SE514873C2 - Mobile radio communication network - Google Patents

Abstract

The network includes at least three mobile radio systems. Each mobile radio system has at least one mobile radio services switching centre for a number of mobile subscribers. Each mobile subscriber has one of the mobile radio systems as its home system. The network further includes telecommunication nodes, each of which is allocated to a given mobile radio system. Each node stores information relating to the function of given subscribers in the mobile radio system which constitutes the home system of the subscribers. Each node also stores information relating to the mobile radio system in which the called subscriber is located. Each node enables the calling subscriber to establish a connection with the called roaming subscriber.

Description

25,304,873 will be forced to do so by their subscribers and not at all across the United States.

When it comes to different countries, for example in Europe, each country has one or more operators. Their collaboration is designed so that they only participate in functions that provide them with income. For example, if a subscriber in France connected to the global mobile radio system GSM calls a GSM subscriber domiciled in Sweden and the Swedish subscriber is on a business trip in Spain with his. GSM mobile station, it is agreed that the Swedish operator does not disclose any information from its. to enable direct connection France-Spain, even though this Home Location Register (CPR) would be technically possible in the GSM system, but the call is connected France-Sweden-Spain because the Swedish operator would not receive any income from a direct connection.

Another problem in long-distance traffic is intstandard roaming.

If a Swedish NMT (Nordic Mobile Telephone Network) subscriber makes a business trip to England and rents a TACS mobile phone, there is no possibility for him to charge his NMT subscription and limited possibility (only a certain number of digits can be stored for the referred number) to redirect incoming calls from Sweden directly to England. He can only call in an NMT answering machine in Sweden to call a specified number in England.

The published European patent application EP-A2-454 647 describes a mobile communication system in which the exchange which is closest to a certain A-subscriber and which requests an outgoing call to a certain B-subscriber obtains information about the B-subscriber's place of residence and then connects a connection. there on the shortest route instead of via the B-subscriber's home exchange. The disadvantage of this solution of finding an optimal connection path is that it can only be used if the mobile radio exchanges involved belong to the same operator or belong to operators who cooperate. It would be desirable to find a general solution that is not dependent on 10 15 20 25 30 514 newspaper. operators and that can be achieved outside the mobile radio systems involved in the network.

Swedish patent application 9200465-4 describes a method and an invention used to solve the problems described above. It is thus desirable to enable efficient, high-functionality international and interregional traffic to and from persons otherwise accessible only through complex procedures or accessible by non-optimal route selection, or provided with unsatisfactory levels of functionality at cooperation between national or regional operators. In the following, where we talk about different countries, we also mean regions in a large country.

This has been solved as described in SE 500 197 C2 through an international overlay network of service nodes (SN) spread over several countries. Subscribers to cellular or fixed networks can subscribe to the SN service, which stores and keeps up-to-date information about the subscribers' functionality and in which country the subscribers are located. The subscribers help to keep the SN service up to date on their functionality and country of residence through automatic or manual registration calls to the SN service when it changes country. The SN service uses the registered information to connect calls with the desired functionality and the cheapest way to the desired B-subscriber. SN access node ("service node" or the service has at least one "gateway") per country.

The access nodes constitute superior home location registers (CPRs), where only information about the country of residence is stored, while the detailed information about the place of residence is provided by the country's cellular mobile telephone system in their home location register. The SN nodes are connected to each other via data links for the exchange of information on country of residence and they are connected 'to each other via traffic channels' (eg telephone lines) for the subscribers' voice and data traffic. Long-distance calls are initiated, for example, with a service prefix (020 in Sweden, 800 in the USA, etc.), eg 123456, which identifies the SN service and which involves a connection to the nearest plus a service number, located SN node. Then you transfer the desired B-number, eg 010 3487685, to the SN service, which arranges the remaining connection. The object of the invention is to offer services to their subscribers without burdening them with new procedures, as far as possible. This is achieved through special terminals that translate regular numbering to the special numbering, eg 020 123456 010 3487685, which is required to connect outgoing long distance calls via the nearest SN node. The special terminals may contain an analyzer which determines in which cases calls are to be set up via the SN node and in which cases they are to be set up directly. The analyzer's decision table can be updated from an SN node in a new country the subscriber has just arrived at by a transfer to the special terminal of an updated table.

An apparatus method used in such a communication network as referred to above is characterized as it appears from claim 1.

DESCRIPTION OF THE FIGURES The invention will be described in more detail with reference to the accompanying drawings, in which Figure 1 shows a block diagram of a communication network with three mobile radio systems; Figure 2 shows a flow chart in connection with the systems according to Figure 1 and which shows a previously known method of connecting calls; Figure 3 shows a flow chart in connection with the systems according to Figure 1 showing the method according to the above-mentioned SE 500 197 C2; 10 15 20 25 30 5141 87.3 '.

Figure 4 shows a block diagram of a known mobile telephone set modified in accordance with the invention; Figures 5-6 show flow diagrams for connection according to the invention. Close-up space Figure 1 schematically shows a block diagram of three different mobile radio systems in which the blocks relevant to the description of the invention have been included. The three systems all use one and the same standard, but have different system identifications and may have different operators. As an illustrative example and to facilitate the following description, it is assumed that the common standard is EIA / TIA IS-54, ie the standard adopted for mobile radio systems in the United States. Systems S1, S2, S3 are assumed to be used by different operators, ie two different operators use systems S2 and S3 and S1 respectively and cooperate so that the three different systems can communicate with each other. Furthermore, each of the systems has one for the system in question. characteristic system identification number (SID) used by the mobile radio devices when registering, for example.

The mobile radio system S1 in the case shown here comprises a per se known mobile telephone exchange MSC1 connected to the wired public telephone network PSTN, wired calls to and from subscribers within the coverage area which in a known manner mediates for the system S1 and which also mediates interurban calls to and from the system S1 to other systems S2, S3 and between systems in other areas, eg abroad if systems S1-S3 all belong to a certain country.

A certain mobile subscriber A, for example a mobile telephone, can establish or have a connection established with the mobile telephone exchange MSC1. via a base station not shown here in a manner known per se, for calls to another mobile or tree-bound subscriber within or outside the system S1. A wired subscriber A1, for example a regular telephone, may have a connection established at the public telephone network PSTN for calls with another wired or wireless subscriber.

The mobile radio system S2 is shown here consisting of likewise a mobile telephone exchange MSC2 of known type which has a connection with the public telephone network PSTN. The S2 system has also included a first register CPR, a so-called home location register, which in a known manner contains a list of all mobile subscribers belonging to the S2 system, the so-called home mobiles regardless of where they are located. Furthermore, a second register VLR is shown, a so-called visitor location register (visitor location register), which contains a list of the mobiles that have wandered into the S2 system as visitors, but which belong to other mobile radio systems.

The mobile radio system S3 also contains a mobile telephone exchange MSC3 and the associated visitor location register VLR3. It is assumed that the subscriber, home location register HLR3 and designated B in Figure 1, with whom the A-subscriber in the system S1 wishes to talk has wandered from his home system, system S2, and is in the system S3 at the time of calls from the subscriber A3.

If the subscriber A in the system S1 wants to connect to the roaming subscriber B in the system S3 as shown in figure 1, he can according to prior art do this via the B-subscriber's home system S2 according to the flow chart shown in figure 2.

According to this flow chart, it is assumed that the mobile subscriber A wants to establish a connection with the subscriber B now in the system S3.

Subscriber A therefore calls his mobile telephone exchange MSC1, which establishes a connection with the mobile telephone exchange MSC2 in system S2 (block 2 in the flow chart).

The exchange MSC2 requests its location register HLR2, since subscriber B belongs to system S2 and to find out that subscriber B is in system S3 (blocks 3 and 5). 1014 20 25 30 514 * 873 The mobile telephone exchange MSC2 then connects the connection received from MSC1 further via PSTN to the telephone exchange MSC3. The exchange MSC3 then connects to the mobile subscriber B after locating subscriber B by request in the visitor register VLR3 and subscriber A has thus received a call connection with subscriber B, block 6.7 in figure 2. The operator of system S2 thus charges a certain fee for the time the call uses the connection from system S2 to system S3.

According to the proposed invention, for mobile communication networks, for example one as shown in Figure 1, service nodes and terminals which can cooperate with these nodes are introduced, ie a new service is introduced for the subscribers in the systems in which the subscribers can move when roaming. from one system to another. Transit switches, preferably of the PABX type, are therefore introduced into the system complex according to Figure 1, which function as access and service nodes for the subscribers in the systems that each of the nodes serves. In the example according to Figure J., a node (PABX switch) serves only a specific system, but it is understood that such a node can also be extended to serve several systems, characterized by a separate system identification number (SID).

The term PSTN stands here for the public public telephone network, in this case throughout the United States, including local exchanges and transit exchanges and connections between them.

A PABX exchange PABX1 of a type known per se is connected to the network PSTN to form a service node for the subscribers within the system S1. The PABX1 exchange consists, for example, of a so-called private exchange MD 110, which is described in "System ASB 501 04" with document number 1551-ASB50104 Uen from ERICSSON, and is connected to, for example, a local exchange in the public network PSTN by means of a standard PABX via to the local exchange. . Subscriber A, whether mobile or wired, can therefore connect to the PABX switch PABX1 in the usual way. 10 15 20 25 30 35 514 873 The private exchange PABX2 is also connected to the public telephone network PSTN, for example connected to a local exchange in the network PSTN in a similar way as the private exchange PABX1 is connected to a local exchange in PSTN at the system S2. Finally, a service node in the system S3 is formed by connecting a private exchange PABX3 to the public network PSTN in a similar manner. The term PSTN has the same meaning here as according to what has been mentioned above.

The PABX1-PABX3 private exchanges store and update information about the functionality of associated subscribers and where they reside. The update about the place of residence (country or area) is done by the subscribers themselves, either automatically or manually by, for example, entering a code that constitutes access to the home anode, ie in this case the switch PABX2 and which indicates where the subscriber has moved, in this case to the area for system S3. This will be described in more detail in connection with Figure 6. associated mobile telephone exchanges, in the case described the exchange MSC2 by means of the update can also be done by (service) of the register HLR2, for such mobile telephone subscribers who subscribe to this service with their mobile telephone operator. This, however, that the service according to, the invention. assumes the mobile telecom operators cooperate with In this case, the subscribers can use known standard mobile telephone sets, which do not need to register (as described in connection with Figure 6) in addition to the standardized registration.

A signal path S is formed between the nodes PABX1, PABX2 and PABX3 and can consist of already existing data transmission connections with associated modem equipment in respective switches PABX1, PABX2 and PABX3. Over this connection, information is exchanged from resp. to these exchanges regarding place of residence and possibly functionality if the subscribers in resp. system. Thus, the subscriber B, with home system S2, but who has moved to the system S3, sends information to his home service node, ie the exchange PABX2 about this move. The subscriber B has a certain amount of memory space in his service node and when he has wandered to another system, in this example the system S3, the code for this system is entered. The service node for system S1, ie the switch PABXI can therefore obtain information about this roaming via the data connection S.

In the same way, the subscriber A in the system S1 communicates to his PABX, in the event that this subscriber has wandered to another system, the code of the system to which subscriber A has wandered and this code is written in the memory space in his PABX which is reserved. This roaming is not affected by the present invention and is therefore not described here.

The PABX1-PABX3 switches which constitute the respective node assigned systems S1-S3 can, as described above, be regarded as transit switches and as superior home registers HLR in addition to the registers HLR1-HLR3 belonging to the respective systems S1-S3.

With reference to the flow chart according to Figure 3, the case where subscriber A is to establish a call connection according to the proposed method will now be described in more detail.

Subscriber A, who is, for example, a mobile telephone subscriber, calls his base station (not shown here) and is connected to the nearest mobile telephone exchange MSC1. The call includes a service number, which indicates that the subscriber A wants to be connected via the service provided by the service node belonging to his home system S1. Block 1 in the flow chart.

The service call is connected to PABX1 via, for example, a local exchange in PSTN and a PABX via, block 2 in the flow chart, and PABX1 sends a request for the subscriber's B number to subscriber A, block 3 in the flow chart.

The exchange PABX1 receives the number of subscriber B and signals to the exchange PABX2 via the signaling path S and finds out that subscriber B has wandered to system S3. Blocks 4-5, 8 in the flow chart.

In the event that the exchange PABX2 indicates that subscriber B is in its home system, "Yes", connection takes place via PABXI and PABX2 according to block 6.7 in figure 3. (153 10 When PABX1 has found that subscriber B is in system S3, ("No" at block 5) PABX1 requests a connection with PABX3 over the public network PSTN. This is done through a PABX number in basically the same known way as a regular subscriber would be connected from PABX 1 to PABX 3 by PSTN PABX1, however, simultaneously sends a request to PABX3 to first connect to subscriber B in system S3, block 9,10 in the flow chart, in which case PABX3 confirms that subscriber B is connected in system S3 10) connection is made (block 11) between subscribers A and B via a path: A - MSC1 - PSTN - TranSitPABX1 - PSTN - TranSitPABX3 - PSTN - MSC3 - B.

This throughput path is shown by arrows in Figure 1.

If the B-subscriber has not been connected by PABX3, this may be because the B-subscriber has not yet responded. Then a certain time, block ll, is expected before the call is switched through PABX1-PABX3.

The new call and connection method according to the invention differs from that according to the prior art mainly in that the called subscriber's home system does not have to be involved in any connection method nor does it need to be covered with talk time which the visited system is actually supposed to handle.

The advantage of this is obvious, the occupancy rate of the home system becomes considerably less for all roaming home subscribers, which considerably increases the capacity of the home system for the non-roaming home subscribers and for visiting subscribers who cannot use the method according to the invention. Furthermore, the B-subscriber does not have to pay for the unnecessary additional cost of routing via the home system.

In a communication network other than the one discussed above, there is a subscriber A from a certain country (France), who wants to call a roaming subscriber B from his home country (Sweden), but who is in a third country (Spain). The operators for these countries are different, however, as in Figure 1, the standard is the same for the different systems in the countries. An example of a common standard is the global mobile radio system GSM, which is common to 10 15 20 25 30 5 'Eli i8 7.3. * 11 several European countries, for example Sweden, France and Spain. The principle for service calls to the service node PABX1, request and connection will be the same as in the case according to figure 1.

A third case of communication networks differs from the previous one in that in addition to several countries and several operators, there are also several standards. As an example, it can be assumed that the countries are France with GSM standard, system S1, Sweden with NMT standard system S2 and Italy with TACS standard, system S3.

In this case with three different standards GSM, NMT and TACS, it is not at all possible to connect a call from subscriber A in France to a Swedish subscriber B who has roamed to Italy. This is because the NMT mobile telephone exchange MSC2 in Sweden is not programmed to connect a subscriber to the TACS mobile telephone exchange MSC3 in Italy, cf. Figure 1. Thus, in this case there is no realistic alternative to the method according to the invention.

In this third case, the procedure according to the invention is the same as the case according to Figure 1. The only difference is that the service node PABX2 in Sweden leaves the service node PABX1 in France in addition to the number of the node PABX3 in Italy the TACS number used by the Swedish subscriber in Italy.

The problem with the PABX1 switch is that it cannot know which TACS number the roaming subscriber B has received in Italy.

Subscriber B may have rented a TACS device and thereby received a number that is not available in the PABX1 exchange. Subscriber B therefore makes a registration with his home service node by dialing the exchange PABX2 in the manner that will be described in connection with Figure 6. This can in turn then notify PABX1 of the new number of subscriber B in the manner previously described in in connection with signaling between PABXI and PABX2.

It is assumed that the exchange PABX1 as above has found out the TACS number for subscriber B. The exchange PABXI gives this number to the exchange PABX3 which thereby with the aid of the mobile telephone exchange MSC3 and 10 15 20 25 30 5124 87-3 12 associated home and visitor location register HLR3 , VLR3 finds that subscriber B is in Italy and calls him. Thereafter, connection takes place in the same way as in Figure 1.

The method and system of the present invention that. access to the service nodes PABX1-PABX3 requires that a minor modification be performed in the mobile devices used in the mobile radio systems S1-S3 and which have subscribed to the service according to the invention.

Figure 4 shows a block diagram of a per se known mobile station according to Swedish patent application 9200336-7, but which has been modified so that, for example, subscriber A can use this as described above in connection with figure 1.

The mobile station 700 has an antenna 710. A transmitter 720 is connected to the antenna 710 and is controlled by a transmitter control unit 752.

The transmitter is also connected to the signal processor unit 740. A receiver is also connected to the antenna and is used in time division multiplex together with the transmitter. The receiver 730 is also connected to the signal processor unit 740. Radio equipment for modulation and demodulation, respectively, and equalizers are included in blocks 720 and 730.

The signal processor unit 740 includes channel coding, channel decoding and signal processing of speech in the incoming and outgoing directions. The signal processor unit 740 is also connected to the microphone and headphone in block 741 and to the control logic 750.

This control logic is in turn connected to the transmitter control unit 752 and to an I / O block 753 which adapts the signals for keypad and display window in block 760. The modification of the mobile station according to the invention is realized in the form of data or program sequence in the control logic 750 and has been designated with 751 "additional logic". 13 15 The flow chart according to figure 5 shows in more detail the function of the mobile radio device according to figure 4 when its subscriber applies the service nodes according to figure 1 and the flow chart according to figure 3.

The subscriber A in figure 1 wants to establish a conversation with the subscriber B who has wandered from his home area S2 to S3, which subscriber A does not know about. Subscriber A enters the B-subscriber's number on the keypad 760 according to Figure 4 on his device, which is analyzed by the AL unit 751 in the mobile device control unit 750. Blocks 1 and 2 in Figure 5.

The logic 751 then examines whether the dialed subscriber number belongs to a subscriber within the same system S1 in which the own subscriber is located or whether the dialed number belongs to another system. In the example of Figure 1, subscriber B belongs to system S2 (San Francisco) but has roamed system S3 (Los Angeles) while subscriber A is in system S1 (Chicago). If now the logic 751 finds that the beaten subscriber B is a foreign subscriber (ie a subscriber who does not belong to the system S1), "No" at block 3 in the flow chart according to figure 5, the device calls its nearest service node, i.e. in this case PABX- the PABXI exchange by means of a regular call to such an exchange and over the public telephone network PSTN. The further procedure for connecting a call between subscriber A and subscriber B takes place in the manner associated with figure 1 in the case that the device A has determined that the called subscriber B belongs to previously described in the same system as subscriber A is in, "Yes "at block 3 of the flowchart, the B-subscriber is called in the usual and known manner according to the standard prescribed for the system, block 4, in this example the American standard IS-54.

Each subscriber who is connected to the service that the service nodes according to the above can provide must register with these nodes in order for the calling subscriber's service node to receive information about which system the called subscriber has wandered to. The subscriber's apparatus, whether it is its own apparatus brought to the visiting system or is a leased apparatus, must therefore have a program in its control logic 750 which performs this registration. The flow chart according to Figure 6 shows this. However, compare with what has been mentioned above in the case where the mobile phone operators cooperate and. as the update can be done by associated mobile phone exchanges.

It is assumed that subscriber B, who is connected to the service service and who is in the visitor system S3, has rented a device with additional logic as above, and switches it on in order to be able to receive any incoming calls. The device receives a so-called (ONT, the visitor system's mobile telephone exchange MSC3, which contains, among other things, "overhead message train" which is standard in the USA) from the system's identification number SID3. The device has a stored system identification number SID2 for the previous residence type, in this case the system S2, and the device checks whether these two identification numbers are equal, blocks 1-3 in figure 6. If these are equal, "Yes" at block 3, no further action is taken by the device. If, on the other hand, these are different, "No", the device calls its home service node, ie the PABX2 switch, and registers there, since the subscriber belongs in system S2. The device registers its identity and its system identification SID in the system S3 he visits.

If the subscriber as above wanders into the visitor system S3 with his rented device switched on, the registration takes place in the same way as above with the beginning that the device reads the above-mentioned OMT.

The registration as above, ie transmission of the subscriber's call and identity, as opposed to registration in the usual way between a mobile station can suitably take place over a traffic channel to and a mobile telephone exchange, which is performed by means of standardized signaling.

Another type of call that may be necessary to perform in connection with the use of the service nodes according to the invention is so-called "characterization calls". Such a call is primarily intended to load new data in the block AL in the mobile telephone set according to Figure 4, mainly the telephone number of the nearest service node (PABX). But other parameters in the subscriber device can also be considered. Such a call can be initiated by a service node (PABX) or can be made in connection with the above-mentioned registration when a certain service node, for example the exchange PABX2 is connected to the subscriber, in this case subscriber B due to a new SID registration. The PABX2 switch loads the logic in the control unit 751 in the subscriber device with the new information as above.

The invention has been described with examples of the nodes consisting of private exchanges PABX connected in the IPSTN 'subscriber multiple. However, it is obvious to the person skilled in the art that the nodes can alternatively consist of switches in the public network PSTN, whereby connection to these can take place with a simple prefix in front of the desired B-number, eg 300 010 3487685, where 300 is the prefix, or without any prefix at all if the public telephone network PSTN uses the service according to the invention for all subscribers.

The invention has also been described with examples of the nodes all being in telephone networks. However, it is obvious to the person skilled in the art that the nodes can alternatively be connected to other networks, for example mobile data networks or to several networks simultaneously as described in Swedish patent application 9200465-4 mentioned above. This case allows, among other things, that you can search for the B-subscriber in several networks at the same time.

It is also possible to centralize the storage function in the nodes by combining the information in which system the roaming subscriber B is located from the individual PABX switches (according to Figure 1) to a broken central unit connected to the PSTN.

Claims (2)

lO 15 20 25 30 35 514 873 16 PATENTKRAV A method in a subscriber apparatus having a certain identity in a car radio system of a number of such systems (S1-S3) in connection with establishing a telecommunication connection between a first mobile subscriber (A) and a second mobile subscriber (B) by means of a number of service nodes (PABX1-PABX3) each assigned to one of said number of mobile radio systems (S1-S3), of which a first (S1) constitutes the home system of the first subscriber (A) and a second system (S2) constitutes the home system of the second subscriber (B) but where the second subscriber may have roamed to a third system (S3), the first subscriber dialing a number to get a connection connected to the second subscriber (B) over associated service nodes (PABX1, PABX3), k characterized in that the number of the other subscriber (B) is analyzed (2, Fig. 5) in the device with respect to home systems. (S2), wherein if the second subscriber (B) does not belong to the same system as the first subscriber (A), the service node (PABX1) belonging to it is called (5, Fig. 5) with the request that this service node in cooperation with (PABX2) and the system (S1) where the first subscriber (A) the second subscriber (B) service node service node (PABX3) belonging to the system (S3) to which the second subscriber (B) roams connects a connection to the second subscriber (B). Method according to claim 1, characterized in that the service node of the first subscriber (PABX1) is called (5, Fig. 5) from the device by means of a service number indicating that the first subscriber (A) wishes to be connected to his associated (PAßx1), request to the device (3, Fig. 3) about the service node of the other subscriber, this service node sending a (B) number, in order to obtain information about the location of the other subscriber (B) and to be able to connect the connection.