Method and device for exchanging information via communication network

FIELD: method for associating unique identifier with information object.

SUBSTANCE: connection of unique identifier such as phone number or Internet address, for example, IPv6 and specific information object, named a phone page, makes it possible for A-side to receive direct access to information, which Beginning-side or client device of Beginning-side user require to be shown to connected side. Phone page is positioned in memory of telecommunication network or data transfer network. Phone page phone page may look like Internet web page, but also is capable of taking other appearances. Process of processing or demonstration of phone page can be made dependent on capabilities of A-side user device.

EFFECT: possible navigation between series of information objects by using new connection between communication data transfer network and telecommunication network.

2 cl, 12 dwg

 

Background of the invention

The presented invention relates mainly to a method and device information exchange switching systems. Presented in more detail the invention relates to a switching system that connects with public or private data network and public or private telecommunications network.

The successful development of telecommunications allows more users to access the Internet. The Internet has become not only a source of knowledge, but also a new area of business that attracts more and more users. Currently, the telecommunications industry is facing growing pressure as well as to provide solutions that provide access to the Internet from virtually every user. Decisions based on broadband networks are constantly being improved and developed and deployed new local and national data network. Currently, the most common and widespread method of access via modem to the telecommunications network (public switched telephone network (PSTN), the PSTN provider) is replaced by other methods of access with high-speed data transmission, i.e. transmitting data through a transmission line or cable TV.

At the same time, the telecommunication is ion industry solves another problem: how to ensure the mobility of each user. Traditionally, in telecommunications, the focus was on voice. With the increase of the amount of information, however, there are new requirements (i.e. higher data transfer speed), but there are also new opportunities. The development of mobile communication systems is at the stage when there are more systems based on the switching data packets. Compared with systems based on switching channels, systems based on switching the data packets have certain advantages when it comes to information transfer. In the system, based on the switching data packets, the user uses resources only when the system control signals or transmits user. In the system based on switching channels, transmission resources are allocated to the user continuously, even if there is no active transmission. The system based on switching channels, has obvious advantages for voice communication in real time, as in this case, it is difficult to predict, as will be communication. Data is not as important an accurate assessment of the required system resources as constraints on delay, and their variations are not so important for the quality of communication, as in the case g is Lozovoy communication. Thus, it becomes possible to provide access to transmission resources for a larger number of users, provided that after the transfer channel is released and available for other users.

One such system is the evolution of mobile communication systems with data packets corresponding to the specifications of the global mobile communications system (GMS)developed in EISA (European telecommunications standardization Institute) service of the radio data packets (SPCD) (technology transition from systems of the second generation universal mobile telecommunications system). In the standard SPCD the system can serve more users with higher communication rates than is possible today, when communication is implemented in the system based on switching channels. Compared to GMSS system, SPCD system is a step forward in the direction of mobility of the users of communication systems, as GMSS system optimize mobility "traditional" users, i.e. users of voice communication in real time.

Data transfer is taking place today through a telecommunication network, usually initiated by Internet or mail server. The user is logged on removed the om server and accesses the data network, i.e. via modem pools. The user calls into the modem pool and through it connects to the server via which accesses the local and global networks. Browsers such as Netscape Navigator or Microsoft Explorer, are used for navigating through the resources of the Internet, there are pages and addresses. Users and organizations usually create their own information objects or pages web sites on the external or internal networks, which provide access to personal information or any other kind of information. Once connecting and getting access to the data network, the user can access the information objects, typing the correct address. This address is often consists of a combination of a host name in the network (i.e. the server name) and an arbitrary text string. Usually, it is very difficult to search for the necessary information of the object, such as text strings and names servers are nontrivial sequences of characters.

When addressing the telecommunications network involved in voice or data transmission, it is done by dialing a phone number on the user's device (UE), such as a mobile phone or terminal with functions of the facsimile. Phone number this is a unique unified address bar. The caller (A-CT is Ron) gaining the address bar (In-room) for addressing the called party (B-side). Depending on the type of network data transmission-side with the subscriber, the request for a connection is routed over one or more public telecommunications networks, reaches the destination, and the connection can be made. Other unique character strings are addressing, for example, e-mail addresses, IPv4 addresses, IPv6 addresses and address of the initialization Protocol session.

The above principle is also used in the case when the user wants to access the Internet from a computer connected to a telecommunications network. The user connects to the data network, gaining In-room modem pool from which you are accessing this network. There is no additional exchange of information with the called server, in addition to the capabilities described above.

Applicants have found that there is a problem with the accepted way of accessing the Internet for the purpose of receiving access to specific data objects, because the addressing mode information objects difficult. Further, there is need to provide in the telecommunications industry more simple way of accessing the Internet, including full support for user, i.e. the coordination of its work with the web page or information objectone as it is currently, when support is provided before the step of dialing the modem, as from this point, the user performing the navigation in the Internet or working with information objects, must rely on their own skill.

The invention

The presented invention overcomes these drawbacks by identification and search of the information object and provides navigation between sequences of information objects by applying a new connection between communication data network and a telecommunications network or a new connection between the various services in the data network.

In one aspect of the presents invention describes how to connect the unique identifier In-hand, such as the dialed number In-hand, Internet address, i.e. email address, IPv4 address, the address of the initialization Protocol session or IPv6 address) with an information object. B-side can be, for example, a natural person, facsimile, mail server, email client or accesses to web pages. Connection rooms In-hand with specific information object, denoted below as a telephone page, will allow the a-side to gain direct access to information, which party wants to show or handle for vizualisation side. Phone the page is in memory of the telecommunications network or in a memory connected to the data network. Phone page may be similar to the web page of the Internet, but can also take another form, for example, as a speaker phone page or program. Display/edit phone page can be made dependent on the capabilities of the device user And the party.

Depending on the type of device the user-side node that stores the phone page, can determine the device type and select the most optimal mode of displaying the selected information objects.

Phone page, also depending on the type of equipment And is able to provide different levels of possible interaction, that is, only show information or to be fully interactive information object with support for duplex communication between A-party and the node containing the memory that stores the telephone page.

Phone pages can be configured in such a way that it can be displayed automatically or by specifying a-side. In one of the embodiments of the presented invention B-side has the same opportunities receive phone pages when receiving a unique identifier from the A-side, this is AK A-room, email A-side, IPv4 address, the address of the initialization Protocol sessions or IPv6 address associated with the incoming communication.

In another aspect of the presents invention describes a telecommunication network node or a node of the data network. This site consists of, at least, the memory of the database, including at least pointers phone pages, which are transmitted when receiving a remote request to the database.

Passing a pointer to the calling a-party may depend on the connection type and access technology used for the connection. For example, when connecting, when simultaneous communication of two parties, one of which is a system based on switching channels, and the other is a system based on packet-switched data, that is, the pointer can be transmitted to the communication resource packet switching, and voice communication can be initiated on the resource-switched channels. In other types of connections, two data flow can be installed on one or multiple simultaneous communication resources in packet switched data, i.e. the transmission of voice and data. Another example, when voice communication is initiated via the communication resource switched, and pointers phone pages is eredita through the channel system, based on the switching data packets with disabilities, such as the channel of the short message service (SCS). In another example uses two communication channels, where one represents, for example, a chat or e-mail, and the other is intended for pointers phone pages.

In accordance with the invention, the method of selection of the object to the first user communication task in connection with a communication service with the second user communication task involves several steps performed by the first user of the communication task. In the first step, is determined to see if a trigger event. In the second step, the requested address of the communication service associated with the triggering event. In the third step, a request for an information object associated with the address of the communication service, where the request includes at least two parameters, the first of which is the address of the communication service and the second is a specific trigger event. The fourth step is sent a request for the information object to the server information objects. On the fifth step involves obtaining information of an object or pointer information of the object from the server information objects depending on p the parameters. On the sixth step is the processing of the received information objects or pointers to information objects. Preferably, the type of communication service specifies the server information objects. The address of the communication service associated with the second communication by the user task. The query parameter can represent a code that indicates the types of communication available to the first communication to the user task. The query parameter can represent a code that indicates the priority use of types of communications available to the first communication to the user task. The query parameter can represent a code indicating the desired communication service from the second communication by the user task. The communication address may be the address of the first access device of the user or the access address of the second user device. If the first communication task the user is initiating a task, then the second communication task the user is terminating and Vice versa: if the second communication task the user is initiating a task, the first communication user task is terminating. The query parameter can represent a code that indicates the type of media. The query parameter mo is no present code, indicates the type of the first device or the second communication tasks users. The query parameter can represent a code indicating the available and/or the supplied accessories. The query parameter can represent a code indicating the version of the used method. Preferably, the request is encrypted before transmission. Mainly received encrypted information object and processing step information objects decrypted. The triggering event may include an event initialized communication or which will be initialized. Mainly, the step that defines the trigger event further determines whether there will be additional communication event during the communication session, thus having the opportunity to initiate further requests for information objects. The triggering event may be an event of pressing the selected button on the user's device. The query parameter can represent a code that indicates the server information objects, then this code can provide the server name or network address consisting of a network ID and host ID.

In accordance with the invention, the telecommunications or information system includes the first user's device with the first communication task of the user, the second of stroytorgservis with the second communication task-user communication network for implementing channel communication service between the first and second tasks of the user and server information objects. The first user's device is arranged so that determines the appearance of tegernako events, requests the address of the communication service associated with the triggering event, and creates a query for an information object associated with the address of the communication service. The estimated query consists of at least two parameters where the first parameter is the address of the communication service and the second parameter represents a particular trigger event. The first user's device is arranged so that the selection, if possible, encrypts and sends the request to the information objects in the server information objects. Other sequence parameters may also be considered in the framework of this invention. Server information of objects is arranged so that it returns the information object or the pointer information of the object depending on the settings on the first task of the user in response to the request. The first user's device is arranged so that it receives an information object or the pointer information of the object from the server information objects and then processes the received information object or pointer information is ion of the object.

In accordance with the invention presents a method for extracting the object from the first user device connected through the first communication channel with the second user's device, consists of several steps. In the first step requested address pointer. In the second step determines whether the trigger event, a request for an information object associated with an address pointer. The request consists of at least two parameters, the first of which is the address of the communication service and the second is a specific trigger event. In the third step, the request is sent to the information object via a second communication channel to the server information objects. In the fourth step is receiving information of an object or pointer information of the object from the server information objects, depending on the parameters. And, finally, in the fifth step is to process the received object or pointer information of the object.

In some versions of the method, the first communication channel and second communication channel are parallel channels. In other embodiments of the method of the first communication channel and second communication channel are not parallel channels.

The first communication channel may be a channel is istemi switched channels or channel systems with packet-switched data. The second communication channel may be a channel system with switching the channels or channel systems with packet-switched data.

Mainly, the address pointer may be a telephone number, an Internet address, such as a network address, the email address of the first user device and/or the second user's device.

In some versions of the method, the first device user is initiating device user and the second user's device is a terminating device of the user. In other embodiments of the method the second user's device is initiating device user and the first user's device is a terminating device of the user.

Mainly, the query parameter may be one or more code view, points to the base location of the operator representation of the code indicating the type of information carrier, representation of the code that specifies the vendor of the equipment, the representation of the code indicating the type of device the user, a representation of the code indicating the available and/or attached accessories, such as a set of accessories class "handfree", "Chambord", digital player, radio, reader, barcode, handheld computer and/or any equipment class "Bluetooth", the code indicated yvouxeo active or not accessories (for example, headphones or devices of class "handfree" for car and so on) and active accessories will include audioinformation object and the representation of the code indicating the version of the used method.

Preferably, the request is encrypted before sending. Mainly received information object is encrypted and decrypted on the processing step information object.

The triggering event may be one or more event where an outgoing call is initiated or will be initiated event, where addressed to the called party answers the call, the event addressed the called party is busy, an event where addressed to the called party does not respond, the event where addressed to the called party refuses to answer a call, the event where the call is urgent or you just did an event where the call was disconnected, the event where the call was made. The triggering event may be one or more event, where the new cell open mobile terrestrial communication network (ANSS) was selected or the subscriber's location has changed. Preferably, when the Triggering event is a new cell or the subscriber's location, the required information object relates to a new cell or the subscriber location, such as local advertising information. The trigger event is it can be the selection of a new operator OMNS. Preferably, when the address pointer is a new operator OMNS, the requested information object may refer to a new operator OMNS, such as containing a price list of services of a new operator OMNS. The trigger event can be an event registration of a new country. Preferably, when the address pointer is a new country, the required information object was related to a new country.

In some versions of the method the step of determining the triggering event further determines if there are additional trigger event during the communication session, to be able to initiate further requests for information objects within call.

Mostly, commercial information may be sold by dialing or receiving access to the web page and the corresponding trigger event, then the event of payment, such as when the call was connected on the first communication channel or when the call was disconnected. It is preferable that an information object has been commercial information or were commercial information.

The triggering event may be selected by pressing the user button on the user's device. Next, the address pointer can be, for example, the phone number is m or IPv6 address, included in the list on the first user's device. The address pointer can be the address pointer of one or more missed calls, outgoing calls or incoming calls. The address pointer can be, for example, telephone number, email address, IPv4 address, the address of the initialization Protocol session or IPv6 address.

Mainly the query parameter can represent the code identifying the server information objects. Preferably, the representation of the code, information identifying the server object represents the server name and the network address consists of a network ID and host ID.

At any time when the device of the first user is not involved in the call or close to the end of the call, information objects can be retrieved from the server information objects and stored locally in the first user's device to be available when the next trigger event.

Mainly, a uniform resource locator server information objects embedded software in the first user's device.

In some versions of the method the server information objects, at least logically divided into the name server and the object server, and thus, the step of sending the request for information is ion the object is sent via a second communication channel to the server names. Further, in some versions, the step of receiving index information of the object from the server information can include the step of receiving the locator object with the name server. Then, optionally, the processing step pointer of an object includes the steps of sending a request object to the server information of the object obtained by the object pointer, and obtaining information of the object from the server object depending on the parameters, and processing the received object. Further, in other versions of the method, the step of receiving information of an object includes the steps of allocating a name server request object to the server object and the information of the object from the server object depending on parameters. Preferably, a uniform resource locator name server built-in software in the first user's device.

In some versions of the method of the returned object or object pointer is taken from the selection of information objects implemented depending on the identity of the requestor, that is returned to the one who asks, phone page may take various forms, depending on who requests it.

In some versions of the method the resulting object includes sound, which, at least temporarily replaces or is added to the sound of calling who and the first user's device. In other versions of the received object includes audio that can be played instead of the sound of the call, which temporarily muted.

In one embodiment, the invention is a landline phone, including graphics capabilities, which performs any of the versions of the method in accordance with this invention. Another variant implementation is a mobile phone that includes a CPU, a memory device, and at least one display device and the mobile phone performs any of the versions of the method in accordance with this invention. Another variant implementation of the invention is a mobile phone that includes a CPU, a memory device, the replaceable unit memory (i.e. subscriber identification card module aim), and at least one display device and the mobile phone performs any of the versions of the method preferably out of the box removable memory, in accordance with the invention described here. Another variant implementation of the invention is a mobile phone that includes a CPU, a memory device and at least one display device and the mobile phone downloads a method in accordance with any of the versions of the method, accordingly, the invention described here, in your device memory is. Another variant implementation of the invention is an information device that includes a CPU, a memory device and at least one display such as, for example, a PDA or a portable computer with phone capabilities or connected to a mobile phone, and devices which perform any of the versions of the method in accordance with the invention described here.

In accordance with the invention, a telecommunications system or the information system includes a first device of the user, the second user's device and the communications network to implement the first communication channel between the first device user, the second user's device and the server information objects. The first user's device, arranged in such a way that asks for the address of the pointer determines the occurrence of a trigger event and generates a request for the information object associated with an address pointer. The request includes the parameters agreed with the task and consisting of at least two parameters where the first parameter is the requested address pointer, and the second parameter represents a particular trigger event. Other sequence parameters can also be provided which, however, in the scope of the present invention. The first user's device is arranged so that the choice encrypts and sends the request to the object via a second communication channel to the server information objects. Server information of objects arranged in such a way that it returns the information object or a pointer to the information object, depending on settings, on the first user's device via a second communication channel in response to the request. The first user's device is arranged in such a way that receives information objects or pointers to information objects from the server information objects and then processes the received information objects or pointers to information objects.

Brief description of drawings

Further, the present invention will be disclosed more examples of detailed descriptions given with reference to the accompanying drawings, in which:

Figure 1 shows an overview of the communication infrastructure in accordance with one embodiment of the present invention;

Figure 2 shows a first block diagram of the interaction of the subscriber-side device of a user (UE), in accordance with one embodiment of the present invention;

Figure 3 shows a first block diagram of the interaction of subscriber information when rvere, in accordance with one embodiment of the present invention;

Figure 4 shows a second block diagram of the interaction between the subscriber And the UE side, in accordance with the invention, where the communication voice and data can be carried out simultaneously;

Figure 5 shows a third block diagram of the interaction between the subscriber And the UE side, in accordance with another embodiment of the present invention, where the communication of voice and data cannot be performed simultaneously;

Figure 6 shows the block diagram of the interaction of the subscriber to the B-side UE, in accordance with the embodiment of the present invention;

7 shows experimental functional diagram of the device of the user in accordance with one embodiment of the present invention;

On Fig shows a functional diagram of the server information objects in a data network in accordance with one embodiment of the present invention;

Figure 9 shows the flowchart of the procedure of determination of the index B-rooms, in accordance with one embodiment of the present invention;

Figure 10 shows the flowchart of the procedure of determination of the index And numbers, in accordance with one embodiment of the present invention;

Figure 11 shows experimental functional diagram of the device is of the user, which is connected with the fixed data communication network in accordance with one embodiment of the present invention;

On Fig shows experienced functional diagram of the device of the user, which consists of a handheld computer and mobile phone, in accordance with one embodiment of the present invention;

A detailed description of the invention

The presented invention will be described below with reference to the telecommunications system based on GNSS, i.e. the system is switched channels and SPCD system, i.e. a system based on the switching data packets. It should be noted that the described embodiments of are experienced, and other systems with switching the data packet and/or circuit switched channels equivalent may be considered for both voice communication and data communication. Voice communication, e-mail, access to facsimile and download hypertext code can be transmitted via the communication system based on switching channels and through a system of communication based on the switching data packets. Both fixed systems, mobile, circuit switched data channels, and the system based on the switching data packets are secured by the underlying data access technology (mn is the divine access with time division, multiple access code division multiple channel, multiple access frequency division multiple access orthogonal frequency division access duplex time division, the access frequency division duplex) or any combination of the above technologies can be used. The presented invention imposes no restrictions on the type of communication data network or access technology. Necessary communication may be voice or data, such as facsimile or access to adisoemarto IPv6 device such as a thermostat. For example, device A-side and B-side can have access and be accessible with phone numbers, email addresses, Ipv4 addresses, with the address of the initialization Protocol session or IPv6 addresses.

Figure 1 presents an overview of the infrastructure 10, where they combine several different communication data networks. Figure 1 presents both nodes included in the mobile communication network transmission circuit switched data channels (QC), that is, the mobile switching centre (ISC) 118 and the base station subsystem (CBE) 112, and the nodes included in the mobile communication network data circuit switched data packets (DP), i.e. serving a secondary node SRPD (THE S-SBR) 114 and an additional gateway node SRPD (LH-PSA) 116. Typically, the node DS-PSA includes functionality such as desegmentation and transformation of data packets corresponding to the same Protocol in the information packets in accordance with the protocols used to interface ether. Site DS-PSA also includes control mechanisms for one or more CBE 112 and the quality control mechanisms (ICC). Site DS-PSA includes the features required to support communication between the mobile data network packets and other network data packets, i.e., the data network 120. Part of the QC network connected to the PSTN network 140, as part of the PD network connected to the data network 120. The data network can be both internal and external, that is, global or limited access. As shown, the portion of the network QC and PD can also be connected to each other through an interface between MCC 118 and DS-PSA 114. Center MCC 112 can serve as part of the PD network 161 and part of the QC network 162 over the air, providing a mobility service users PD and AC parts of the network and the UE 100. The user's device 100 may, for example, be a mobile phone or a mobile phone connected to any of the information equipment, and a pocket PC or laptop. The PSTN network 140 provides users (is trojstva users) connected to the fixed network services such as conventional telephones, facsimile or modem device 150. Other examples of devices that are connected directly and indirectly to the PSTN 140, are terminals digital network integrated services (ISDN) and a communication device connected via a digital subscriber line (such as asymmetric digital subscriber line, high speed transmission line through cables).

Usually, the data network 120 includes one or more routers (not shown) and information bridges so that multiple nodes were interconnected and carried out communication with each other. The data network used for communication in the present invention, also includes server information objects 130. Usually, many servers information objects included in the data network, and, for clarity of explanation, only one server information objects 130 are presented in figure 1. In a preferred embodiment of the invention, the functions of the server information objects 130 is divided into two logically different parts, namely the name server and the object server. Server names and server objects can be separated physically or only logically. The name server provides translation between the address pointers, such as the telephone n is a measure events and corresponding storage area of the server objects, where objects are located, phone pages, that is, URIs, for example, uniform resource locators. The object server stores the required objects, i.e. the content of telephone pages. Some name servers can be provided. For example, a special server names can be managed by the mobile telephone network or the seller of the mobile phone. In a separate embodiment, the device user will be determined which name servers used. The name server can be provided by the provider, may be in the country to be universal and global, to depend on the service (such as email), or a combination of these options. In a preferred embodiment, the device of the user associated with the relevant network operator by means of the aim of the card, will automatically send a request to a name server that is serviced by the network operator. Automatically, as programmed in aim map, the query device user is sent to the name server that is managed by the network operator designated by the user (specific aim card. Thus, it can be achieved other benefits, such as data confidentiality, Corot transfer and redundancy.

Examples of data networks include the Internet and Intranet. The user's device 100 can receive the full logical connection 171 to the specified phone B-sides 150, connected to the PSTN 140 through the communication QC channel 161. This channel provides communication between the user's device 100, CBE 112 and then through the center MCC 118, through which can be made the connection between the user's device 100, and telephone 150. Similarly, the device 100 to receive the full logical connection 172 to the equipment, i.e. the server information objects 130 that is connected to the data network 120, PD via the communications channel 162. This channel provides communication between the user's device 100, CBE 112 and then through DS-PSA 114 and the node DS-PSA 116 through which information can be sent between the user's device 100 and the server information objects 130.

In accordance with one aspect of the presents invention, the server information objects 130 includes graphical information objects, i.e. telephone page associated with the address pointers, such as a phone number or web address, for example, an IPv6 address. Phone number identical to the number of the subscriber, i.e. the a-number or B-number, addressing the initiating user's device or interrupting device is the primary objective of the user. The a-side while set B-rooms connected with the server information objects 130 via a communication channel of the system based on the use of switching data packets, and receives an information object, that is, "phone"page stored in the server storage of information objects with the memory address corresponding to the dialed B-number. Server information of interest may include phone page with information about the B-side, or may simply provide immediate access to internal or external data network, depending on how this is supported by the subscriber B-side. Thus, the server information objects 130 works, first as server rooms, providing broadcast received B-number in the appropriate uniform resource identifier, where is the phone page, and which may be physically remote server objects phone pages. Broadcasting and providing the required current phone page can also be carried out transparently, that is, the server that handles telephone pages, sends, or provides dispatching the request to the phone page to the appropriate server objects phone pages, and the server provides a direct or indirect is ommunicatio through the server names with the requesting party, or server rooms telephone pages returns the uniform resource identifier of the desired phone page to the requesting party, then the requestor will be forwarded using the universal resource identifier to request the desired phone page.

Phone page B-side may include information relating to user B-sides, such as phone number, address and/or other information. Phone page B-side may also include information related to user devices B-side, for example, it may be a facsimile. After receiving a phone page B-side of one or more procedures can be performed. If B is the number of the accesses FROM 150, voice communication channel in the system switched channels can be installed. If B is the number of the accesses another device, another event similar to those when using paid services can occur. It also depends on the user's device 100 a-side.

In accordance with another aspect of the presents invention, the telephone page may be associated with an Internet address, for example, IPv6 address, the address of the initialization Protocol of the session or by e-mail. For example, the a-side, when establishing communication with the connection with the web page to receive access to the indications of thermostat, located in the summer house, in order to check/temperature control will receive information object, which, for example, identifies thermostat and includes a link to the web page of the manufacturer, and/or other communication tools manufacturer. In another example, a party wishes to establish a conference call with the conference phone in the conference room. During initiation of communication A-side will get the information object that is associated with the conference phone by phone number, address hypercode or network address that includes a network ID and a host ID. Information object, then there is a telephone page, conference phone, may include information regarding the location of a conference telephone, sizes conference rooms and/or regulations. Further, in another example, a party wishes to send the facsimile. When selecting or initiating transmission of information to the device telephone facsimile page of the facsimile device is queried and returns A-side. The phone page of the facsimile device could include information relating to the location of the facsimile, its facilities and/or who has access to the facsimile. Further, in another example, a party wishes to send e-mail B-side. When selecting or writing e-mail, then e is t perhaps even before you have finished creating the message, the phone page of the e-mail address is queried and returns A-side. Phone page e-mail could include information relating to the owner, e-mail address of user B-sides, and other means of communication with the owner, and/or regulations or the availability of the owner. Phone page is an information object associated with a unique identifier, such as a phone number or an Internet address, such as an IPv6 address, but located or received, which specifies the unique ID.

In one embodiment of the presented invention, the user's device 100 does not support the PC using the communication channel, where information objects can be transmitted by the short message service (SCS) or temporary QC channel. Information objects can in some cases be just the uniform resource locators on the desired phone page submitted by SCS service. When receiving SCS is used as the triggering event, the device user can scan incoming SCS and, if found any uniform resource identifier further, the browser starts with the uniform resource identifier. In one variant the implementation of the presented inventions communication PC channel having for example, a specific mode of quality control, is used for speech transmission in communication system 10, where the PSTN network 140 and the data network 120 interconnected by appropriate means (not shown in figure 1).

Figure 2 shows the block diagram of the procedure for initiating the user's device (such as device 100)to transfer phone page A-side, using the user's device in accordance with one embodiment of the present invention. In step 205, the procedure is initiated by the A-party (that is, the user's device is switched on). In step 210, the trigger request phone page is automatically (the call is terminated on the initiative of the other party) or manual A-side (set B-number or by selecting e-mail addresses). Manual request is particularly preferred when the telephone page address pointer, which was caused by the last, lost or received by the latter, that is, when the phone page connected, for example, with the number stored in the user's device. Phone pages can be stored associated with the corresponding numbers on the user's device for offline processing or sample on demand. The triggering event 210 may be at least one triggering event from a variety of the following event is:

- Initiated the call, in which multiple trigger events can be generated to initiate the flow of telephone pages.

- Outgoing call initiated or will be initiated soon.

Outbound communication channel initiated or will be initiated soon.

- Address pointer is defined.

- Data communication initiated or will be initiated soon.

- Facsimile is sent, or will soon be sent.

- Addressed B-party answers the call.

- Addressed B-party is busy.

- Addressed B-party does not respond.

- Addressed B-party refuses to answer the call.

- Addressed B-party is not available (i.e. addressed to the mobile phone is out of coverage area).

- Incoming call is permanent or just initiated.

- A conference call is initiated or will be initiated soon.

Call disconnected.

- The subscriber is set to pending.

- The user's device will be soon off.

- The user's device is enabled.

- A particular button on the user's device is pressed.

In response to the user's device took the stream of speech.

- Voice mail left for the subscriber.

- SCS message sent or soon will be sent to the caller.

- SCS message is received or soon will be accepted from the caller is.

- E-mail sent, or will soon be sent to the caller.

- E-mail received or soon will be obtained from the caller.

Download hypertext code initiated or will soon be initiated.

- A chat session initiated or will soon be initiated.

- Managed information object (simple network management Protocol) is available or will be available soon.

Certain trigger events can provide special services, for example, via the network operator or automatically to provide information or advertising associated with the location. These trigger events may be one or more of the following events:

- Select a new cell in an open mobile terrestrial communication network (ANSS).

- The subscriber's location has changed. Information, including local advertising, can be provided, for example, such as information about the near inexpensive restaurant.

- Selected new OMSS operator. For example, this includes the presentation of the list price for the services selected OMSS operator.

- Registered new country. This trigger event may be used to provide one or more telephone pages related to a new country.

As noted, during a call, several trigger events can GE harirawati requests on the telephone page. This can be a phone page with a greeting that is used to start voice communication or any other communication, one or more than any other phone pages (which can be directed, that is, ordered/sent by the other party) for voice communication, or other communication and, finally, the page with the last phrase associated with the disconnection of the voice communication or data communication. All phone page can be selected to start the voice communication or data communication, and then placed in the buffer corresponding to the user's device, on both sides, i.e. on the side that initiated the connection, and on the side, terminating the connection. Buffering phone pages on the respective user's device is especially preferred when one or both of the user's device does not support simultaneous communication of voice and data.

A-side initiates the request in step 230, it is possible after step encryption information 220 and sends the request via the communication channel (as shown in figure 1 is the CP channel) to the server information objects. Request for information objects may include at least one of more of the following:

Code indicating the local operator.

Code indicating the type of device storage is of information.

Code indicating the seller, i.e. the type/manufacturer of the device user, for example, a company Nokia.

Code indicating the type of device the user, for example, 7110, facsimile, thermostat.

One or more codes indicating the available and/or attached accessories, such as device class "handfree" mobile phone, "Chambord", digital player, radio, device for reading the bar code, handheld computer and/ or any equipment category "Bluetooth"

Code that indicates if the accessories class "handfree", such as a headset or car kit. The activation device class "handfree" (headphones) preferably will cause the audio presentation phone page.

Code indicating the version of the software running with the user's device.

- Required Protocol is used for transmission (i.e. standard markup documents, and devices, wireless applications, wireless application Protocol, a standard hypertext markup language, hypertext transfer Protocol).

- The server pointer information objects (server name or network address, including the network ID and the host ID).

Code indicating the type of event that triggered the request for the information object (outgoing call).

- The specified B-number or others is another unique index, associated with at least one device B-side.

- Identity And-hand, that is A-the number of the mobile station or the identity of the subscriber, i.e. the international mobile subscriber identity (MIME).

- The network address of A-side (i.e. address, including the network ID and host ID) used by the server information objects when the server returns the requested information object.

Code features indicating the display capabilities of the a-side (resolution, audio etc).

Code that indicates the encryption scheme and/or the used encryption key.

- A code indicating the country in which the registered mobile station (country code).

Code indicating the current ANSS operator or OMNS, where a party has a subscription, or both together.

Code indicating the unique identity of the device.

- Check code (checksum) parameters.

A request for an information object in step 230, in accordance with the embodiment of the presented invention, causes a response from the server information objects in an encrypted format, and in this case, after receiving the user's device in step 250 is performed decrypt data.

If the objects include one or more telephone pages, then gave the e procedure should display in step 260, where information objects are displayed and/or announced in accordance with the device capabilities of the user, then the procedure ends in step 299. For example, if the user's device class "handfree" active, preferably using at least audio interface, in addition to any of the displayed information. Phone page may include information and functionality to update the phone book on UE recipient or aim map. Any update of information occurs only after confirmation of the recipient. In accordance with one embodiment of the presented invention, in the first moment after the call is initiated from user to user, which is not registered in the telephone book of the device, when receiving a telephone page, including the name and other information, the request will be sent to the user's device, and record consisting of one or more parts of the received information should be added to the phonebook.

Usually, after step 299, the next will follow one or more procedures in accordance with the user's hardware-hand or type of equipment specified B-number or other address pointer.

In accordance with one of the above embodiments presented the tion of the invention, where continuous trigger event is implemented by the call, certain advantages can be achieved, for example, commercial information may be sold in response to the set of B-rooms, which allows you to pay for the information received by depending on the phone page. Individual journal article can be sold through a call to the paid rooms, when the phone page of the party initiating the call, and passes the name and the address to send magazine articles. Information, selectable by means of a password or similar means, which can be sold through a call to the paid rooms and receive in response the phone page paid password or similar means, in the event of an unexpected disconnection of a call or when the call is not yet come.

Figure 3 shows the corresponding procedure on the server information objects (like server information objects 130), where in step 305, the process begins in step 310, the server information object receives a request for the information object. The request can typically include at least an address pointer corresponding to, for example, A - or B-number, email address or IPv6 address and, finally, to the sight of a trigger event that caused the request. If the request is encrypted, the decryption Bud the t is performed in step 320 to interpret the contents. Address pointer (i.e. A - or B-number) in the request received in step 310, to be compared with the memory address in the server information objects or (in the server information objects) address of the connected memory on another server and an information object, then there is a telephone page, is selected in step 330. As noted above, the server information objects can provide as phone page directly, and only the pointer on the phone page, and the pointer is a universal resource identifier. In some embodiments, the implementation of the presented invention, when the server information objects includes the actual phone page, the server information will be sent, i.e. to dispatcherwith the request to the actual server phone pages or to provide the requesting party a universal resource identifier of the telephone of the page. Dispatch can be described as follows:

- The user's device sends a request to the telephone page server information objects;

Server information object sends a request with all relevant parameters to the actual phone server pages.

Active phone server pages retransmits the requested telephone page is at the user's device.

Redirection can be described as:

- The user's device sends a request to the telephone page server information objects;

Server information objects returns a uniform resource identifier valid server phone pages on the user's device;

Device user creates a new request to the actual server phone pages, obtained using the uniform resource identifier;

Active phone server pages transferred directly or indirectly (through the server names) requested phone page on the user's device.

The request in step 310 may also include a pointer capabilities of the display device of the user, and in this case, the information object stored on the server information objects can be adapted to the specific characteristics of the display on the receiving user's device in step 340. The query at step 310 may also include a pointer to the identity, i.e. the phone number of the requestor, and in this case, the returned phone page or pages may consist of a sample of telephone pages, performed, depending on the identity of the requestor. If the desired request was encrypted or requested for any other reason, then saprobity encrypted in step 350, before his return to the requesting user's device in step 360, and then the procedure ends at step 699 on the server information objects.

The above General solution to obtain an information object associated with an address pointer, may, of course, vary and depends, in particular, from the communication capabilities of the involved devices. For example, the method of simultaneous request, encrypt, decrypt and display the sequence of information objects can also be applied in the embodiment of the presented invention.

Modern devices, such as mobile station, designed to handle both types of communication simultaneously: communication with the switching of the data packets and the communication circuit switched channels. Such devices are referred to as mobile station class A. the Other mobile station is designed in such a way that allow alternative handling communications with switching the channels or data packets, i.e. without simultaneous PC and QC transmission and reception. Such devices are referred to as mobile station class b

Figure 4 shows the block diagram of the procedures involved in initiating communication with switching channels from the UE, which mobile station class a rela is availa able scientific C with one aspect of the presents invention. The procedure begins in step 405, when the mobile station class And not participate in the session of the call, and when the user starts to type B-issue for the B-side, in step 420, by pressing the digit buttons or activation means, recognizing the voice. During step 420, B-number is received in full. Now mobile station starts to install two different connections: for voice communications on the channel switching channels in steps 430-440-498 and for communication on the channel circuit switched data packets to fetch the phone page in steps 450-499. These procedures can be synchronous mobile station class A.

For treatments with switching channels, voice communication with the B-side is initiated in step 430, the communication resource is assigned to the mobile data network, through which can be a telephone conversation. A telephone conversation is terminated in step 440, as any other voice call, for example, by pressing a selected button on the mobile station or hanging up the phone fixed network. The end of the call also includes reassigning significant communication resources in a mobile communication network, which is based on switching channels, as well as any PSTN resources involved in the connection.

Procedure by switching the data packets, in the main, followed by oram, described in figure 3, where the request for the information object is sent, possibly after encryption in steps 450 and 460, and, further, when the response is received and the telephone page shows possible after decoding in steps 470-490 and after which the connection is based on the switching data packets ends at step 499.

As noted above, mobile station class b does not support two simultaneous connections, that is, PD connection AC connection. Therefore, for some events require a different way of selecting the phone pages when you establish voice communication based on switching channels.

Figure 5 shows a procedure similar to the procedure in figure 4, but with mobile station class b, used on the a-side, the originating end of the call. The procedure begins in step 505 and step 510 indicates the B-number as described above in figure 4. In this embodiment of the presented invention in step 520 presents that where possible, to make a choice: will be requested telephone page or not. Typically, this can be a selection made by a user and/or point B is the number that is dialed with the appropriate settings. In accordance with one embodiment of the present invention, a double-click button to SEND indicates that the telephone page must be requested. If specified, totelephone page is not required, should the connection of the call in steps 550-560 and 599 on the channel-based switching channels and stop communication in steps 430, 440 and 498, as explained in figure 4.

If you specify that you want the phone page, perform the following steps: encryption 530 and parcel 535 request for the information object on the canal system, based on the switching data packets. Up until batch session is not interrupted, 540, download information objects on A-side continues. Information objects obtained in step 570, decrypted if it was encrypted in step 580 and displayed in step 590. In step 595 is determined if there is more data to receive, and if not followed interrupt, then in step 540 continues loading information objects. Possible interrupt may occur when the user does not want more than to wait until the download is complete, the phone page and instead initiates communication with switching channels in step 550. This may be initiated after a specified time or by manual guidance on the human-machine interface (HMI). The most recent communication with the switching of channels is initiated when there are no more telephone pages for download. In accordance with another embodiment of the present invention, the telephone pages to give the tion of the user class will be retrieved from the server information object 130 at the completion of the call or at any other time, when the device user is not involved in the call, and phone pages are stored on the user's device and is available when the next trigger event.

Thus have been described the sample of telephone pages for display on the device-side. You must admit that the B-side also can show in a similar way phone pages relating to the connection, preferably a telephone page, identified with the number a-side. Figure 6 shows the block diagram of the procedures on the user's device B-side to fetch the phone page A-side in accordance with one embodiment of the present invention, when the B-side features a mobile station class A. the Procedure begins in step 605 with a call comes in on the B-side of the device user. In step 610, the communication channel is distributed between the user's device and the data network 110 connected to the user's device. In step 620 index identity of the caller, i.e. the identity of the a-side, And preferably room, it seems the B-side. Then in step 660 and 670 request after encryption is sent to the server information objects. Request after receiving the server is handled like the requests received from the A-side, meaning rasshifrovka the W if necessary, and answer the transfer of information objects related to identity a-side. The user's device receives information objects, i.e. phone page in step 680, and after decryption in step 690, if necessary, telephone the page may be displayed to the user B-side in step 695. Phone page contains a welcome message and received a B-side to terminating the user's device, to which was referred the request, in response to an outgoing call, which is the continuous trigger event can include a personalized ringing tone source, A-side, that is, the caller-side identifies the B-side, through a special call signal to the user's device B-side. In one embodiment of the present invention, the sound in the phone page can replace the sound of the tone, preferably only at the time of the communication or conversation, to use the sound from the phone page as a ringtone. In another version of the implementation of the presented invention ringtone phone page receiver muted, preferably only at the time of the call, so that only the sound of the phone page was heard instead of the usual tone.

If the call is answered in step 630, establishing voice contact which follows the same procedures, as described in figure 3 and Figure 4. If the call is not answered, the voice portion of the sequence ends at step 698.

For clarity, the description of the several steps in signaling between the user's device 100 and communication infrastructure 110, the user's device 100 and the server information objects 130 in several variants of implementation of the presented invention have been omitted. Focuses on the necessary and above new alarm system in accordance with the invention. It is understood that other procedures, such as identification, distribution channels and charging can occur in addition to what is described in the above steps alarm.

7 shows the device used in accordance with one embodiment of the present invention, where the user's device is a mobile phone or handheld computer with phone capabilities. The Central processing unit (hereinafter CPU) 750 is connected to at least one memory device 751 and at least one display 720. The Central processor 750 may also be connected to the device keyboard or the contact plate 752, so that callers can enter, for example, numbers. The memory device 751 may be non-volatile (erasable programmable permanent memory is or aim map) to save the captured information in cases of temporary interruptions of supply. The Central processor 750, further, connected to the RF unit 710, which can convert incoming and outgoing data in a modulated radio frequency signals. The RF unit 710 is also connected to the antenna 760, allowing to transmit/receive a modulated radio frequency signals in the air. Radio block 710 may be connected directly or indirectly with headphones 730 and microphone 740 for voice communication. The user's device may further include a lot of programs, that is, the browser 771, which can display at least one type of information object and the encryption/desirbale software core 772, allowing you to encrypt requests for information objects, and to decrypt information objects. On selection of the user's device may be provided with a cache memory, in which you can store and select the necessary information objects without classes of transmission resources of the communication network 10.

On Fig shows the server information objects 130 in accordance with one embodiment of the presented invention. Server information of interest includes at least one CPU 830 connected to the at least one memory device 810, the cache memory 850, with at the ore one database 840, and at least one interface device 820. The memory device 810 and database 840 may be made non-volatile. The interface device 820 allows the CPU 830 to send and receive data to/from the data network 120. The cache memory 850 allows you to store frequently used information objects so that the CPU 830 can receive them without delay. Database 840 contains valid information objects that can be requested by the user's device 100 through the communication structure 110 and the data network 120. Server information of interest may also include several programs, including, but not limited to, filter 861, allowing optimization of information objects according to the optimization criterion otvratitelnyj capabilities of the user device 100, and the software kernel encryption/decryption 862 decrypt the requests for information objects and to encrypt information objects.

In accordance with the embodiment of the presented invention, blocks 810, 820, 830, 840, 850 and 860 may be implemented on multiple computers. In accordance with another embodiment of the presented invention, the above multiple computers may be located at a considerable distance.

In the display B-includes any media is tion zone B-rooms on the A-side of the device user. The first example of a procedure of display B-non describes in Fig.9, where the procedure display B-non begins at step 905 and, next, in step 910, accepts keyboard corresponding symbol. In response to step 910, in step 920, the symbol is entered and stored in the buffer device of the user, and in step 930 checks finished enter the B-number. If input B-rooms not finished, steps 910, 920 and 930 are repeated. If input B is non completed, the procedure display B-rooms ends in step 999. Definition 930 that the input B is non completed may or may not include the use of timing control procedure display; short key combination that minimizes the number of keystrokes; special buttons for indicating the completion of the rooms (i.e., pressing buttons to SEND or the CALL occurs only once) or the analysis of digits in the buffer to determine whether completed enter the B-number.

In the second example, display B-number is announced with determination, where the incoming stream of speech compares and matches the content of the internal database contained on the user's device 100, where the correct B-room could be obtained in response to the above flow of speech.

In the display And the numbers are any indication mechanisms And numbers to the user's device 100. The first example of a procedure indicating the numbers described in Figure 10, where the procedure begins at step 1005, and next, in step 1010, the a-number is received from the communication infrastructure 110. In response to the step 1010 is performed validation And numbers (not blocked, whether classified or misinterpreted) and if everything is in order, the number is stored in memory on the user's device 100 in step 1030. If the a-number is not correct, then the flag indicating incorrect And numbers stored in the memory of the user device 100. The procedure will be completed in 1099.

In the second example, the display And the number is done by sending And numbers or information objects, in response to the a-number, directly on the logical communication channel 162.

Figure 11 shows the user's device 100, in accordance with the second embodiment of the presented invention, when the user's device 100 is a stationary phone with graphics capability. In accordance with this second embodiment, the user's device 100 is equivalent to a mobile phone presented on Fig.7, but excluding terminal antenna 710 and 760, which are replaced by the media adapter 1210. This media adapter converts incoming and outgoing signals to/from the standard media, including, but not limited to such standards as: standard digital network integration features, standard on nesime the ranks of digital subscriber line, the standard for high-speed digital subscriber line, the standard in high-speed digital subscriber line, cable, network transmission of information, and any combination of the above standards.

On Fig shows the user's device 100 in accordance with another embodiment of the presented invention, where the user's device is a mobile phone 1390 may, without functions display information of the object and the antenna 1360 connected to pocket PC 1490 via the communication channel 1395. The communication channel, for example, can be designed in a way that turns on the radio (i.e. the class of devices "Bluetooth"), "infra" or wired configuration. Pocket PC 1490 further includes a CPU 1450 connected, at least one memory device 1451 and with at least one display 1420. The Central processor 1350 may also be connected with a keyboard or a touch panel 1452 that callers can enter, for example, numbers. The memory device 1451 may be non-volatile (erasable programmable permanent memory or aim map) to store the captured information in cases of temporary interruptions of supply. Pocket PC 1490 further includes a set of programs 1470, including, but not limited to browser 1471, which can otbr the press, at least one type of information object, the software kernel encryption/decryption 1472, allowing you to encrypt requests for information objects and decipher information objects. Mobile phone 1390 described below in Fig.7, where the device 1320 corresponds to the device 720, the device 1310 corresponds to the device 710, the device 1350 corresponds to the device 750, the device 1351 corresponds to the device 751, the device 1352 corresponds to the device 752, the device 1330 corresponds to the device 730 and, finally, the device 1340 corresponds to the device 1340.

On Fig shows the user's device 100 in accordance with another embodiment of the presented invention, where the user's device is a mobile phone 1390 may, without functions display information of the object and the antenna 1360 connected to pocket PC 1490 via the communication channel 1395. The communication channel, for example, can be designed in a way that turns on the radio (i.e. the class of devices "Bluetooth"), "infra" or wired configuration. Pocket PC 1490 further includes a CPU 1450 connected, at least one memory device 1451 and with at least one display 1420. The Central processor 1350 may also be connected with a keyboard or a touch panel 1452 to subscribers of maliwada, for example, numbers. The memory device 1451 may be non-volatile (erasable programmable permanent memory or aim map) to store the captured information in cases of temporary interruptions of supply. Pocket PC 1490 further includes a set of programs 1470, including, but not limited to browser 1471, which can odbrojati at least one type of information object, the software kernel encryption/decryption 1472, allowing you to encrypt requests for information objects and decipher information objects. Mobile phone 1390 described below in Fig.7, where the device 1320 corresponds to the device 720, the device 1310 corresponds to the device 710, the device 1350 corresponds to the device 750, the device 1351 corresponds to the device 751, the device 1352 corresponds to the device 752, the device 1330 corresponds to the device 730 and, finally, the device 1340 corresponds to the device 1340.

Functions are presented invention can be pre-built software in the user's device, to run on the user's device or downloaded to the user's device. Alternatively, the network operator can prepare the task on aim map, which provides users to access the network.

Basically, the presented invention can both peivate the relationship between the address pointers (such as phone number) and information object (such as an Internet address)that points to the phone page. When the user dials a telephone number, an Internet address that is associated, for example, with a phone number will be obtained automatically, and content on this Internet address (i.e. phone page)is automatically loaded and displayed on the user's phone. At the same time, the telephone user page will be loaded and displayed on the phone of the caller. Besides that the phone page is associated with a phone number (possibly with both rooms: number of the owner and requesting to give the ability to send several telephone page, depending on whether the page requests/receives) and with a specific event. Examples of such events can be events when the user dials a telephone number, answers the call, receives an incoming call or when dialed their number is busy. The user can have several different telephone pages, each associated with one or more events. This allows the user to provide other users with different types of information, depending on the situation. One example is the ability of the user to provide additional information which s (such as, for example, the e-mail address), if he/she is busy or does not answer. Briefly presents the invention can be explained as follows:

- You receive an event associated with the phone page, when the user dials the number on the phone (the mobile phone). Mobile phone automatically sends a request to the server phone pages, requesting Internet address (i.e. the location of the phone page)associated with the dialed telephone number.

Server rooms telephone pages uses the phone number together with other parameters to find a web address in the database.

When the mobile phone receives a phone location page, the browser or equivalent functionality run and the request is sent to a sample of the information at the following web address.

- The content of the phone page is downloaded to the mobile terminal.

The presented invention is not limited to the above variants of implementation and may vary within the volume represented in the description.

1. The method of selection of the information object to the first communication user applications loaded in the first user's device, in connection with a communication service with the second communication application the user, loaded into the second user's device, a telecommunication system comprising a first and second user device, wherein the first communication application user:

determine the occurrence of a trigger event;

provide indication associated with the triggering event of the address of the communication service, where the address of the communication service is the access address of the first or second user device;

create a request for the information object associated with the address of the communication service, and the request contains at least two parameters, the first of which is the address of the communication service and the second is the triggering event, which is defined;

send a request for the information object in the server information objects;

take the information object from the server information objects based on the specified parameters;

process adopted by the information object.

2. The method according to claim 1, characterized in that any type of communication service, the communication service provider, or geographical location, such as country of registration, the first device user define server information objects, or the server information is of interest previously defined.

3. The method according to claim 1 or 2, characterized in that the address of the communication service associated with the second communication application of the user.

4. The method according to claim 1 or 2, characterized in that one or more of the request parameters is one or more of the following options:

parameter representing a code that indicates what types of communication available to the first communication application user;

parameter representing a code that indicates the priority of the types of communication available to the first communication application user;

parameter representing a code that indicates the desired communication service with the second communication application of the user.

5. The method according to claim 1 or 2, characterized in that the first communication application user initiates an outgoing call and the second communication application of the user accepts the incoming call, or the second communication application user initiates an outgoing call, and the first communication application user accepts the incoming call.

6. The method according to claim 1 or 2, characterized in that one or more of the request parameters is one or more of the following options:

parameter representing a code that indicates the type of media in the information, used in the first user's device;

parameter representing a code indicating the type of the first or second user device;

parameter representing a code indicating the available and/or attached accessories of the first user device;

parameter representing a code indicating the version of this method a sample of the information object;

parameter representing a code that identifies the server information objects and can be a server name or a regular IP address.

7. The method according to claim 1 or 2, characterized in that the telecommunication system includes a terrestrial network public mobile (PLMN), and one or more of the request parameters is one or more of the following options:

parameter representing a code indicating the local operator;

parameter representing a code indicating the brand/manufacturer of the first and/or second user device;

parameter representing a code that indicates if the accessories of the first user device, such as a headset or a device class "Handsfree" for car;

the parameter representing the desired Protocol, such as WAP, WML, HDMI, HTML, HTTP, which should be used for transmission;

option to depict alausi code specifies the type of event that triggered the request for the information object;

parameter representing a unique identifier associated at least with the second device of the user;

the parameter that identifies the first user's device, such as the number of mobile stations or subscriber identity, for example an international mobile subscriber identity (IMSI);

the parameter representing the network address of the first user's device, such as an IP address used by the server information objects when returning the requested information object;

the parameter representing the code of the capabilities, specifying the capability of displaying information of the first user device, such as resolution, sound;

parameter representing a code indicating the encryption scheme and/or an encryption key used in land mobile network public use;

the parameter representing the country code indicates the country in which the registered first user's device;

parameter representing a code that indicates the current operator of terrestrial mobile communication network for common use (V-PLMN), or terrestrial mobile communications network for General use, where the first user's device has podpis is, (H-PLMN), or both;

the parameter representing the code that uniquely identifies the first and/or second device of the user;

the parameter that represents the control code (e.g., a checksum) for the specified parameters.

8. The method according to claim 1 or 2, characterized in that the request is encrypted before sending, and the corresponding received information object is encrypted, and the processing step includes decoding information of the object.

9. The method according to claim 1 or 2, characterized in that the triggering event is an event of an outgoing call, which is or will soon be implemented, and/or the triggering event is an event of pressing the set button on the user's device.

10. The method according to claim 1 or 2, characterized in that the triggering event is one or more events of the following events:

the implementation of the communication service, in which multiple trigger events can be created to form a stream of requests for information objects;

set the address of the communication service;

initiated data transfer;

is sent by facsimile;

addressed to the second communication application user is responsible;

addressed to the second communication application user C is adopted;

addressed to the second communication application user does not respond;

addressed to the second communication application user rejected the attempt to establish communication service;

addressed to the second communication application is not available;

incoming establishing communication service just launched;

establishing communication conference service initiated;

communication service disconnected;

the communication application of the user supplied in waiting;

turn on the device user;

in response to the flow of speech received by the device user.

the user was left voice mail.

the message short message service (SMS) communication sent to the user application;

the message short message service (SMS) received from the communication application of the user;

the email sent to the user.

the e-mail is accepted from the user;

download hypertext initiated;

a chat session is initiated;

managed information object (SNMP) is available;

the selected new cell terrestrial mobile network General user who deposits, if the specified telecommunications system includes a mobile communications network for common use;

the user's location has changed;

selected new operator land mobile network public use, if the specified telecommunications system includes a mobile communications network for common use;

new country of registration.

11. The method according to claim 1 or 2, characterized in that the step of determining a trigger event additionally determine whether additional trigger events during communication, to be able to initiate further requests for information objects during this communication.

12. Telecommunication system that includes the first user's device with the first communication application user, the second user's device to the second communication application of the user, a communications network for establishing communication service channel between the first device and the second device user and server information objects, wherein the first device is configured to determine the occurrence of a trigger event, to carry out a display associated with the triggering event of the address of a communications service, g is th address of the communication service is the access address of the first or second user device, and create a query for an information object associated with the address of the communication service, and the request includes at least two parameters, the first of which is the address of the communication service and the second is the triggering event, which is defined and implemented with the possibility to send a request for the information object in the server information and server information objects are made so that it returns an information object based on the specified parameters to the first user's device in response to the request, the first user's device has a capability to accept information object from the server information objects and then process adopted information object.

13. The telecommunication system according to item 12, wherein the type of communication service, the communication service provider or geographic location, such as country of registration, the first device user specifies the server information objects, or the server information objects previously defined.

14. The telecommunication system according to any one of PP-13, characterized in that one or more of the request parameters is one or more of the following options:

the parameter representing the code, the criminal code of the shows, what types of communication available to the first communication application user;

parameter representing a code that indicates the priority of the types of communication available to the first communication application user;

parameter representing a code that indicates the desired communication service with the second communication application of the user.

15. The telecommunication system according to item 12 or 13, characterized in that one or more of the request parameters is one or more of the following options:

parameter representing a code that indicates the type of media used in the first user's device;

parameter representing a code indicating the type of the first or second user device;

parameter representing a code indicating the available and/or attached accessories of the first user device;

parameter representing a code indicating the version of the communication application of the user;

parameter representing a code that identifies the server information objects and can be a server name or a regular IP address.

16. The telecommunication system according to item 12 or 13, characterized in that it includes land mobile network public use PLMN), and one or more of the request parameters is one or more of the following options:

parameter representing a code indicating the local operator;

parameter representing a code indicating the brand/manufacturer of the first and/or second user device;

parameter representing a code that indicates if the accessories of the first user device, such as a headset or a device class "Handsfree" for car;

the parameter representing the desired Protocol, such as WAP, WML, HDMI, HTML, HTTP, which should be used for transmission;

parameter representing a code that indicates the type of event that triggered the request for the information object;

parameter representing a unique identifier associated with at least one second device of the user;

the parameter that identifies the first user's device, such as the number of mobile stations or subscriber identity, for example an international mobile subscriber identity (IMSI);

the parameter representing the network address of the first user device, such as an IP address used by the server information objects when returning the requested information object;

the parameter representing the code capabilities, pointing at is the possibility of displaying information to the first device user, such as resolution, sound;

parameter representing a code indicating the encryption scheme and/or an encryption key used in land mobile network public use;

the parameter representing the country code indicates the country in which the registered first user's device;

parameter representing a code that indicates the current operator of terrestrial mobile communication network for common use (V-PLMN), or terrestrial mobile communications network for General use, where the first device user has a subscription (H-PLMN), or both;

the parameter representing the code that uniquely identifies the first and/or second device of the user;

the parameter that represents the control code (e.g., a checksum) for the specified parameters.



 

Same patents:

FIELD: communications engineering.

SUBSTANCE: this invention relates to system and method for transferring data entity to user, including generation of data entity designed for display on first communication device upon occurrence of flip-flop communication event. Data entity provides information related to second communication device user.

EFFECT: enhanced effectiveness of combining voice communications with additional data services.

16 cl, 18 dwg

FIELD: communications.

SUBSTANCE: data transfer device meant for realization of data transfer method contains at least one transferring device and one receiving device, block for determining characteristics of one or several data transfer channels for several methods for transferring data and/or several parameters of data transfer of one or several methods for data transfer and block for selecting method for data transfer with certain parameters of data transfer according to result of said determination, while determination block is made with possible determination of speed of change of data transfer channel, and selection block is made in such a way, that dependently on said speed of change it selects mode with suppression of interference in receiver or transmitter.

EFFECT: higher quality.

2 cl, 5 dwg

The invention relates to telecommunications, and particularly to data transmission systems and to methods for assessing the quality of their functioning

The invention relates to the field of radio and digital technology and can be used in communications for reception, demodulation and processing of a wide class of signals on the communication rates up to 270 Mbps

The invention relates to a device data communication to maintain a computer system connected to various peripheral equipment, and to transmit data to peripheral equipment and receive them from him

FIELD: communications engineering.

SUBSTANCE: proposed device and method are designed to render improved support to mobile Internet Protocol where mobility-related cache binding is provided beyond separate distant station and its control is ensured on behalf of distant station. In this way distant station can function as mobile host dispensing with additional functions and configurations of distant stations. Additional capabilities are rendered to authenticate and authorize request for updating binding proposed to network entity.

EFFECT: simplified control of safety policy.

25 cl, 3 dwg

FIELD: electrical communications.

SUBSTANCE: proposed method for controlling data streams in asynchronous burst-switched digital data transfer networks, including systems for controlling traffic through centers of burst switching, as well as for implementing various means for controlling burst data processing in switches and routers involves reduction in repeated transfers of data bursts caused by memory overflow by adapting time intervals of respective data burst transfer acknowledgement at the same time minimizing limits on priority traffic transfer. Provision is made for reducing probability of retransmission of data bursts between adjacent switching centers.

EFFECT: enhanced capacity of switching centers for switching bursts under transient traffic conditions at minimal limitation of priority bursts.

5 cl, 7 dwg, 3 appl

FIELD: mobile communications engineering.

SUBSTANCE: after switching connection between first transmitting station and receiving station to second transmitting station packets (DPm') of data are transmitted to receiving station through new communication channel. Second transmitting station during the process has no information concerning status of transmission of packets (DPm) of data, which were sent prior to switching of connection.

EFFECT: increased signal transmission speed during rigid service transfer.

2 cl, 8 dwg

FIELD: digital communications, in particular digital television.

SUBSTANCE: method for transferring digital information in digital communications network, containing multiple transport flows, each of which transports at least one table concerning a group of services, containing information, concerning certain commercial group of services, includes transfer in one of said transport flows of at least two different tables concerning groups of services, each of which contains information, concerning appropriate separate commercial group of services, and also transfer in current transport flow of at least one other table, containing - for at least current transport flow - a list of values identifying groups of services, to make it possible to match said at least two tables concerning groups of services with appropriate transport flow and make possible a loading from current transport flow of appropriate one of tables concerning groups of services.

EFFECT: higher efficiency.

3 cl, 6 dwg

FIELD: context invocation in first network for telephone call transfer and/or transaction through first and second network.

SUBSTANCE: procedure is started with installation of applied protocol, for instance H.323, H.248, or communication session initiation protocol in first network using transfer of service signals or context specified by default. Applied protocol message conveyed from second network serves as basis for identifying information about functional capabilities which is used for context invocation. In this way functional capabilities can be coordinated in advance and context can be invoked, for instance, in the form of secondary context both for telephone calls and/or transactions coming from mobile device, and for telephone calls and/or transactions terminating in mobile device. So, proposed method and system can dispense with backup protocol for transmitting service signals associated with functional capabilities to second network.

EFFECT: reduced load associated with service signal transfer.

22 cl, 4 dwg

FIELD: computer science.

SUBSTANCE: device can be used in multiple access channel. Device has random numbers generator 1, synchronizer 2, counter 4, elements AND 3,6,87, RS trigger 5, comparison block 7, clock pulse generator 15, query analyzer 91-9k, address analysis block 10, multi-input elements OR 11,12, counting block 13, conflict prevention block 14, interconnected by appropriate links.

EFFECT: higher accessible bandwidth of channel.

7 dwg

FIELD: communication networks.

SUBSTANCE: method includes recording all talks of packet commutation systems in data storage, containing operations for transferring output packets of information in forward direction from output port A to input port B, and input information packets in backward direction from input port B to output port A, each packet containing fields of information concerning destination address, number of packet, timestamp, calendar time and actual information, while from the side of output port A each information packet, sent to primary destination address from output port A to input port B and each information packet, sent to primary destination address from input port B to output port A, is sent to secondary destination address - position of database, and content of all talks of communication network subscribers is recorded there, with transfer of packets to secondary address in each packet information about number of packet, actual information and calendar time are stored, while in input packet calendar time is corrected to time of transfer of output packet, to which this input packet is response, while during transfer of packets to secondary address priority of their transfer is decreased.

EFFECT: possible accumulation of information concerning contents of all talks of subscribers in communication network.

2 dwg

FIELD: computer science.

SUBSTANCE: method includes calculation of mathematical expectation value, autocorrelation function of random process, characterizing time of traffic units receipt, weight coefficients of auto-regression filter are calculated and on basis of output data of said filter time of receipt of following traffic units is predicted.

EFFECT: higher precision.

2 cl, 5 dwg, 1 tbl

FIELD: data transfer networks, in particular Ethernet-based.

SUBSTANCE: device is made in form of multiple individually programmed single-port communication modules for access to common distributor bus 10, while each single-port communication module has: programmed micro-controller 1, made as access control block for transmitting environment Ethernet (MAC), containing processor with short command list (RISC CPU), and logic device 5 for distribution of data frames, including processing in real time scale and transmission to addresses frame destination ports of Ethernet data, received on said one-port communication module, transfer process is serial and is performed in save-and-send mode.

EFFECT: higher data distribution flexibility control.

2 cl, 7 dwg

FIELD: data package transmission in mobile communication lines.

SUBSTANCE: device for controlling data package transmission in mobile communication line, which has base receiving-transmitting system (RTS) provided with buffer for storing data packages to be transmitted to mobile station, has base station controller (BSC) for comparing size of RTS buffer with number of non-transmitted data packages after data packages are received from common use data transmission commutated circuit (CUDTCC). Non-transmitted packages have to be packages which have been transmitted from BSC to RTS but still haven't been transmitted from BSC to RTS. Transmission of data packages is performed if size of buffer exceeds number of non-transmitted data packages.

EFFECT: prevention of overflow of internal buffer of base receiving-transmitting system; prevention of efficiency decrease caused by next cycle of data package transmission.

19 cl, 15 dwg

FIELD: radio communications.

SUBSTANCE: radio network controller sends value of power deviation for controlling power of transfer of high-speed dedicated physical control channel of ascending communication line, when user equipment enters service transfer zone, in cell communication system, containing radio network controller, assembly B, connected to said controller and user equipment, being in one of at least two cell nodes, occupied by assembly B. assembly B sends data to user equipment via high-speed jointly used channel of descending communication line and user equipment transfers data, notifying about data receipt state, to assembly B along ascending communication line. Controller sends to user equipment a value of deviation of power to determine transmission power adjustment for ascending communication line, if it is determined, that user equipment is within limits of service transfer zone. Controller sends to assembly B value of power deviation, to allow assembly B to determine threshold value for data determining, noting data receipt state, dependently on power deviation.

EFFECT: high-speed data delivery to user equipment.

5 cl, 31 dwg, 4 tbl

FIELD: telephone communication systems combined with other electronic systems.

SUBSTANCE: proposed telephone communication system that can be used for voice communications between subscribers of local telephone networks by means of public computer networks has telephone set, local telephone communication line, interface unit, analog-to-digital converter, signal distributor, voice identification device, voice-frequency dialing identification device, pulse dialing signal detector, identified number transmission device, coder, compressor, computer, public computer network, decompressor, decoder, voice recovery device (voice synthesizer), called number information converter, voice and called signal transfer queuing device, and digital-to-analog converter.

EFFECT: enhanced quality of servicing subscriber using public computer network; enlarged functional capabilities of system.

1 cl, 1 dwg

FIELD: data package transmission in mobile communication lines.

SUBSTANCE: device for controlling data package transmission in mobile communication line, which has base receiving-transmitting system (RTS) provided with buffer for storing data packages to be transmitted to mobile station, has base station controller (BSC) for comparing size of RTS buffer with number of non-transmitted data packages after data packages are received from common use data transmission commutated circuit (CUDTCC). Non-transmitted packages have to be packages which have been transmitted from BSC to RTS but still haven't been transmitted from BSC to RTS. Transmission of data packages is performed if size of buffer exceeds number of non-transmitted data packages.

EFFECT: prevention of overflow of internal buffer of base receiving-transmitting system; prevention of efficiency decrease caused by next cycle of data package transmission.

19 cl, 15 dwg

FIELD: data transfer networks, in particular Ethernet-based.

SUBSTANCE: device is made in form of multiple individually programmed single-port communication modules for access to common distributor bus 10, while each single-port communication module has: programmed micro-controller 1, made as access control block for transmitting environment Ethernet (MAC), containing processor with short command list (RISC CPU), and logic device 5 for distribution of data frames, including processing in real time scale and transmission to addresses frame destination ports of Ethernet data, received on said one-port communication module, transfer process is serial and is performed in save-and-send mode.

EFFECT: higher data distribution flexibility control.

2 cl, 7 dwg

FIELD: computer science.

SUBSTANCE: method includes calculation of mathematical expectation value, autocorrelation function of random process, characterizing time of traffic units receipt, weight coefficients of auto-regression filter are calculated and on basis of output data of said filter time of receipt of following traffic units is predicted.

EFFECT: higher precision.

2 cl, 5 dwg, 1 tbl

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