, the set-top controller 110 and the broadband switching network 100 A communication connection 116 between them may be provided by the access network 108. Access network 10 8 is a coaxial cable, fiber optic line similar to broadband connection 116, or any (Hybrid). However, as another alternative, the access network 10 8 for ADSL (asymmetrical digital subscriber line) (1) It may be constituted by technology.   The set-top controller 110 according to the present invention is a remote control device. Responsive to an input signal from the unit 118. These input signals are used to select signals and data. Table of information on the video display device 112, including information entered by the user, such as Control the indication. Set Top Control 110 is a video Based on whether the application is currently set up (established) and established These input signals are relayed to either the BSC 104 or the VIP 102.   The broadband session controller 104 preferably transmits the commands supplied by the BSCP 106. The control signal from the set-top controller 110 is processed based on the command. Ma In addition, the broadband session controller 104 is connected to the VIP 102 and the set-top controller. When and how to route data between Instructs switch 114 and responds to set-top controller 110 To tell VIP 102 when and how to transfer broadband video .   FIG. 2 is a block diagram of the broadband session control apparatus 104 according to an embodiment of the present invention. The figure is shown. As shown in this figure, the broadband session controller 104 is preferably A processor (arithmetic processing unit) 200, a session manager (management unit) 202, Network connection manager 204, 1 or Two or more resource adapters 206, one or more signal agents 208, and a database 210.   The session manager 202 communicates with the set via the signaling agent 208 Intelliger to communicate with top controller 110 and VIP 102 (Intelligence, information). Prior to setting up a new session, Session manager 202 includes set-top controller 110 and VIP Negotiate on attributes of 102 and its session (negotiate) ). The session manager 202 also modifies an existing session / Set-top controller before modifying / terminating Interact with 110 and VIP 102. Session Manager processing The process includes a set of predetermined events (referred to as "triggers"), which are Interrupts the current process to the session manager 202 and The BSCP 106 is to be inquired about a command to execute. Therefore , The session manager 202 responds to the "trigger" A signal is input from the roll device 118 to provide the user with interactive functionality.   The network connection manager 204 manages the network assigned to a particular session. Requests to allocate / change / deallocate network resources Received from the manager 202. The network connection manager 204 The logical specifications of the transport topography (connection form) are And the assignment / allocation of specific network resources, such as switches Correct the request for release. For example, the network connection manager 204 A predetermined VIP 102 for a particular user, set-top controller 110 Determine what connections should be needed to connect to Command to the resource adapter 206 that controls the broadband switch 114 to Send.   Resource adapter 206 communicates directly with broadband switch 114 to provide a broadband session. Commands from controller 104 are converted to commands understood by a particular broadband switch 114. Convert. Thus, in a preferred embodiment, the broadband session controller 104 Are the resource adapters 206 corresponding to each type of broadband switch 114. Or some other network resource controlled by the broadband session controller 104. Including source. Resource adapter 206 is preferably broadband via connection 126 (FIG. 1A). Communicate with the regional exchange. Connection 126 is preferably connected to broadband switch 114 organization. From a broadband link (line) and multiple broadband content (content) with control information Become. Instead, a separate connection (not shown) is controlled. It can be prepared for your information.   The signal agent 208 determines from the needs (needs) that the session manager 20 2 is pre-screened to implement multiple session signaling protocols. signal Agent 208 is provided by set-top controller 110 and VIP 102 The session signal protocol used by the session manager 202 Convert to the generic session signaling protocol used.   As described above, in the preferred embodiment, the session manager 202 Is a professional that processes with seeking information from BSCP106. Respond to triggers in the protocol. For example, the session manager 202 Request from BSCP 106 on how to respond to the "power on" appearance “Power on” (power on) at the set top controller 110 according to the information ) May be responded to. The trigger operation in BSC104 is for the purpose of explanation For this reason, call-triggered birds in the improved intelligent network ("AIN") By a telephone switch in response to a call model trigger You can think of it as analogous to triggering. Associations to be merged In the AIN, as described in the patent application, the telephone switchboard is Request from the call control information from the service control point) SPACE for MSAP application and each user (Space) Perform base call processing record. In a preferred embodiment, BSC1 04 provides broadband functionality in response to the following triggers:     1.Session Creation Requested    This trigger The message is sent to a broadband network client, such as a set-top BSCP states that controller 110 is requesting the creation of a new broadband session. Notify 106. The network client is preferably the user A software type that acts as a person and interacts with the network on behalf of the user It is. For example, a set-top controller may have a video-on-demand Network and interact with the network within this capacity It is of the client software type. In response to this trigger, BSCP 106 performs output "outgoing screening services". Can be done. Besides, BSCP 106 should transfer the session Broadband client (s) with their names and / or addresses Replies can be used to perform "call forwarding and routing" services. Wear.     2.Session Change Requested)      This trigger Messages are sent to existing broadband sessions with broadband network clients. BSCP10 states that a request has been made for a revision to a session (already in progress). Notify 6. The requested change is made by any of the following operations: Can include:           a. Subscription and / or removal of network clients;           b. Session transport (transport) topology (connection form)                 Changes, For example, a transformer between network clients participating in a session Add / remove port connections;           c. Changes in session control policies (strategies, policies). This session Control policies can be set up through the Network Directory Service. Session privacy policy) Rishi, a group of network policies that allow modifying the characteristics of a session Change control policy (identifying the client), plan to engage in Consent policy (identifying a fixed set of clients), State change notification policy (identifies a group of clients that will be notified of the state change) Seek, pay for network resources used by the session Billing policy (identifying network users who are going to be charged).   In response to the session change requested by the trigger, the BSCP 106 An optional modification screening service can be performed. For example, BSCP10 6 is a change control policy by a broadband client requesting a change to a session. To determine if a session is currently validly authorized. it can. In addition, the BSCP 106 determines if the broadband class to which the “Call forwarding and routing” (“callforwar ding and routing ”) service can be performed.     3.Available address information (AddressInformation Available)This bird Gar messages report session signal addresses of participants in proposed sessions I do. In response to this trigger, BSCP 106 is now valid for the session Examine session consent (aggregation) policy and create / change proposed session Clients to be queried for acceptance of the can be determined. BS The CP 106 queries the session controller 104 about acceptance. Will be reporting a list of clients.     4.Client's Response (Client'Respones Received)    This trigger Is a client to BSCP106 for accepting session creation / change Report response. In response to this trigger, BSCP 106 Examines the policy and, based on the client's response, You can decide whether or not to be certified.     5.Session Action CommittedThis trigger is BS The broadband session controller 104 requests the CP 106 to create / modify a session. Report success. In response to this query, the BSCP 106 Clients that need to be aware of the policy and to be notified of the resulting session Can be determined. In addition, the BSCP checks the billing policy and Clients to pay for renewal can be determined.     6.Session Terminated  This trigger is BSCP106 Notifies that a session has ended. This also sets the BSCP Report the use of network resources that was invited by the application. Based on this trigger In this case, the BSCP 106 can execute various charging services.   As noted in the related patents and related patent applications to be merged, SPAC E is the call processing record (“CPRs”) used for the system of graphic nodes (nodes and nodes) and branches. Is a graphical programming language for generating Nodes and branches are operators Or assembled by the user on the computer screen with graphics and various calls Flow for handling telephone calls based on the model trigger (Flow). In addition, the MSAP program executes CPRs and Supply call processing information to In accordance with the present invention, the SPACE programming language Performed to provide management.   As shown in FIG. 3A, according to the present invention, the BSCP 106 is a processor (arithmetic processing unit). ) 300, a broadband application (application) 302, and multiple user It includes a database 304 in which bandwidth processing records ("BPRs") 306 are stored. Broadband application 302 is preferably a broadband extended SPACE programming And an execution language.   The broadband database 304 contains one or more BPRs 30 for each user. 6 inclusive. In response to a trigger from the broadband session controller 104, BSCP1 06 inquires the BPR 306 about the user, executes the BPR and obtains processing information. Then, a processing command is returned to the broadband session control device 104. Broadband session control Device 104 preferably responds to processing instructions from BSCP 106 by a set-top Command one of controller 110, broadband switch 114, or VIP 102 Respond by doing. The details of these instructions are described below.   3B and 3C illustrate an exemplary BPR 306 processing flow in accordance with one embodiment of the present invention. Indicates low. First, the BPR 306 establishes a video-on-demand (“VOD”) session. In response to the creation (creation) trigger (node 310), the user Judge whether he is qualified to initiate screening (preliminary selection) ( Node 312). If the user screens his / her VOD service If not (false branch 314), the BPR 306 returns to the set-top controller 110. Command to display the level 1 gateway ("L1GW") menu (Node 316). The L1GW menu will be described in more detail later. BPR306 is next Identify the L1GW menu selection made by the user (Node 318). if , If the selection cancels the session (branch 320 ), The BPR 306 sends the session manager 202 Request (node 322). If the choice is a VOD service setting If (setup) is requested (branch 324), the BPR 306 Call the offer logic (node 326). Service delivery Logic provides the user with characteristics of the VOD service, such as VOD access screens. To change the turn on / off (activation / release) of the ringing. these In response to another selection (branch 328), the BPR 306 instructs the BSC 104 to make a selection. The user is connected to the VIP 102 (node 330).   If the user uses VOD screening (branch 332), B The PR 306 calls the screening service process (node 334). Screw The learning service process is, for example, that shown in FIG. 3C. VOD Screenin BPR requests the set-top controller 110 to provide a PIN ( Display a personal identification number) prompt (instruction message) screen (node 340) ). Next, the user makes a selection (node 342). If the user If the user has chosen to cancel (branch 344), the BPR 306 drops the session. Blocks (node 346) and exits this routine (node 348). For other user selections (branch 350), BPR 306 is entered by the user The evaluated PIN is evaluated (node 352). If the PIN entered by the user is If it matches the defined PIN (branch 354), it is shown schematically at node 356. As described above, the processing is continued. Instead, if the user enters a matching PIN If not (branch 358), the BPR 306 closes the process and executes this routine. Exit (nodes 360 and 362, respectively).   Referring back to FIG. 2, the BSC 104 also includes the set-top controller 11. Database 21 which preferably stores data or information to be transmitted to 0 is also included. For some triggers, the broadband session controller 1 04 does not need to tell the BSCP how to respond to information. Instead, session manager 202 sends response information from database 210. Can provide responsive information, eg set-top If the controller 110 is out of the hook, the session manager Manager 202 first retrieves interface graphics from database 210. The block (graphic) can be transferred to the set-top controller 110. Teens Instead, if the session manager 202 responds to the trigger Even if you are operating broadband BSCP 106 for information on The BSCP 106 commands the session manager 202 to send a broadband session device. Responsive to information from database 210 in 104.   As shown in FIG. 2, the broadband session controller 104 has a single session manager. Manager 202. However, in the present invention, the wideband The session controller 104 may include one or more session managers 202. Good. Preferably, the session manager 202 includes the system shown in FIG. 1A. Have each broadband application or service provided It is. For example, one session manager manages the VOD service Then the other second session manager fires a set of different triggers And manage video conferencing services. More on videoconferencing later I do.   In accordance with the present invention, the network connection manager 204 responds to commands with BSCP 10 6 also includes a set of triggers to be queried. In particular, the physical When allocating temporary network resources, the network connection manager 20 4 can require BSCP 106 to grant permission to use certain resources. Wear.   For example, some network resources, such as trunks, Reserved for exclusive use by certain network users, such as governments Can be The connection manager 204 can Whenever an attempt is made to allocate a reserved resource, the trigger state is BSCP Network connection so that 106 authorizes resource allocation The manager 204 is required to make the request.   Session manager 202, network connection manager 204, resources Adapter 206 and the signal adapter preferably execute on processor 200 Software or microcode, and the software or Any hardware necessary to achieve crocode execution in accordance with the prior art It is composed of The processor 200 may be software or micro- To perform the functions described above in relation to those components. Type of processor or computer cable. However, this In an alternative embodiment, the components of the broadband session controller 104 are It can be implemented in electronic logic.   FIG. 4 is a block diagram of a set-top controller 110 according to one embodiment of the present invention. FIG. As shown in this figure, the set-top controller 110 is preferably Is the broadband session controller 104, the video display 110, and the BSN 100 Processor that controls the information flow of signals and broadband content between And a control application 402. In addition, set The controller 110 preferably stores data and video information and stores A memory 404 for buffering.   The set-top controller 110 is a remote control (remote control). ) Decode the input signal sent from 118 to the set top controller 110 An IR (infrared) decoder 406 is also included. Network access I / O (in / out) 408) provides input / output control of information to and from the broadband switching network 100. Offer. The session controller I / O (input / output unit) is a broadband session control device. It provides control of signal information to and from the device 104. Video I / O (input / output unit) 4 Numeral 12 provides control of video information to and from the video display device 112. Finally , A video camera I / O (input / output unit) 414 Provides information control.   FIG. 5 illustrates the broadband network of FIG. 1B providing a V0D service according to an embodiment of the present invention. FIG.   First, in response to a user input signal from the remote control 118 , The set-top controller 110 transmits a service request command to the BSC 104. (Step 500). The session manager 202 of the BSC 104 A service request is issued to the BSCP 106 (step 502). To the service request In response, BSCP 106 performs a BPR (Broadband Processing Record) for that user. (Step 503). In the embodiment of FIG. 5, the BPR for this user is L1GW (Level 1 Gateway) Set Top Control to display menu Command the LIGW menu and set top control via the BSC104. Send to roller 110.   FIG. 6 illustrates an example of the L1GW menu 600. L1GW Menu 600 It is preferable to have selection buttons for various services provided from the broadband network No. These service buttons include the conventional broadcast TV (TV) 602 and VOD (video). (On-demand) 604 or include a button for video conference 606 Can be. The video conference will be described in more detail later. In addition, LIGW menu A text area 600 provides information to the user as needed. (Text area) 610.   Referring again to FIG. 5, a series of interactions between the user and the set-top box (b) Through interaction, BSCP 106 provides the following service settings: (Step 506). The user presses the VOD button 604 from the L1GW menu 600 When selected, the BSCP 106 requests the user's personal identification number (“PIN”) Respond.   FIG. 7 shows a typical display menu requesting the user's PIN. As shown in this figure Next, the PIN display menu 700 includes a “cancel” button (704) and an “OK” button. Tongue (706) as well as the text "Your PIN: Enter Please enter a predefined PIN number (column 702). And select the "OK" button (706). In response, BSCP 106 is an example Then, a VIP menu display 800 as shown in FIG. 8 is displayed. Video selection panel 800 is a selection button corresponding to various VIPs that provide a VOD service in the network. 802a-802d. In addition, the VIP selection menu shows the connection to the VIP server. Not only the setting button 806 to establish the A preview button 804 for providing menu information may also be included.   Referring again to FIG. 5, when the user selects one of the VIP buttons 802, the BSC P106 transmits a session setting request command to BSC 104 (step 5). 08). Next, the session manager 202 selects the VIP selected by the user. A session connection request is transmitted to 102 (step 510). Session from VIP After receiving the connection connection acceptance signal, that is, the acknowledgment signal (step 514), B SC 104 transmits a setting command to BSN 100 (step 512). BSN100 Video (video) between the set-top controller 110 and VIP 102 Image) and signal connections are set up (step 516). BSC10 4 informs the VIP 102 and the set-top controller 110 that the connection has been established. (Step 520). So, VIP102 is like a video selection menu Launch of proprietary interface menu entry (pumping) Start and bring down the broadband connection 518 to the set-top controller 110 .   FIG. 9 shows a typical video selection menu 900 provided by the VIP 102. . The video selection menu 900 includes an exit button (904) and a setting button (906). Include video catalog (catalog) selection buttons 902A and 902B Can be. FIG. 9 shows only two criteria, entertainment (902a) and education (902b). The video selection based on the video selection is shown, Can be given based on many inventories, such as those found in tal stores You.   Depending on the user's selection of the catalog button 902 and the setting button 906, the VIP1 02 may respond by displaying a movie listing menu in that particular inventory . FIG. 10 shows a “more” button 1004 and a “previous menu” button 1 006 as well as video titles (titles) 1002 (a) to 1002 (d 4) shows a typical menu 1000 including a list of items in FIG. The user has a movie title Upon selecting a name, the VIP 102 sends the user's video to the set-top controller 110. The transmission of the video signal to be displayed on the video display device 112 is started.   Referring back to FIG. 5, the VOD session is performed through the set-top controller 110. Terminate in response to a session completion request from either VIP 102 or the user (Step 522). In response to such a session completion request In addition, the network connection manager 204 The broadband switching network 100 to take down the broadband connection to the VIP. (Step 524). Once the connection is closed, the session manager Manager sends session end notification signal to VIP102 and set-top controller 110 (step 526), which causes the system operation (Operation) ends.   In this alternative embodiment, the broadband network according to the present invention provides certain system functionality. Includes intelligent peripherals (“IP”) to provide. In FIG. As shown, this alternative network is the network shown in FIGS. 1A and 1B. Although the basic configuration similar to that described above is left, the IP1100 has the SBSCP106, BSC104, Information transmitter / receiver 101 (in the case of FIG. 11, in the set top 110), And one or more exchanges 114 of the BSN 100.   In the embodiment of FIG. 11, the IP 1100 is the set-top computer in the previous embodiment. It preferably replaces the lower level operations associated with the Troller 110. New In this embodiment, the BSCP 106 displays the image of the VOD menu screen. Sends signal information to IP1100 that requests it to occur, and Through the transport connection in the broadband switching network 100 and the access network 108. Preferably, it is transmitted to the top controller 110. Then this embodiment Then, IP1100 is set top co Offload to the controller. IP 1100 should have the broadband network functionality already described Bellcore intelligent service peripheral modified It is preferred to be composed of Connections 120, 122 and 128 in FIG. It may be a logical connection with a physical connection passing through instead of the machine 114.   FIG. 12 shows a system for connecting a user with an IP 1100 that provides a V0D service. 2 illustrates system settings and processing operations. First, the user passes through the IR decoder 404. And then generate a session request, the session request The sheet is sent from the roller 110 to the BSC 104 (step 1200). BSC104 is positive Returns a constant response signal (step 1202) and sends an information request signal to BSCP 106. (Step 1204). BSCP 106 performs BPR (step 1206). ), And to the session manager 202 of the broadband session controller 104. An information response is returned (step 1208). This response message Message (step 1208) communicates between the IP and the set top controller 110. The broadband session controller to establish a video connection with the signal. Sessi The session manager 202 then sends a session connection request to the IP. A request is made to the signal adapter module 208 (step 1210). IP1 100 receives a session operation to broadband session controller 104 in response to this signal. An attached signal (session action accepted signal) is transmitted (step 1212). In response to the session operation acceptance signal, the session manager 202 Call the network connection manager 204 (step 1214). Network The connection manager 204 communicates with the set-top A signal data and video connection between the controller 110 and the IP 1100 is established. In particular , The resource adapter 206 corresponding to the access network 108 and the broadband switch 114 Signal, video, and audio transmission between the A transport connection is set (connection 1216). Transport connection established Later, the session manager 202 then proceeds to the set-top controller 11 By sending the session connection mode notification to both the IP 11 and the IP 1100, the IP 11 00 and the set-top controller 110 know when to start using the connection. Let   IP 1100 then communicates directly with the user to provide the service functions described above. Can be For example, as shown in FIG. 13, in this alternative embodiment, the IP Once the 1100 and the user's set-top controller 110 are connected, The processing of the IP1100 is performed by the BSCP106 to provide the VOD service to the user. Can be taken over and commanded (step 1302). In response to this request Then, BSCP 106 executes BPR again (step 1304) and responds to IP 1100. The answer information is supplied (step 1306). An example of this is BSCP10 6 instructs IP 1100 to display V0D menu information (s (Step 1308) (ie, when this information is received, the IP 1100 And send it to the set-top controller 110 Do). The user's set-top controller then passes the selection information to IP1100 (Step 1310).   In response, IP 1100 again sends an information request to BSCP 106 (step 1312). BSCP 106 again executes the BPR in response to the information request (step (Step 1314) And another response is returned to the IP 1100 (Step 1316). IP11 00, BSCP106 and IP1100 and set-top controller 1 This communication between the ten sets the user's set-top controller 110 to the VIP 102 Continue until BSCP 106 has all the information it needs to connect to. At this point (step 1316), BSCP 106 commands IP 1100 Request a connection between the user's set-top controller 110 and VIP 102 .   FIG. 14 shows the user's set-top controller 11 in this alternative embodiment. 0 shows a processing step for connecting 0 to the VIP 102. First of all, IP1100 Is an existing session between the set-top controller 110 and the IP 1100 Is requested to the broadband session controller 104. This requested The session change is performed by the signal and And video connection, set-top controller 110 and VIP 102 And establishing a video connection. More specifically, IP1100 Request to the BSC 104 (step 1400), and the BSC 104 confirms affirmatively. A signal is returned to IP 1100 (step 1402). BSC104 then BSCP10 6 (step 1404), the BSCP 106 performs a BPR and It decides how to handle the request (step 1406) and sends response information to BSC 104. The information is returned (step 1408). Then, session management of BSC104 The player 202 sends a session operation (action) request (steps). 1410 and 1412), and transmits a reception session operation reception signal (respectively, Steps 1414 and 1416) allow the user's set-top controller 1 Negotiate with 10 and VIP 102. Set Top Control In response to a session operation acceptance signal from the roller 110 and the VIP 102, the session Manager 202 is a network connection manager for setting up a network connection. The manager 204 is called (step 1418). The connection manager 204 Invokes the appropriate resource adapter 206 through the access network 108 and the BSN 100 To connect the set-top controller 110 to the VIP 102 (signal and video Connection 1420). The BSC 104 then sends a session operation completion signal, which is the final notification. Issue the VIP (step 1422), set-top controller (step 142) 4), and send to IP 100 (step 1426).   The present invention also provides for broadband video conferencing. The general operation of this network It is important to note that the video source is not a VIP Broadband coming from video camera 120 coupled to top controller 110 Except for video conferencing operations, the operation of the VOD service The same as the ration. Preferably, for video conferencing, set-top The controller 110 includes a camera 120, a microphone (not shown), and a video table. The display device 112 and a speaker (not shown) are controlled.   The video conferencing service is preferably a TV on the L1GW menu as shown in FIG. Selected by use of conference button 606. In response to the videoconference selection, the BSCP 106 preferably provides the video conference menu to the caller's set top controller 1 02. A suitable videoconferencing menu 1500 is shown in FIG. Show. The videoconferencing menu 1500 preferably includes the caller's videoconferencing service. Personal list of personal or professional names of senders included in the list (personal list) including.   The video conference menu 1500 includes “Return” 1504 and “Continue” 1506. , "Search" 1508, and "Stop" 1510 buttons. A “go back” button 1504 displays the main menu shown in FIG. I do. A “find” button 1508 determines the address of the videoconference subscriber. Set. In response to the selection of the “Search” button 1508, the set-top control LA 110 prompts the caller for information about videoconference subscribers who need an address Display (prompt) screen. "Continue" ("more") button 1506 In response to the selection, the set-top controller 110 provides the caller with a video conferencing service. Service, often calling for services Display other parts of the list 1502 (a) -1502 (d). "Stop"(" hangup ") button 1510, the set-top controller 110 Engaged in the current videoconferencing session with the Video conferencing network used by other video conferencing users Request termination of existing videoconference sessions between clients.   FIG. 16 is a processing step for providing a video conference service according to an embodiment of the present invention. Show As mentioned earlier, video conferencing is a set-top Setup (preparation / setting) step 1600 between controller and BSC 104 1608 and the communication between BSC 104 and BSCP 106 are the steps shown in FIG. Same as 1200 to 1208. In response to the information request message (step 1 604), the BSCP 106 preferably performs a broadband processing record BPR (step 604). 1606), which is similar to the typical BPR shown in FIGS. Services provided to video conferencing users, for example, "call preselection" (call Cleaning), “transfer and route” services, etc. Can be. In this configuration, in response to information from BSCP 106, BSC 104 Session manager 202 is attempted through signal adapter 208 A session operation request signal to the called party (called subscriber) of the Step 1610). The called set-top controller 110 is a signal adapter Accepting or rejecting requests to session manager 202 via 208 And respond. In this case, it is assumed that the request has been accepted (step 1). 612). Session manager 202 then connects to connection manager 204 To set up a broadband connection between the calling party (the calling subscriber) and the called party ( Settings) (step 1614). The connection manager 204 then And calls transport 206 for broadband network 100 and access network 108. A connection (transfer connection) is set (step 1616). Network resources Once allocated, the session / manager 202 calls Send a notification signal to both the set-top controller 110 of the called and called parties ( Steps 1618 and 1620). In this mode, video information (image information) And voice information are both extracted over the broadband connection.   So far, this description has focused on the configurations and services provided by broadband networks. And concentrated. However, the broadband network according to the invention is integrated with the telephone network. To provide additional services and features.   FIG. 17 shows a block diagram of an integrated broadband and telephone network according to one embodiment of the present invention. As shown in this figure, the broadband network 1700 and the telephone network 1702 are integrated through a connection 124. Communicate with the combined broadband / telephone SCP ("BTSCP") 1704. Broadband network 1700 Preferably including a broadband switch 114 and a broadband session controller 104 Includes the basic components of a broadband network as described. Broadband switch 114 is a user To provide broadband information as described above. Offer.   The telephone network 1702 is a public switched telephone network (PSTN), an intelligent network (PSTN). “IN”) or a slave that includes an improved intelligent network (“AIN”). Conventional telephone networks can be included. AIN is subject to related patent applications to be merged It is described in detail. In FIG. 17, the basic exchange 1706 of the telephone network and the line information Only the database (“LIDB”) 1708 is shown.   As described above, the AIN exchange 1706 relays the command from the SCP to process the call. Supply the relevant information. The switch 1706 of the telephone network 1702 then connects via the connection 124. To connect to BTSCP1704. The switch 1706 also has a conventional connection 1712. Through the end-user (end user) call processing equipment 171 such as a telephone Also connect to 0. Moreover, a switch 1706 according to the present invention is located at a remote location of the user. A direct connection to the set top controller 110 is also possible. FIG. Talk exchange 1706 and user's CPE (call processing equipment) 1710 and set-top Controller 110 has separate and independent connections 1712 and 1714 only. However, only a single connection may be required. This embodiment is illustrated in FIG. 18, where a single connection 1712 is connected from telephone network 1702 to a remote location. Has continued. In this embodiment, the line splitter / caller ID (identification number) adapter 1800 splits the telephone connection 1712 and connects the telephone extension 1802 to the CPE 1710 And sends it to the set-top controller 10. Adapter part of caller I.D. Will be described in more detail later.   In accordance with the present invention, the integrated BTSCP 1704 includes a broadband network 1700 and a telephone network 1702. Services across these networks in a competent and effective way for both Give processing instructions to integrate. As shown in the embodiment of FIG. In order to integrate the network, the integrated BTSCP 1704 uses a broadband SPACE Application 302 and telephone SPACE application 1900 Includes Again, a basic phone space application 1900 is described in the related patent application to be incorporated. In alternative embodiments The broadband SPACE application 302 and the telephone SPACE application 1900 exists as a single integrated application.   In one embodiment, BTSCP 1704 is the data containing BPRs 306 Base 304 and an auxiliary database containing telephone call processing records CPRs 1904 1902. CPRs are also listed in related patent applications to be merged . In an alternative embodiment, both BPRs 306 and CPRs 1504 are single data Included in base. The processor 300 is a broadband network 1700 or a telephone network 1 702 in response to a trigger from one of the two Execute the operation 302 or 1900 and give a processing instruction to either network. Access the appropriate database 304 or 1902 to access.   In one embodiment of the invention, broadband and telephone functions are provided by an integrated SCP. However, in an alternative embodiment, the functions are distributed across multiple SCPs. Is done.   By integrating the broadband and telephone networks (circuit networks), the present invention New network-based services (end-of-line based services) Service). For example, in accordance with the present invention, end users may Video and telephone services via a display interface at the remote location of the user Can now be supplied. The display interface of this embodiment Is preferably connected to a set-top controller 110, for example as shown in FIG. 1B. It consists of a connected video display device (or television receiver).   Video and / or telephone service via display interface To provide, the present invention provides a service provisioning menu similar to the broadband menu described above. I will provide a. FIG. 20 shows a service supply menu. Just the other mentioned above As the broadband menu of FIG. 20, the service supply menu of FIG. 4. Integrated peripheral device 1100, BSC104, or set-top controller It can be launched on a variety of resources, including 110.   As shown in FIG. 20, the service provision menu 2000 is preferably a video button. Button 2002, telephone button, and previous button (previous screen button) 20 06. Video-on available by selecting video button 2002 Preferably displaying a list of demands, while the telephone button 20 Preferably, a list of telephone services that can be provided by selecting 04 is displayed. Step A REVISION button 2006 allows the user to return to the previous menu.   Broad band that can be supplied to the end user in accordance with an embodiment of the present invention An example of an area network-based service is video-on-demand access. Screening service. For this service, users will see a video List of video services that will be displayed after selecting button 2002 Select VOD access screening from the list (not shown). Broadband network 1 In response to this selection, a menu 700 is displayed, for example, as shown in FIG. Respond by. This menu has “VOD Access Screening On 2100, and a line that can be read as a “new PIN” column 2102. VOD access To enable cleaning (preselection of VOD access), the user must Box 2108 and select the PIN (Personal Identification Number) in the new PIN field 2102 To select the VOD access / screening row 2100. cancel Button 2104 is used to cancel any changes and return to the previous menu screen. Allow to the user. OK button (Approve button) 2106 after the menu is completed The service is allowed to be used by the user. About other above broadband services As described, collected by the VOD access screening menu The information is returned to the integrated BTSCP 1704 and added to the user's BPR 306.   As mentioned above, the user can connect via the video interface according to the invention. Talk services can also be provided. User receives diagram A telephone button 2004 in the service supply menu 2000 of the user 20 is selected. FIG. 2 is a telephone-based service that will be displayed in response to the selection of the telephone button 2004. Here is a typical list of services. For example, the telephone service supply menu in FIG. Turn on the call blocking feature (line 2200) Accept to the. When the user selects the incoming call blockade 2200, the user receives the blockade service. Bi The desired telephone number can also be locked out (line 2202). Also The telephone service processing menu turns on the caller ID display function (line 2204). The user or to review the latest incoming call history (line 2206) Accept. The telephone menu of FIG. 22 also includes a cancel button 228 and an OK button 22. 10 is also included.   FIG. 23 shows a display device of the user in response to the selection of the power-on history button 2206 in FIG. 11 shows an incoming call history service display screen displayed at 112. Column 2300 is the most recent Predetermined number of incoming calls, date and time of incoming calls, and incoming state (distribution or blockade) Show the list. In addition, the incoming call history according to the present invention is Caller I. containing the caller's name D. (Identification) information. This caller I. D. Information This will be described in more detail later. Also, the incoming call history menu ends the list and the next screen (M0RE) button 2302 to move to the screen and the previous screen Also includes a previous button 2304 for causing   As mentioned above, the present invention provides video-based caller I.D. delivery I do. FIG. 24 is a diagram to help explain this service. FIG. 24 shows the weather, for example. A normal television program such as a forecast (weather report) is displayed on the user's display device 112 Indicates that it has been. At this time, when a call arrives at the user's telephone, the conventional technique is followed. Thus, this call will ring the user's phone. However, in accordance with the present invention, the originator's I.D. D . The information is transmitted to the set-top controller 110 and the Window 2402, the caller I. D. Display information.   FIG. 25 shows a typical dress that can be displayed in the display window of the user's display device 112. 3 shows a list of call information. The incoming call information 2500 preferably contains the name of the caller (field 2 502), the caller's telephone number (column 2504), call arrival time (column 2506) Dates (column 2508) and incoming call processing (column 2510) are listed. Incoming call The status column 2510 reports to the user whether the call was delivered or blocked, and Is provided by the user making a reservation to the incoming call blocking function. DONE button The button 2512 allows the user to return to the normal display screen. Call history (CALL HISTORY) button 2514 provides the same function as the input history column 2206 in FIG. You.   Next, the processing operation of the integrated broadband and telephone network for providing the incoming call information will be described with reference to FIGS. This will be described with reference to FIG. In the first embodiment, a line splitter / sender I.D. adapter 1800 (FIG. 18), the caller ID adapter portion (1800 is hereinafter referred to as “caller ID. Outgoing calls that connect to the user's telephone line) It has the same functionality as today's ordinary caller ID devices for identifying callers. This fruit In an embodiment, the caller ID adapter 1800 rings the user's telephone 1710. Transmitting the caller ID information to the user's set-top controller 110, The set-top controller 110 transmits the caller ID information to the user's display device 112. The appropriate columns (2502 and 2504) of the incoming call information window 2500 according to FIG. ).   FIG. 26 provides video-based caller ID information according to a first embodiment of the present invention. FIG. In this embodiment, a telephone call through the telephone network Is accomplished in a manner consistent with today's popular caller ID service.   First, a calling subscriber calls a user (called subscriber). The caller's telephone set to transmit a call setup request to the telephone exchange. (Step 2600). The exchange detects the calling name in response to the call setup request. A search request is transmitted to the LIDB (step 2602). LIDB is the telephone number of the calling subscriber Match the calling subscriber's name to the number and return the calling subscriber's name to the exchange ( Step 2604). The switch then sends a call setup request (including caller identification information) Request to the other party's telephone (step 2606). However, in the present invention The caller ID adapter 1800 receives this call setup request and includes it in the call setup request. Request to the set-top controller 110 for the transmitted caller ID information (step 2608). The set-top controller then controls the win The caller information is displayed in the dough (step 2610). At the same time, the caller I.D. The connector 1800 sends the call setup request information to the telephone of the called subscriber (step 26). 12) Ring the telephone (step 2614). Called party is visible The caller information can be peer reviewed to determine whether to answer the call. This embodiment , The caller ID information is sent to the set-top controller 110 by the display device 1 Although sent to be displayed at 12, in an alternative embodiment, Line splitter / caller ID adapter 1800 displays CPE 17 for displaying caller ID information It may be delivered directly to the sender 10 or directly display the sender ID information.   As just described, providing caller ID information according to the embodiment shown in FIG. Thus, the present invention does not require the broadband network to deliver caller ID information. Rather, caller information is provided remotely according to conventional telephone network technology. However However, in an alternative embodiment, the caller ID information is transmitted over the broadband network 1700 to the called party. It can also be delivered to the subscriber's display.   Referring to FIG. 27, first of all, the calling subscriber is called by the user (called subscriber). Dial the talk number. Again, the calling subscriber's telephone sets a call setup request. The message is sent to the telephone exchange (step 2700). In this embodiment, the telephone exchange The switch preferably sends a trigger query to BTSCP 1704 (step 2702). The BTSCP then requests the name of the calling subscriber from the LIDB (step 2704), the LIDB returns the calling subscriber's name (step 2706). BTSCP Step 1704 instructs the telephone exchange to confirm the call setup for that exchange (scan). Step 2708), and the set-top of the called party through the broadband network 1700. The caller information is sent to the controller 100 (step 2710), and the The controller displays the caller information on the display device 112 (step 2712). The telephone exchange sends a call setup request to the called party's telephone (step 2714), This causes the telephone to ring (step 2716). Therefore, at about the same time, The calling subscriber's telephone rings and the set-top controller uses caller identification information. On the video display 112 of the user. Instead, BTSCP uses traditional calling Returns the name of the calling subscriber to the exchange for distribution to the caller ID (telephone number) display device can do.   The presently illustrated preferred embodiments and methods of the present invention are illustrated here. Although described, those skilled in the art of the present invention (the skilled artisan) will appreciate that Various changes and modifications of the present invention are possible without departing from the true scope (intent) of Ming. Therefore, it can be understood that the components can be replaced with equivalent components. For example In a preferred embodiment, the BSCP 106 is a service generated by the BSC 104. Supplying processing instructions and / or data in response to the service. However, In an alternative embodiment, BSCP 106 communicates directly with information transmitter / receiver 101. Information via BSC 104, BSN 100, or other communications facsimile. In response to a direct inquiry from the transmitter / receiver 101, processing instructions and / or Or could supply data.   In addition, many modifications may be made without departing from the central scope (gist) of the present invention. What is done by adapting specific elements, techniques or practices to the guidance it can. Accordingly, the present invention is limited to the specific embodiments and methods described herein. Without departing from the scope of the appended claims, all embodiments that fall within the scope of the appended claims are included. It is intended to be rare.The scope of the claims 1. A broadband network for connecting information transmitters / receivers,   A broadband switching network,   A broadband session controller communicating with the information transmitter / receiver;   Connected to the broadband session controller, the broadband session controller and And a broadband giving processing instructions to at least one of the information transmitter / receiver Service control points and   A broadband network comprising: 2. The broadband session control device,   Responding to a signal from a first information transmitter / receiver, said broadband service control point Means for requesting processing information from   The information transmitter / receiver in response to processing information from the broadband service control point Means for instructing said broadband switching network to establish a broadband connection between;   The network of claim 1, comprising: 3. The broadband session control device,   A set that manages communication between a first information transmitter / receiver and the broadband service control point. And the application manager   The first information transmitter / receiver and at least the broadband session control device Establishing a broadband connection between the device and one of the second information transmitters / receivers With a network connection manager for   The network of claim 2, comprising: 4. The broadband service control point, the broadband service control device, and the And further comprising an intelligent peripheral device connected to the band switching network. The network according to claim 1. 5. The broadband service control point sends information to one of the information transmitters / receivers. Including means for instructing said intelligent peripheral device to communicate. 5. The network according to claim 4, wherein 6. The broadband session control device,   Broadcast between one or more information transmitters / receivers and the broadband service control point A session manager that manages the band session signal;   Necessary for establishing a broadband connection between two or more information transmitters / receivers Network connection manager   The system of claim 1, comprising: 7. It has multiple user records, and each user record has a service A database containing resource information,   In response to a trigger from a broadband session controller, the user record Means for performing one and the other   A processing command is sent to the broadband controller in response to the information of the at least one user record. Means to give orders   A broadband service control point, comprising: 8. First and second information transmitter / receiver, broadband switching network, broadband service control, Transmitter / receiver in a broadband network including a network and a broadband session controller A method of providing a broadband connection between   Responding to a control signal from the first information transmitter / receiver;   Requesting a processing command from the broadband service control point in response to the control signal; And   Transmitting the first and second information in response to a processing command from the broadband service control point To instruct the broadband switching network to establish a broadband connection between the transmitter and the receiver. And   A method comprising: 9. Broadband switching network, broadband session controller, and broadband service control point In a broadband network including   Receiving a request for a processing instruction from the broadband session controller. When,   Performing a wideband processing record corresponding to a given user;   To the broadband session controller according to the information contained in the wideband processing record Providing a processing instruction;   A method comprising: 10. A broadband switching network,   A broadband session controller communicating with the information transmitter / receiver;   At least one of the broadband session controller and the information transmitter / receiver Communicate with one or the other, the broadband session controller and the information transmitter / receiver. A broadband service control point for providing processing instructions to at least one of the transceivers;   A broadband network for connecting an information transmitter / receiver, comprising: 11. Multiple information transmitter / receiver, broadband switching network, and broadband session control A broadband network including a control device,   A first transmitter / receiver or one of the users at the broadband session controller Means for managing the started user session,   According to the control information provided by the broadband session control device, the first information Broadband between an information transmitter / receiver and one or more other information transmitters / receivers Means for establishing regional connections and   A broadband network comprising: 12. Multiple information transmitters / receivers, broadband switching networks, broadband service control points, And in a broadband network with a broadband session controller, two or more A method for providing a broadband connection between an information transmitter / receiver,   A switch responsive to a control signal from a first information transmitter / receiver or a broadband controller. Tep,   A switch for requesting a processing command from the broadband service control point in response to the control signal; Tep,   Two or more of the above according to processing instructions from the broadband service control point Instructing the broadband switching network to set up a broadband connection between an information transmitter / receiver Steps to do   A method comprising: 13. First and second information transmitter / receiver, broadband switching network, and wideband session A broadband network including a location control device,   User session initiated by a user at the first information transmitter / receiver Means for managing   Provided by a broadband service control point connected to the broadband session controller. The first information transmitter / receiver and the second information transmitter / receiver according to the received control information. Means for establishing broadband connections between receivers   A broadband network comprising: 14． A broadband network for connecting information transmitters / receivers,   A broadband switching network,   A broadband service control point;   The broadband server for communicating with the information transmitter / receiver according to processing instructions. A plurality of broadband session controllers connected to the service control point   A broadband network comprising: FIG.FIG. 5FIG. 11FIG. 26

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04N 7/14 H04L 11/20 101A 7/173 620

Claims (1)

[Claims] 1. A broadband network for connecting information transmitters / receivers,   A broadband switching network,   A broadband session controller communicating with the information transmitter / receiver;   A broadband service control point connected to the broadband session controller. A broadband network, characterized in that: 2. The broadband session control device,   Responding to a signal from a first information transmitter / receiver, said broadband service control point Means for requesting processing information from   The information transmitter / receiver in response to processing information from the broadband service control point Means for instructing said broadband switching network to establish a broadband connection between;   The network of claim 1, comprising: 3. The broadband session control device,   A set that manages communication between a first information transmitter / receiver and the broadband service control point. And the application manager   The first information transmitter / receiver and at least the broadband session control device Establishing a broadband connection between the device and one of the second information transmitters / receivers With a network connection manager for   The network of claim 2, comprising: 4. First and second information transmitter / receiver, broadband switching network, and wideband session A broadband network including a network controller,   User session initiated by a user at the first information transmitter / receiver Means for managing   Provided by a broadband service control point connected to the broadband session controller. The first information transmitter / receiver and the second information transmitter according to the obtained control information / Means for establishing a broadband connection between receivers   A broadband network comprising: 5. The broadband service control point, the broadband service control device, and the And further comprising an intelligent peripheral device connected to the band switching network. The network according to claim 1. 6. The broadband service control point sends information to one of the information transmitters / receivers. Including means for instructing said intelligent peripheral device to communicate. The network of claim 5, wherein 7. It has multiple user records, and each user record has a service A database containing resource information,   In response to a trigger from a broadband session controller, the user record Means for performing one and the other   A processing command is sent to the broadband controller in response to the information of the at least one user record. Means to give orders   A broadband service control point, comprising: 8. First and second information transmitter / receiver, broadband switching network, broadband service control, Transmitter / receiver in a broadband network including a network and a broadband session controller A method of providing a broadband connection between   Responding to a control signal from the first information transmitter / receiver;   Requesting a processing command from the broadband service control point in response to the control signal; And   Transmitting the first and second information in response to a processing command from the broadband service control point To instruct the broadband switching network to establish a broadband connection between the transmitter and the receiver. And   A method comprising: 9. Broadband switching network, broadband session controller, and broadband service control point In a broadband network including   Receiving a request for a processing instruction from the broadband session controller. When,   Performing a wideband processing record corresponding to a given user;   To the broadband session controller according to the information contained in the wideband processing record Providing a processing instruction;   A method comprising: 10. A broadband switching network,   A broadband session controller communicating with the information transmitter / receiver;   At least one of the broadband session controller and the information transmitter / receiver A broadband service control point that communicates with either   A broadband network for connecting an information transmitter / receiver, comprising: 11. Multiple information transmitter / receiver, broadband switching network, and broadband session control A broadband network including a control device,   A first transmitter / receiver or one of the users at the broadband session controller Means for managing the started user session,   According to the control information provided by the broadband session control device, the first information Broadband between an information transmitter / receiver and one or more other information transmitters / receivers Means for establishing regional connections and   A broadband network comprising: 12. Multiple information transmitters / receivers, broadband switching networks, broadband service control points, And in a broadband network with a broadband session controller, two or more A method for providing a broadband connection between an information transmitter / receiver,   A switch responsive to a control signal from a first information transmitter / receiver or a broadband controller. Tep,   A switch for requesting a processing command from the broadband service control point in response to the control signal; Tep,   Two or more of the above according to processing instructions from the broadband service control point Instructing the broadband switching network to set up a broadband connection between an information transmitter / receiver Steps to do   A method comprising: 13. The broadband session control device,   Broadcast between one or more information transmitters / receivers and the broadband service control point A session manager that manages the band session signal;   Necessary for establishing a broadband connection between two or more information transmitters / receivers Network connection manager   The system of claim 1, comprising: 14． A broadband network for connecting information transmitters / receivers,   A broadband switching network,   A broadband service control point;   Each of said broadband service control points for communicating with said information transmitter / receiver With multiple connected broadband session controllers   A broadband network comprising: