FR2712130A1 - Data network. - Google Patents

Abstract

An X.25 network is proposed and it comprises a data terminal (10, 11) and infrastructure equipment (22), the data terminal being arranged to generate a data packet comprising a packet type identifier which is a record-type identifier, a terminal address field and an additional field not specific to the network. A single code is included in the additional field and the infrastructure equipment is arranged to recognize this code as a reconfiguration command and to carry out a reconfiguration of the routed data for the terminal identified in the address field in order to direct data for the terminal identified in the address field on this terminal.

Description

The present invention relates to an X.25 data network, that is to say a

  data network which meets the CCITT X.25 standard as defined on the date of filing of this request. In networks of mobile radio apparatus, one of the main problems is constituted by the conservation of a trace of the users of the radio apparatus with wide range. This

  is normally called "mobility management".

  In many networks of mobile radio devices, the movement of radio units is monitored by the use of "tracking" mechanisms. A "tracking" mechanism is basically a process by which the extended range radio unit can tell the infrastructure of the

  network that it wishes to use these network services.

  The network infrastructure can then confirm or deny the service depending on the subscription status of the requesting radio unit as well as the determination of

  the location of the user of the radio device.

  Tracking mechanisms can also be used to generate information on a network infrastructure for equipment connected to a particular radio unit. For example, at a trans-European network radio (TETRA), a connection oriented packet switched data protocol (CONP) has been defined, which uses a separate address domain (X.121) from that used

  to identify individual radio units (ITSI).

  It has been proposed in document RES6.4 (93) 125 of the European Telecommunications Standards Institute entitled "Addressing Issues" that a mobile terminal unit or a data communications unit (DCU) be informed of the link between a TETRA ITSI address and a CONP X.121 address. When this feature is implemented and a data terminal equipment (DTE) or an X.25 network is connected to a radio unit which wishes to use the CONP service, the radio unit informs the network infrastructure the link between the X.121 address and the ITSI radio units by including the two addresses in a tracking request. This allows the network infrastructure, using a subscriber database (or some other similar mechanism) to route CONP data packets arriving according to their X.121 destinations via

  connected radio units (ITSI).

  However, there is a limitation with fixed networks such as the X.25 network in that each X.121 address is pre-assigned to fixed data communication equipment (DCE) from a central point, similarly to a telephone network. In this fixed network case, all arriving X.25 packets can be routed according to their destination using their pre-assigned X.121 allocation table. The X.25 standard does not provide any mechanism allowing a DTE to inform a DCE of its X.121 address when it is connected or when it is disconnected. A DCE is only informed of the DTE address when an appeal request is made. Therefore, there is a need for a protocol that allows a radio unit to inform the infrastructure of the

  network of the link between the X.121 address and the ITSI radio units.

  According to a first aspect of the invention, an X.25 network is proposed comprising: a data terminal and infrastructure equipment, in which the data terminal is arranged to generate a data packet comprising a packet type identifier which is a record type identifier, a terminal address field and an additional field not specific to the network, characterized in that a unique code is included in the additional field and in that the infrastructure equipment is arranged to recognize this code as a reconfiguration command and to perform a reconfiguration of data routing for the terminal identified in the address field in order to routing the data for the terminal identified in the address field on this

radio device.

  According to a second aspect of the invention, an X.25 network is proposed comprising: a data terminal and a switching center, in which the data terminal is arranged to generate a data packet comprising a packet type identifier and a terminal address field, characterized in that the packet type identifier is a unique code and the switching center is arranged to recognize this unique code as a reconfiguration command and to carry out a reconfiguration of routing switch data to route the data for the terminal identified in the address field to

this terminal.

  The present invention provides a mechanism by which, in a mobile radio network, a user can change the radio unit on which a piece of X.25 equipment is attached. The network infrastructure is immediately informed of the change and any incoming X.25 packets destined for this equipment can be routed to the new radio unit on which the X.25 piece of equipment

is connected.

  The objects and advantages of the present invention presented above as well as others will become apparent

  of the detailed description which follows which will be read in relation to

  the accompanying drawings, in which FIG. 1 represents a global view of a system according to the invention, FIGS. 2 and 3 respectively represent a registration request packet and a registration confirmation packet according to the first aspect of the invention; FIGS. 4 and 5 respectively represent a tracking request packet and a tracking confirmation packet according to the second aspect of the invention; and Figure 6 shows a sequence of events during

  of an operation of a system according to the invention.

  Glossaries of abbreviations CCITT International Consultative Committee for Telegraph and Telecommunications CONP Connection oriented packet switched data protocol DCU DTE data communication unit DXE data terminal equipment ETSI data switch equipment ISO European Telecommunications Standards Institute International standardization organization ITSI Individual TETRA subscriber identity TETRA Radio of trans-European network, that is an ETSI standard for a radio with digital main channels. Referring to Figure 1, a packet switched data network and a combined main channel radio network are shown, i.e. a main channel TETRA radio network is shown which supports switching X.25 data. By way of example, the system is represented as comprising two pieces of data terminal equipment (DTE) 10 and 11 physically connected to two data communication units (DCU) 12 and 13 by means of standard connectors 14 and 15 The DCUs 12 and 13 respectively have ITSI identification numbers A and B and communicate on a radio interface either with each other via a base station 20 or via the base station 20 on a Land line 21. In each case, communication takes place via a switching controller 22 which includes I / O interfaces 23 and 24, a central control unit 25 and a database consultation memory 26. The database data 26 is represented in an enlarged view, delimited by dotted lines, as correlating X.121 addresses with numbers of

ITSI location.

  The operation is as follows. Consider for example the case where the DTE 10 wishes to send a message to the DTE 11. The message is presented on the DCU 12 which has the identification number ITSI A. The DCU 12 itself performs an identification on the base station 20 , hence the allocation of a channel for the DCU 12. The DCU 12 sends the message together with its destination address, which in this case is X.121 = 2, to the base station 20, which presents the message and its address to the switching controller 22. The central controller unit 25 performs a consultation operation in the database 26 and identifies that the ITSI which corresponds to the address X.121 2 is "B". Likewise, the database 26 can identify that the address X.121 corresponds to an address on the land line 21. The switching controller 22 directs the packet back to the base station 20 for retransmission to DCU 13, which receives the packet and sends its content

  at DTE 11. Thus, the operation is terminated.

  Now consider the case where the DTE 10 is disconnected from the DCU 12 and is connected to the DCU 13 and where the DTE

  1 is disconnected from DCU 13 and is connected to DCU 12.

  Each of the DTEs 10 and 11 performs a recovery operation

  marking which involves sending a special control packet (described below) to the switching controller 22. The central control unit 25 then reconfigures the data in the database 26 so that the ITSI B corresponds to

  the address X.121 1 and that the ITSI A corresponds to the address X.121 2.

  When the DTE 10 then initializes the sending of a message, it is the DCU 13 which requests the channel on request and which sends the message to the base station 20 for routing by the switching controller 22. The switching controller 22 then identifies that the destination address X.121 = 2 corresponds to the DCU 12 having ITSI = A and therefore, the switching controller 22 sends the message via the base station 20 to the

  DCU 12 which sends the content of the message to DTE 11.

  A description which highlights two variants

  allowing a DTE to inform a DCU to which it is connected of its X.25 address is now produced. Each of these variants represents an improvement over the

  CCITT X.25 standard (ISO 8208, ISO 8878, ISO 8348).

  The first variant allowing a DTE to inform a DCU to which it is connected of its X.25 address consists in using packets of "tracking request" and "confirmation

  "for a subnet locating / de-locating.

  In the X.25 standard (ISO 8208), two tracking packets have been defined ("tracking request" and "tracking confirmation"). These packets are an optional resource that can be used for a certain period of time for DTE and DCU. If the online tracking resource is accepted, optional user resources can be negotiated at any time between the DTE and the DCU. However, in ISO 8208 (section 16), it says that a cue marker (contained in cue packages) is used to distinguish between X.25 cue resources and non X x cue resources. 25. A zero 16-bit tracking marker indicates a non-X.25 tracking resource as defined

in ISO 8209.

  This proposal defines a non-X.25 tracking resource for subnet tracking. The format of the X.25 tracking request and tracking confirmation packets that include a subnet tracking / un-tracking resource

  no X.25 is shown in Figures 2 and 3.

  This arrangement has the advantage of using an existing X.25 packet type and of using otherwise unused space in the packet. It does not require redefinition of the standard and it does not use any of the packet type identifiers

  reserved for future use.

  As shown in Figure 2, the cue request packet includes a general format identifier 100 in the first 8-bit byte and twelve zeros that complement the first and second bytes. The third byte 102 is a packet type identifier. It contains the identifier at 11110011 and identifies the packet as a tracking request. It is followed by fields 103 and 104 respectively for the length

  DTE address and for the length of a DXE address. Those-

  these are followed by a field 105 which contains the addresses of DTE and DXE themselves and this field is followed by a field 36 which contains the total length of the packet. This field indicates that the packet extends to additional 107-109 bytes, which may contain X.25 registration resources 107 such as service level indicators. Following field 107 is a tracking marker 108 of sixteen zeros which indicates the start of non-X.25 tracking resources. Finally, which is of significant significance for the present invention, there is a unique code 109 indicated as AAAAAAAA, which indicates that the tracking request is a special tracking request which requests in request to reconfigure the network. in order to update the location

  registered from that particular DTE address.

  FIG. 3 represents a corresponding confirmation packet comprising the packet type identifier 11110111 which indicates a confirmation of the registration and which has the same unique code AAAAAAAA in the field of

non X.25 resources.

  As an alternative to the packages of Figures 2 and 3, the packages of Figures 4 and 5 can be used. In this arrangement, two new X.25 packets are defined specifically for the purpose of subnet tracking. In the packet in Figure 4, the packet type identifier field 102 contains a unique code that identifies the packet as a tracking and reconfiguration (and confirmation in the case of Figure 5) packet. Examples of suitable codes are 11100110 and 11100111. These codes can be chosen from the 256 possible alternatives excluding codes

  already assigned shown in Table 1.

  Table 1 PACKET TYPE 3 byte bits from DTE to DXE from DXE to DTE 87654321 Call to establishment and call to reset Call request Incoming call 00001011 Call accepted Call connected 00001111 Reset request Reset indication 00010011 to Zero Reset Reset Reset Confirmation Confirmation 0001 0111 Data and interrupts Data Data XXXXXXX0 Interruption Interruption 00100011 Interruption Interruption Confirmation Confirmation 001 00111 Flow control and reset Ready to receive Ready to receive Modulo 8 Modulo 8 XXX00001 Modulo 128 Modulo 128 00000001 No reception No reception Loan Loan Modulo 8 Modulo 8 XXX00101 Modulo 128 Modulo 128 00000101 Rejection Rejection Modulo 8 Modulo 8 XXX01001 Modulo 128 Modulo 128 00001001 Reset request to Reset request to 00011011 initial state initial state Reset in the initial state Reset to the initial state Confirmation Confirmation 00011111 Restart Requ reboot restart Reboot 11111 011 Indication Reboot Reboot Confirmation Confirmation 11111111 Diagnostic Diagnostic Diagnostic 11110001 Tracking Tracking Tracking Request Request 1 1110011 Tracking Tracking Confirmation Confirmation 11110111 Subnetwork tracking X.25 works with most types of subnets, whatever it is a network of

fixed or mobile radio.

  With reference to FIG. 6, the DTE X.25 equipment is disconnected from one radio unit and is connected to another (step 100). Following the connection to the new radio unit, the X.25 DTE equipment sends a "subnet locating request" packet to this radio unit, including its address (step 101). At step 102, the radio unit locates (re-locates) the passage of its own identity and the address of the linked X.25 equipment using its local locating procedures. In a step 104, the radio network confirms the local tracking request and updates its database

  local subscribers using the new X.25 equipment address.

  Finally (step 104), the radio unit sends a "subnet locating confirmation" packet to the DTE X.25 equipment. A similar sequence of events is observed in the case of the use of X.25 subnetwork tracing using a fixed network, except that a fixed DCU takes the place of the radio unit and that a fixed network management unit takes the

radio network place.

  In the case of de-identification, the following steps are observed. A user requests that the X.25 equipment be disconnected from its DCE. The X.25 equipment sends a "subnet detection" packet to the DCE including its address. The DCE de-locates the X.121 address linking it to its own identity using its local de-locating procedures. The

  radio network management can then confirm the request for

  local tracking and can update its local subscriber database. The radio unit can then send a "subnet detection confirmation packet" to the DTE X.25 equipment, which allows the user to then disconnect the equipment. Note that the confirmation procedure

would be optional.

  The method of locating and de-locating described can be initialized in a number of ways using means

  appropriate. Two examples of these means are presented below.

  after. The user or the application can initialize the process, either directly or indirectly, by initializing the functions mentioned above. For example, the user decides to cut the identified terminal equipment, he selects

  this function and the terminal equipment performs a

  identification with the network before being cut off.

  The user then disconnects the terminal equipment and moves it to a different path in the network where the terminal is connected. The user decides to start the equipment

  of terminal and it selects the locating function of re-

  configuration. The terminal equipment is tracking with the network. As an alternative (with reference to FIG. 1), the terminal equipment 10 can be connected to the network equipment (DCU 12) via a physical connector 14. This connector includes a control device 16 which can be in either of two states, that is TRUE or FALSE. It is only possible to perform the action of connecting or disconnecting the terminal equipment 10 to the network equipment 12 from it if the control device 16 is in the FALSE position. When the user performs the action of connecting the terminal equipment 10 to the network equipment 12, the user connects the network equipment 12 to the terminal equipment using the connector 14 and establishes the device of order to TRUE. This passage from FALSE to TRUE is detected by the terminal equipment 10 and the condition TRUE is used to initialize the tracking process. In order to disconnect the terminal equipment, the user first switches the control device 16 from the TRUE state to the FALSE state. This change from TRUE to FALSE is detected by the terminal equipment 10 and the change to FALSE is used to initialize the de-tracking process, which is completed before the user can perform the action of

  detach terminal equipment from the network.

Claims (5)

  1. X.25 network comprising a data terminal (10, 11) and infrastructure equipment (22), in which the data terminal is arranged to generate a data packet comprising a packet type identifier (102) which is a record type identifier, a terminal address field (105) and an additional non-network specific field (109), characterized in that a unique code is included in the additional field and in that the infrastructure equipment is arranged to recognize this code as a reconfiguration command and to carry out a reconfiguration of data routing for the terminal identified in the address field in order to routing the data for the terminal identified in the address field on this terminal. 2. X. 25 network comprising a data terminal (10, 11) and a switching center, in which the data terminal is arranged to generate a data packet comprising a packet type identifier (102) and a field of terminal address (105), characterized in that the packet type identifier is a unique code and the switching center is arranged to recognize this unique code as a reconfiguration command and to carry out a routing referral of data to route your data to the terminal identified in the address field on this terminal.   3. Method for reconfiguring an X.25 data network, characterized in that it comprises a data terminal (10, 11) and infrastructure equipment (22), the method being characterized in that it comprises the steps of generating, at a data terminal, a data packet comprising a record packet type identifier, a terminal address field and an additional non-network specific field which comprises a unique code included in the additional field; recognition of this code in the infrastructure equipment as a reconfiguration command; and performing a network reconfiguration for subsequent data switching for the terminal identified in the address field in order to route data for the terminal   identified in the address field on this terminal.   4. Method for reconfiguring an X.25 data network comprising a data terminal and infrastructure equipment, the method being characterized in that it comprises the generation steps, at the level of a data terminal, a data packet comprising a packet type identifier which is a unique code and a terminal address field; recognition of the unique code in the infrastructure equipment as a reconfiguration command; and performing a network reconfiguration for subsequent data routing for the terminal identified in the address field to data routing for the terminal   identified in the address field on this terminal.   5. A combined packet switched data network and mobile radio, comprising: a packet data switching center a number of radio base stations connected to the switching center; first and second mobile radios arranged for communication with the base stations; and a data terminal (10, 11) having means for disconnecting from the first radio and connecting to the second radio, the switching center comprising means for receiving a data packet including an identification which identifies a radio of destination for the package; consultation means for correlating radio identifications with base stations; switching means responsive to the lookup means for routing data to the base station which is correlated with the destination identification; and an automatic reconfiguration means for routing the data intended for the data terminal to the first radio when the data terminal is connected to the first radio and to the second radio when the data terminal is connected to the second radio, characterized in that that there is further provided a connector means (14) comprising a control means (16) for indicating a new connection of the data terminal on the second radio, in that the terminal comprises means sensitive to the connector means for generating and sending to the switching center a data packet including an identification and a connection command and in that the switching center is arranged to carry out the reconfiguration when the command is received.