FI98033C - Method and mobile communication system to provide a privileged telecommunication connection - Google Patents

Description

98033

Method and mobile communication system for establishing a privileged communication connection

FIELD OF THE INVENTION The invention relates to a method for establishing a privileged communication connection between desired subscribers, at least one of which is a mobile station in a mobile communication system comprising a base station when said base station does not have free radio units for the for a privileged telecommunications connection.

Background of the Invention In prior art systems, the establishment of a privileged call, such as an emergency call or a high priority call, can be performed in two ways. One method is a method and system for unloading an existing call from under a privileged call. In this case, an emergency call is made to the system, in response to which the system searches for free traffic channels. This operation can be performed, for example, by the exchange of the mobile communication system or its base station. The system detects that the base stations at which the privileged call is to be established do not have a free traffic channel. In this case, the system selects the call to be disconnected. The call is dropped by sending, typically from the exchange, the drop-off messages to the base stations and radio channel units that maintain the drop-down call. Thereafter, it is expected that the radio units of the traffic channels will be able to remove all subscribers on the channels required for the emergency call from the traffic channels. This is done, for example, by sending a plurality of decryption messages on each traffic channel to be decoded, and it is desired that the receivers 98033 2 operating on the traffic channel in question hear those decryption messages and know how to terminate their traffic. Next, assuming that all subscribers have been removed from the desired traffic channel, the call is then also disconnected at the exchange of the mobile communication system.

5 In this case, the traffic channels are also freed up in the exchange and can be allocated for the use of a privileged call. A privileged call is then established on the released channel. This is done by commanding subscribers to the traffic channel and sending 10 messages on the traffic channel, commanding all non-call subscribers away from that channel.

The problems with this prior art solution are the following: When using the second call unloading-15 above, the privileged call set-up time under the privileged call is long because the underlying call, i.e. the bus reserved on the previous channel of the radio unit of that base station, has to be unloaded and commanded there. mobile stations operating on the channel.

20 Furthermore, it is not possible to be certain whether all the subscribers of the downlink call were actually removed from that traffic channel.

A further disadvantage of the prior art solution is that since the channel may be disconnected regardless of whether a mobile station transmitted at the same time as the call was disconnected, an additional subscriber may be left on the call who himself transmitted when the exchange transmitted via the base stations. the call termination messages for that call. It is also possible that more subscribers will be left hanging on the 30 call channels to be dropped.

A further disadvantage of the prior art solution is that the channel may not be taken on a new call as long as the channel has a transmission in the me-35. In this case, it may take a long time for the parties of the telephone 98033 3 to be dropped to stop transmitting. In this case, it also takes a long time to disconnect the call. The disadvantage is that you cannot make a new emergency call.

A further disadvantage of the prior art system 5 when it is desired to allow the delivery of a decryption message sent by a base station and therefore use duplex radiotelephones that can transmit and receive simultaneously is that such radiotelephones are expensive and large in size.

A disadvantage of the prior art solution, if simplex radios are used instead of duplex radios, which can only receive or transmit at a time, is that the radiotelephone has to take breaks during transmission and interrogates whether the unloading message sent by the tu-15 base station will be heard. The problem in this case is that the transmission can be interrupted and the call can only be terminated when the transmitting mobile station interrupts its transmission. In an analog system, interruptions affect the quality of voice transmission if they occur frequently. If, on the other hand, there are too few of them, the disconnection of the call to be disconnected will slow down correspondingly, and then the connection of a new urgent privileged communication connection will also slow down.

Prior art digital systems can provide transmission pauses without compromising speech quality. In this case, pauses are used to establish a signaling channel in the opposite direction. In this case, the disadvantage is that the time required for breaks is out of the payload rate, which decreases or correspondingly a higher bandwidth is required. The channel bandwidth 30 is generally not freely selectable, so unnecessary pauses are thus out of the payload rate.

It is also possible that in prior art systems, even if duplex mobile stations are used and operated in a digital system, space may remain on the traffic channels in situations where, for one reason or another, they cannot hear the traffic channel. In this case, the subscribers remaining on the traffic channel would potentially interfere with the privileged communication connection established on that channel according to the prior art.

5 Another prior art method for establishing a privileged call is a system in which each base station has an additional radio unit in reserve to which a specific traffic channel is allocated for emergency calls. In such a system, fast establishment of a privileged telecommunication connection is achieved, but it requires an additional radio unit for backup. In addition, in such a system, each base station must have its own emergency call frequency to which that radio unit is tuned. In this case, the backup "over-15" radio unit in the system is in an unused state most of the time, so it is not always possible to be sure that the equipment connected to this traffic channel is really in order when an emergency call arrives, and that privileged or emergency call can be established. through that radio unit.

Disclosure of the Invention It is an object of the present invention to solve the presented problems of the prior art solutions by providing a method and system for establishing privileged calls. The aim is to provide a method in which privileged telecommunications connections can be established quickly and securely without the risk of including subscribers in a previous call and without the need for 30 radio transceiver units specifically reserved for privileged telecommunications connections.

This new type of method for establishing a privileged telecommunication connection between desired subscribers is achieved by a method according to the invention, which is characterized by the following method steps: directing communication connection between the desired subscribers.

The invention further relates to a mobile communication system comprising: switching means for a base station having at least one mobile station in radio communication with radio units for connecting road-to-10 telecommunication connections between desired subscribers. The inventive mobile communication system is characterized in that the system comprises: control means for controlling a radio unit allocated to a base station privileged communication connection to tune to a new channel reserved for the privileged communication connection to establish a communication connection.

The invention is based on the idea of controlling a base station radio transceiver to change its channel, i.e. its frequency and / or the frequency of its time slot, when it is desired to establish a privileged communication connection. In this case, a channel is selected for the privileged telecommunication connection which has not been used just before, thus ensuring that there is no traffic interfering with the privileged call to be established on that channel.

An advantage of such an invention is that it solves the problems of prior art systems and methods.

An advantage of the invention is that it provides prior art solutions for a faster method and system for establishing a privileged communication connection without the base stations of the system having to reserve radio transceiver units for the privileged communication connection.

A further advantage of the invention is that it is ensured that there are no additional subscribers in the privileged call 98033 6, for example in an emergency call, and that the invention makes the call set-up time short in a situation where there is no free channel. In addition, the advantage is that existing and normally used radio transceiver units are used, i.e. there is no need to keep additional radio transceiver units reserved for privileged communication connections in the system in a normal situation.

A further advantage of the invention is that it enables the establishment of a fast privileged call, i.e. an emergency call, even in a situation where all traffic channels are busy.

A further advantage of the invention is that the base station used in its implementation is advantageous, since there is no need to reserve additional equipment, i.e. a radio unit, for a privileged communication connection.

It is further conceivable that in a system where a separate radio unit is reserved for a privileged or emergency call, problems may arise if another emergency call occurs and all traffic channels 20 are busy. By means of the solution according to the invention, the additional subscribers who have previously reserved radio units can be efficiently "unloaded" from the call or telecommunication connection.

A further advantage of the invention is that the use of emergency call frequencies, i.e. frequencies reserved for privileged telecommunication connections, is efficient. In the system according to the invention, it is sufficient to allocate to a large number of base stations a number of channels reserved for the use of privileged calls. In this case, much less privileged channels can be reserved than there are base stations, as not all base stations necessarily need their own privileged channel.

List of figures

The invention will be described in more detail below with reference to the accompanying drawings, in which Fig. 1 shows a center of a mobile communication system according to the invention, Fig. 3 shows a base station of a mobile communication system according to the invention, Figs. 3 to 8 show the contents of databases in a memory system according to the invention.

DETAILED DESCRIPTION OF THE INVENTION Figure 1 shows the exchange 100, Interface Unit 108 of a mobile communication system according to the invention, connecting speech and other communications from base stations 101, 102 via a communication connection 111 to a switching field 107 and a merchant 109 to the controller 100 of the exchange 100. 105 (Controller). The interface unit 108 may be connected to more than just base stations 101, 102, for example, "fixed" control points (dispatchers), telephone exchanges (PABXs) or fixed telephone network exchanges.

The exchange 100 further comprises a switching field 107 (Switching Matrix), in which the speech or other communication of the mobile stations from the base stations to the other base stations and the mobile stations receiving through them or also elsewhere (103, 104) is connected via the interface block 108.

The exchange 100 further includes a controller 105 (Controller) which makes decisions on the establishment, disconnection of calls and the allocation of resources used for the call, i.e. the use of, for example, radio frequencies and time slots and base station channels.

The controller 105 of the exchange 100 is connected to the interface unit 108 via a data connection 109, by means of which the controller 105, among other things, sends data messages to the controller of the base station (reference numerals 211 to 214, shown in Fig. 2). The controller 105 is further connected to the switching field 107, for example by logic signals 35, by means of which the connections in the switching field are changed 98033 8 to correspond to the respective call or other telecommunication connection.

The exchange 100 according to the invention comprises: control means 112 for controlling a radio unit (Fig. 2, 222) allocated to the privileged communication connection of the base station to tune to a new channel reserved for the privileged communication connection to establish a communication connection between the desired subscribers. It should be noted that said control means may be located anywhere in the area of the mobile communication system 10, one possible location may be a base station, another possible location 100.

It should be noted that the channel on which the control means 112 controls the radio unit allocated to the telecommunication connection is a channel reserved for privileged calls. The ID of this privileged channel is stored somewhere in the mobile station system, for example on a storage medium from which that channel ID can be retrieved.

In the mobile communication system 20 according to the invention, said control means 112 are adapted to generate and send a channel control message to a radio unit allocated to a privileged communication connection of the base station (Fig. 2), which in response to said channel control message is tuned to a new privileged channel information. Thus, the control means 112, which may be located in the controller 105, send a message to the base station channel controller (Fig. 2, 212) instructing the base station controller 212 to change 231 the frequency of its transceiver 222 or the 30 slot frequency at which that transceiver communicates.

The exchange 100 further includes a memory means (Memo-rymeans) with tables by which the controller 105 selects the base station channel (s) and frequency for each of the 35 privileged communication connections, e.g., li 98033 9 for an emergency call or high priority call, and restores the base station after that connection.

Figure 2 shows a base station 1 of a mobile communication system 5 according to the invention. The base station is connected to another mobile communication system by an interface block 201 (Interface Block) which connects channel-specific speech and signaling from the exchange 101 to the base station channel controllers 211-214. Controller 211 is for control or paging channel (Control 10 Channel Controller) and other controllers 212-214 are for traffic channels (Traffic Channel Controller). Of course, the controllers can also be implemented as a single integrated controller. In the present invention, of the base station channel controllers, only the traffic channel controllers 212 to 214 (Traf-15 fic Channel Controller) are relevant, because it only makes sense to change the channel of the traffic channel, i.e., the frequency or time slot. Of course, it is also possible to change the frequency of the control or paging channel. This would be the case for distributed and dynamically allo-20 paging channel arrangements. Base station 1 also includes radio units, i.e. radio transmitters / receivers. The radio units are connected to an antenna interface 202 (Combiner) which transmits radio frequency signals to the antenna 203. The antenna communicates via radio-25 with a mobile station MS, 240 in the coverage area of the base station. to control the previously reserved radio unit 222-224 to set up 231, 232, 233 to tune to a channel allocated for a new privileged communication connection to establish a privileged communication connection.

Figures 3 to 8 illustrate the case where all the channels of the base station 1, i.e. in fact the radio units, are in use when a request for a privileged call, for example an emergency call 98033 10, arrives at the controller 105 of the exchange 100 (Figure 1). in which case the following occurs:

The controller 105 of the exchange 100 examines from its memory medium 5 106, a database of which is shown in Fig. 3 whether there is a free traffic channel in the base station 1.

The controller 105 then detects that all the radio units 222 to 224 or channels of the base station 1 are busy, whereby the controller 105 selects the exchange from the database in the memory medium 10 shown in Fig. 3 from the base station 1 for channel number 2, i.e. traffic channel for emergency call. That channel is used in the base station 1 by the radio unit 222. The controller 105 then selects the next free emergency call frequency from Figure 4, in this case the frequency 031, which the controller allocates to the privileged communication connection to be established.

The mobile communication system control means 112 then send a channel control message via the interface unit 108, the transmission path and the interface block 201 to the channel 2 controller 212 of the base station 1, where the controller is commanded to change 231 its radio 222 frequency to a new frequency 031.

In this case, those mobile stations, for example radiotelephone subscribers, which had been on the call on the channel 2 in question will lose their telecommunication connection.

The controller 105 then establishes a privileged communication connection via said radio unit 222 on a new traffic channel 031, which may be a new frequency or a new frequency and time slot.

Next, the controller 112 of the exchange 100 updates the databases on the memory medium 106 to the states shown in Figures 5 and 6.

When the established privileged communication connection ends, the following occurs: The controller 112 of the exchange 100 receives information about the disconnection of the connection and the traffic channel is released.

The controller 112 examines the memory medium 106 from the database shown in Figure 6, to which frequency the traffic channel taken for the emergency call is returned, i.e. in this case to frequency 007.

The controller 112 then sends a message via the interface unit and block to the controller 212 of the channel 2 of the base station 1, where the controller 212 is commanded to change the frequency or channel of its radio 222 to the original, i.e. frequency 10 or channel 007.

Next, the controller 112 of the exchange 100 updates the databases on the storage medium to the states shown in Figures 7 and 8.

The operation of the invention can also be described in the following way: Initially, a request for a privileged communication connection, for example an emergency call request, arrives at the exchange 100. The exchange detects that there is no free traffic channel for that emergency call to be established. In this case, the exchange 100 selects a call 007 to be disconnected. In this case, the call maintained by the radio unit 222 on channel 007 is dropped at the exchange 100. The frequency used in the dropped call or channel 007 can be marked as the frequency used for a possible new emergency call.

The drawings and the related description are intended only to illustrate the idea of the invention. The details of the method and mobile communication system according to the invention for establishing a privileged telecommunication connection may vary within the scope of the claims.

Claims (11)

A method for connecting a priority telecommunication connection between desired subscribers of which at least one is a mobile station (MS, 240) in a mobile communication system comprising a base station (1) when the base station does not have available radio units (222 - 224) for the priority telecommunications connection to be connected, in which method: one (222) of the base station (1) reserved radio units (222 - 224) is allocated to the priority telecommunication connection to be connected, the method being characterized by the following steps: the base station to said priority telecommunication connection allocated radio unit (222) is controlled to be tuned to a new channel reserved for the priority telecommunication connection (031), the mobile station (MS, 240) is controlled to said new channel and a priority telecommunication connection 20 is connected between desired subscribers. A method according to claim 1, characterized in that said step where the base station radio unit (222) is controlled to be tuned to the new channel (031) comprises the following steps: a message to the channel controlling message is sent to the base station which responds to said to the channel controlling message (231) the base station matches the radio unit (222) allocated to said priority telecommunication connection to the channel (031) determined by the channel directing to the channel. 3. A method according to claim 2, characterized in that said tile controlling message is sent from a mobile telephone exchange (100) to the base station (1) of the mobile communication system. 98033 16 Method according to Claim 1, 2 or 3, characterized in that, after disconnecting said priority telecommunication connection, said tile is tuned to the previous channel (007) of the channel reserved for the prioritized telecommunication connection (227). 5. A method according to claim 1, 2, 3 or 4, characterized in that the channel for the previously maintained telecommunication connection (222) is allocated the same channel for the use of a new priority telecommunication connection. Method according to Claim 1, 2, 3, 4 or 5, characterized in that said priority telecommunication connection is an emergency call. Method according to Claims 1, 2, 3, 4 or 5, characterized in that said priority telecommunication connection is a high priority call. A mobile communication system comprising: a base station (1) to whose radio units (221-224) at least one mobile station (MS, 240) star in radio connection, switching means (107) for connecting telecommunication connections between desired subscribers (240, 102, 103, 104), characterized in that the system comprises: control means (112) for controlling (231) the base station's til a priority telecommunication connection allocated radio unit (222) to be tuned to a new channel for the prioritized telecommunications connection ( 031) for connecting a telecommunications connection. Mobile communication system according to claim 8, characterized in that the channel (031) to which the control means controls the radio unit (222) allocated to the telecommunication connection is a channel reserved for priority calls. Mobile communications system according to claim 5, characterized in that said control means (112) are arranged to form and transmit a message directing to the channel to the base station (1) allocated to the priority telecommunications connection radio unit (222) which responds to said controlling channel. 10, is tuned to the new channel reserved for the priority telecommunication connection (031). Mobile communication system according to claim 8, 9 or 10, characterized in that said base station (1) in the mobile communication system comprises on said control means (112) corresponding means (210) for controlling the radio unit (222) in the base station (1) which was previously reserved to be tuned to the new channel (031) for the priority telecommunications connection for connecting the priority telecommunications connection.