DE19720237C1 - Method and arrangement for radio communication networks with defined radio cell identifiers - Google Patents

Abstract

The invention relates to radio communication networks having fixed and/or mobile terminals and defined radio cell characteristics. The invention is characterized in that identical radio cell characteristics are emitted in several radio cells. In order to produce a connection in the area of radio cells with identical characteristics, the radio cell in which the terminal is located is determined by radio signal reception from the terminal.

Description

The invention relates to radio communication networks with fixed and / or mobile Devices and with defined radio cell identifiers. These include in particular to list their cellular mobile radio networks as well as trunked radio networks. The present The present invention is explained in more detail above all using the example of trunked radio networks.

Trunked radio networks are well known from the prior art. For this is exemplified on summer of praise, Hans: The technology of modern Mobilkom munikation, Franzis, 1994, pp. 201-217. It's fun networks in which a mobile station is permanently booked in a cell. A simple handover of the mobile station when changing to an adjacent one te cell is not possible in these networks. The mobile station must log on again book, this time in the new cell. One signal is used for signaling per cell sation channel used.

In each radio cell there is a system identity code on the signaling channel broadcast. See ZVEI-Regionet 43, Frankfurt 1995, pp. 9-20 to 9-22 and MPT 1343 Performance Specification 1991, pp. 9-28 to 9-30. For this Code is only a limited number of data bits in the data structure of the Signa lization channel reserved so that only a certain number of radio cells in respective trunked radio network can be identified. Is the maximum number reached, then would have to change for a further expansion of the radio network change in the data structure of the signaling channel and a corresponding request network components and end devices. This represents a significant Chen effort and uncertainty factor, especially with regard to access to the devices in circulation.

Cellular cellular networks and the base station identifiers used there are also state of the art. For example, on Lobesommer, Hans: The technology of modern mobile communication, Franzis, 1994, pp. 124-147 ver grasslands.

The present invention has for its object restrictions in Avoid radio communication networks that are defined by radio cells result in characteristics or in radio communication networks with defined radio cells Steenkennzeichen enable easy expansion of the radio network.

The object is achieved by the features of claims 1 and 8.  

The subject matter of the present invention relates to radio communications tion networks with fixed and / or mobile devices and with defined radio cell identifier. In the radio cells, the radio cell labels are before trains broadcast by one or more base stations per cell, which are also used for Processing of communication traffic in the radio communication network used will. The radio cell identifier can be on separate signaling channels len are broadcast or as reserved data areas in the communicati be provided on channels.

It is now provided that identical radio cell identifiers for several Radio cells are assigned and from this the cell in which an end device is located det is determined via the reception of radio signals from the terminal.

An object of the invention comprises a method for operating a radio communication network, especially when building and expanding network restrictions that are defined by defined radio cells characters can result. These restrictions can e.g. B. from technical Restrictions or from specification-related requirements for the system result. Thus, as is known from the prior art, certain Da areas in communication or signaling traffic for a specific reserved purpose. The object of the invention now allows him to do so avoiding existing restrictions already when building networks and he allows a largely variable design of the network.

Another object of the invention is a radio communication network according to the Features of claim 8.

Advantage of the present invention is that by the presence of identical Radio cell identifier in several of the radio cells of the radio communication network zes the amount of data to identify the radio cells is significantly reduced. Conversely, is a certain amount of data or a data area by the contractor Given the number of available bits for radio cell identification, the This area can be used optimally. The identical radio cell identification can be assigned to adjacent radio cells, which then form a radio cell area with cells of identical radio cell identifier. she can also be assigned to radio cells located at a distance from each other. Cells with identical radio cell identifiers can lead to an organizational one be summarized within the radio network.

A special consideration concerns mobile devices for radio communication network. A mobile device has logged into a cell, which has more than one Cells of identical radio cell identification belongs, so the mobile endge advises to move identical radio cell identifiers in the area of these radio cells, without having to log into another cell again. Does that come mobile terminal in the area of another cell in this area with ident schematic radio cell identifier, the mobile terminal is preferably single Lich change the frequency and adjust to the frequency in the now  more current cell is valid. The need to log in again the mobile terminal only recognizes a new cell by the fact that it is another Radio cell identifier receives as that of the cell on which the terminal is still is booked.

It can be pre when a terminal is booked into the radio communication network will see that the terminal the radio cell identifier of that cell, in who logs it in, transmits it to the radio communication network and this information mation is stored in the network. The cell can already use this for the end device or the cell range in which the terminal is located finds. Preferably, for all cells that have a radio cell identifier, that was awarded several times, a corresponding information in a Spei stored in the network and / or in the terminal. Then occurs the case that a connection to a terminal is to be established, which is located in one Cell is located, this storage unit sends an instruction to the network communicates that a further step must be carried out, as shown in the following paragraph is provided.

Active devices in the radio communication network are either registered once or continuously in the network. If the end device is in a cell whose radio cell identifier was also assigned to other cells in the same way, the following step is carried out to clearly determine the location cell:
The decision necessary to establish a connection, in which cell a terminal is located, can be made by receiving radio signals from the terminal and determining a location cell from the reception. The method does not represent any significant additional effort. Already by logging in the terminal in the area of the radio cells of identical radio cells, the network is aware of all possible cells in which the terminal could currently be located. It is therefore only necessary to query or monitor a limited number of cells.

The radio signals from the end device can be triggered that in all those cells with identical radio cell identification for which the terminal is logged in, a call is sent to the terminal. The end device then preferably replies to the call made by that base station tion receives, in whose radio cell it is located. The are preferred Received field strength and the frequency of the received call registered. Answer If the terminal device, this response can take place at a frequency which is different from the frequency of the base station received in the terminal depends. The broadcasting sequence of the terminal then allows a determination of the location of the Terminal. However, the terminal can also be completely independent of that of it received frequency. A determination of the residence cell can then only on the part of the network or the base stations, for. B. by a determination of the received field strengths of the signal of the terminal on Sei base stations or by radio direction finding. Here is every further be  known method for determining the location cell of the terminal as well settable.

After the exact location cell has been determined, a call can be set up according to usual methods according to the prior art. Anyone can further activity such as data and communication traffic with the terminal on the determined cell can be limited.

A special embodiment of the invention will be described with reference to the following example of the Chekker trunked radio network with reference to FIGS . 1 and 2.

Show it:

Fig. 1: Data structure of the radio cell identifier in a system identity code

Fig. 2: Representation of radio cells with assigned radio cell identifier with an example of the call signaling for an individual call

In each radio cell of a Chekker network, a 15-bit radio cell identifier, the system identity code (syscode), is broadcast on a signaling channel, the digital organization channel ( FIG. 1). A distinction is made in existing networks between regional syscodes 1 and national syscodes 2 . The difference is in the syscode structure.

In the following, only the Be necessary for further consideration components of the regional syscode are described. If the first bit is set to 0, a regional syscode is broadcast in the Chekker network. The 7 bit long OPID identifies the respective Chekker network (e.g. 11 for Bremen, 19 for Cott bus). This allows max. 128 different regional networks differ the. With the help of the 4 bit long NDD (Area) field within a network differentiate the radio cells with a regional syscode. In this way can be max. Identify 16 different radio cells.

A device that moves within a Chekker network and here changes from one radio cell to another, recognizes the different Chen cell identifier that it has to register again in the trunked radio system. Calls to an end device are only broadcast in the cell for which the bundle radio system has a registration. Different by the maximum number of 16 The cell IDs are therefore also restricted in terms of network size on a maximum of 16 radio cells.

So that a Chekker network with regional syscode over the max. Number of 16 In principle, two variants can be expanded beyond cells dress.  

One way to extend a network with regional syscode beyond 16 cells tern is to add the regional syscode to a national syscode replace. The disadvantage of this, however, is that all devices that operated in the network be reprogrammed. This creates high costs for the network operator. For these reasons, this variant is from the network's perspective operator less lucrative.

According to the invention, it is proposed to repeat the cell identification of the regional syscode in individual radio cells 3 a - 3 g within the Chekker network. The distribution of the same syscodes to the radio cells takes place here preferably on those radio cells that are in contact with one another in terms of radio technology ( FIG. 2). All radio cells that emit the same syscode can be combined into registration areas 4 on the system side.

When a terminal 5 a, 5 b enters such a registration area, the terminal registers in one of these radio cells. The trunked radio system then registers the end device for all cells in the registration area. Within the registration area, the end device moves between the individual cells without registering again. So that calls can be directed to the terminal, the call signaling is first sent out in all cells belonging to the registration area. If the terminal responds to a signaling telegram (e.g. availability query, AHY) from the trunked radio system, the cell from which the response was sent is determined from the terminal's response. The terminal answers the frequency of the radio cell to which it is currently logged in and from which it actually received the call. The location cell can thus be clearly determined from the frequency of the response from the terminal.

The further signaling for this call then only takes place in the be hitting radio cell. When the device is called again, the signal is displayed again extended to all cells of the registration area.

End devices can be permanently programmed to the syscode of a single radio cell to avoid a transfer to another radio cell. So that z. B. be excluded that in particular a fixed terminal tries to log on to adjacent radio cells, although these are considered qualitative are less well known for the terminal. In the event of multiple award Identical radio cell identifiers can also be fixed to the end devices Frequency or the organization channel number of the corresponding radio cell be programmed. This will ensure that they are close together radio cells with identical radio cell identifiers open the terminal only one cell can be specified.

As a further development, it can be provided that the terminals have more than have a network data record that contains the cell identifier / possibly determines the channel number. Thus, e.g. B. by a first Netzda tset a terminal in normal operation can be set to exactly one cell. If necessary, e.g. B. in the event of failure of this cell, manually or au  Another data record can be activated automatically, which the terminal device can convert Chen arranged for a replacement cell. In doing so, a determination can be made a precisely defined replacement cell is made (e.g. a directly adjacent cell) In this case, however, the entire network can also be released, so that the terminal can now log on to any cell. It can even through the further data record, the booking into a fixed or any cell of another trunked radio network, in particular in the event that several trunked radio networks overlap in the area of the terminal.

Through the creation of registration areas and the required thereby Transmission of the signaling in all cells of the registration area, ent there is a higher signaling until the first response from a terminal arise on the organizational channel. However, this increased load becomes egg compensated for a large part, since registration processes when changing cells internally half of the registration area.

Chekker networks with regional syscode can therefore easily be over 16 Radio cells can be expanded without restrictions. Reprogramming the End devices operated in the Chekker network are not required.

If necessary, the procedure described above can also be applied analogously to the Chekker Networks with national syscode can be used. This can be used individually Plan zones in the Chekker network with more than the previous 32 radio cells and realize.

Fig. 2 shows, as mentioned above, the representation of a registration area and the representation of the successful signaling process up to the traffic channel allocation when a call from device A 5a to device B 5b. (<: Signaling from the terminal to the base station; <: signaling from the base station to the terminal).

This is just an example of a call setup. Various other variants are possible in trunked radio, which may depend on various settings in the system, in the end devices and on the performance feature used in each case.

• 1. RQS: Call request telegram from the calling terminal to the base station.
  Relevant telegram content for this example:
  PFIX: Prefix of the calling and called terminal
  IDENT1: Ident of the called terminal
  IDENT2: Ident of the calling device
• 2. ACKI: Acknowledgment of the base station to the call request and the request to the calling terminal to wait for further signaling of the base station.
  Relevant telegram content for this example:
  PFIX: Prefix of the calling and called terminal
  IDENT1: Ident of the called terminal
  IDENT2: Ident of the calling device
  QUAL: value = 1: wait for further signaling
• 3. AHY: Call telegram from the base station to the called terminal.
  Relevant telegram content for this example:
  PFIX: Prefix of the calling and called terminal
  IDENT1: Ident of the called terminal
  IDENT2: Ident of the calling device
• 4. ACKI: Acknowledgment of the called end device to the call telegram and the information for the base station that the end device signals an incoming call to its operator, but the operator has not yet accepted the call.
  Relevant telegram content for this example:
  PFIX: Prefix of the calling and called terminal
  IDENT1: Ident of the called terminal
  IDENT2: Ident of the calling device
  QUAL: Value = 0: Terminal signals incoming call but operator has not yet accepted the call
• 5. AHYX: Call termination telegram from the base station. In this example it only serves to cleanly terminate the signaling in the cells that are no longer involved and could in principle be omitted.
  Relevant telegram content for this example:
  PFIX: Prefix of the calling and called terminal
  IDENT1: Ident of the called terminal
  IDENT2: Ident of the calling device
  ACKI: Acknowledgment from the base station to the calling terminal with the information that the called terminal signals its operator of an incoming call, but the operator has not yet accepted the call.
  Relevant telegram content for this example:
  PFIX: Prefix of the calling and called terminal
  IDENT1: Ident of the called terminal
  IDENT2: Ident of the calling device
  QUAL: Value = 0: Terminal signals incoming call but operator has not yet accepted the call
• 6. RQQ: Call acceptance telegram from the called terminal to the base station. The telegram is sent after the operator has accepted the call (e.g. by picking up the handset or pressing a button).
  Relevant telegram content for this example:
  PFIX: Prefix of the calling and called terminal
  IDENT1: Value = TSCI: Gateway Ident of the TSC (trunking system controller)
  IDENT2: Ident of the called terminal
  Status: Value = 0: Operator has accepted the call
• 7. ACK: acknowledgment of the base station in response to the RQQ of the called terminal.
  Relevant telegram content for this example:
  PFIX: Prefix of the calling and called terminal
  IDENT1: Value = TSCI: Gateway Ident of the TSC (trunking system controller)
  IDENT2: Ident of the called terminal
• 8. GTC: Go To Traffic Channel telegram from the base station with the request to both end devices to switch to the traffic channel.
  Relevant telegram content for this example:
  PFIX: Prefix of the calling and called terminal
  IDENT1: Ident of the called terminal
  IDENT2: Ident of the calling device
  CHAN: channel number of the traffic channel

Claims (8)

1. A method for operating a radio communication network for fixed and / or mobile devices and with defined radio cell identifier, the radio cell identifier used to identify the individual radio cells, characterized in that identical radio cell identifier are broadcast in several adjacent radio cells and to establish a connection in the range of Radio cells with identical radio cell identifiers are used to determine the radio cell in which the terminal is located by receiving radio signals from the terminal. 2. The method according to claim 1 characterized, that information about radio cells of identical radio cell identifiers in the terminal and / or stored in the radio communication network. 3. The method according to any one of claims 1-2, characterized, that radio cells of identical radio cell identifier to an organizational Unit can be summarized in the radio communication network. 4. The method according to any one of claims 1-3, characterized, that the radio signals from the end device through calls from the side Radio communication network are triggered. 5. The method according to claim 4, characterized, that the calls are transmitted in all radio cells with identical radio cell identifiers will. 6. The method according to any one of claims 1-5, characterized, that after determining the cell in which the terminal is located, further activities between the terminal and the radio communication network only via this cell be handled. 7. Radio communication network, which contains radio cells with base stations, which Send out defined radio cell identifiers to identify the individual Radio cells serve characterized, that the base stations of several adjacent radio cells are identical Send out radio cell identification as well Devices in the radio network are provided, the received radio signals in Determine the range of radio cells with identical radio cell identification and use Are connected means that determine the radio cell from which the received radio signals were sent.   8. radio communication network according to claim 7, characterized, that in the radio communication network a storage unit for storing Information about radio cells of identical radio cell identifiers is provided.