DE19608204C2 - Method and arrangement for the transmission of information via the radio interface between a subscriber device and a network device of a cellular mobile radio network - Google Patents

Description

The invention relates to a method for transmitting In formations over a radio interface between a part subscriber device and a network device of a cellular Mobile radio network according to the preamble of patent claim 1 and an arrangement according to the preamble of the claim 5 and a corresponding subscriber facility or network device according to the preamble of claim 6 or 7.

As is known, a cellular interface exists in cellular mobile radio networks between a subscriber device and a network device. For the transmission of information in both transmission directions, a radio link (radio link) is provided, for which the three lowest layers (layers 1 to 3 ) of the ISO layer model are provided. The bottom layer (Layer 1 ) supports the transmission of information via physical radio channels, while in the overlying connection security layer (Layer 2 ) logical radio channels, such as traffic channels for the transmission of user information and control channels for the transmission of signaling information, are mapped to the physical radio channels. The connection security layer serves to secure the transmission of information in the overlying network layer (layer 3 ). The logical radio channel can be physically different in different cellular mobile radio networks. In example, the logical radio channel comprises a packet-switched satellite network with several network nodes or bundled physical transmission channels of a terrestrial or a satellite-based mobile network. Regardless of the respective physical form, the logical radio channel is set up by the signaling via the radio interface.

A backup is used for secure information transmission protocol used for the radio connection. From the GSM-Em pfehle 04.22, version 5.0.0, October 1995 is a safe radio link protocol for a cellular mo bilfunknetz according to the GSM standard (Global System for Mobile Communication). From the subscriber facility or the network device can be an information backup connection to be set up or reset to then in an information transmission phase several transmission frames men, each with a header field and an information field have, via the radio interface with the radio channels to send out sequentially. Usually the transmissions transmitted in the information transmission phase frame numbered. According to the security protocol only single transmission frames will arrive without gaps approved. Unconfirmed transmission frames can be sent from Senders in succession only at the request of the recipient be sent repeatedly. Ver may arise Delays in the backup log. Take the delays particularly strong when the radio channel is already on its own ne high delay. Goes to a requested nume lost transmission frame, this will be the earliest recognized after twice the radio channel delay time. Height Delays set pro for parent protocols blem, especially if it is for landline connections are aligned.  

EP 0 658 028 A2 describes a method for the transmission of Data packets between a sender and a receiver in egg known a wireless communication system. According to a de The defined protocol will be defined functions for off Exchange of data packets via wireless communication onspfad carried out. The recipient checks which ones Data packets entered correctly or incorrectly (or not at all) are affected and produces a complete or partial Status message. This status message contains a bit mask with several bits, the values of which are correct or not correct Specify correct receipt of the data packets. The bits of the bit mask correspond to packet numbers that correspond to the data packets in de ren order in relation to a start number are not. The status message is sent from the recipient to the Da tenpakete attached or integrated into the data packets, so that the data packets as useful information and the bit mask as Signaling information always in one and the same Transfer phase according to the defined protocol in one Protocol layer are sent and received. Beyond that must send the status message of the recipient from the sender are waited before the incorrect data pair kete to be sent out again. Delays can, however significant problems for higher-level protocols with Ver Use of the shift model mentioned at the beginning for informa lead transfer.

It is an object of the present invention, a method and an arrangement and a corresponding subscriber facility and network equipment for a transmission of information when using a layered model with ge separates the ongoing information transfer phase and informa tion security phase to specify the delay in the Information assurance phase information to be exchanged to keep it as low as possible and a blockage within Avoid backup log.  

This object is achieved according to the invention by the features of Claim 1 with regard to the method and by the Features of claim 5 in relation to the arrangement ge solves. In addition, give the features of claim 6 or of claim 7 a subscriber facility or a network device according to the invention.

The invention therefore consists of a combination of several Steps. First, a transmission frame in the Infor Mation assurance phase for multiple confirmation of each numbering arriving in the information transmission phase th transmission frame used, being in an information field a basic number to identify a first numbered Transmission frame and confirmation mark that the first Follow the transmission frame and this transmission frame assigned to the numbered transmission frames will wear. Multiple confirmation of multiple transmissions In a further step, the frame is made by setting the each associated confirmation character in the information field and by sending in the transmission frame of the information onsafety phase. In this way several in formation transmission phase transmitted transmission frame once and selectively in the separate information Mation assurance phase can be confirmed. In another Step will be the transmission frame with the confirmation characters during the information backup phase and / or still unconfirmed numbered transmission frames during the Part of the information transfer phase without request repeatedly transmitted on the subscriber side or on the network side.

Numbered by the combination of multiple confirmation Transmission frame with repeated sending of the confirmation in the transmission frame used for this purpose Information backup phase increases the likelihood that the multiple confirmation of a plurality numbered  Transmission frame also reached the receiver safely. There due to blockages in the transmission of information be avoided. The fact that additionally or alternatively The above combination of transmission frames not yet confirmed anytime - d. H. also before a timer expires or on Requirement - repeatedly sent out, the true Probability of blocking the transmission of information can be further reduced. In particular, the combination leads a multiple confirmation of numbered transmission frames not confirmed with unsolicited retransmission ter numbered transmission frame to much smaller ones Delay times within the protocol.

It is advantageous if in addition to the base number and information about the number of Confirmation mark or the transfer to be confirmed frame is entered in the information field. So that will the maximum number of transmission frames, which are determined by the Be confirmation marks in total can be confirmed in In formation field specified.

It is advantageous if for the numbered transmission frame a timer to monitor the confirmation of the transmission frame sent out in the informa tion transmission phase is started. Preferably an unconfirmed transmission frame from the network facility device or retransmitted by the subscriber facility, if a timer to monitor the confirmation of each because transmitted transmission frame a certain time duration exceeds.

The subscriber device and the network device according to the Invention each have means for entering the base number and the confirmation character in the information field of the About framework in the information assurance phase as well as with  tel to set the confirmation characters in the information field and means for sending the above information in the transfer framework during the information assurance phase. About that In addition, funds are in the subscriber facility and the Network device provided that the transmission frame with the confirmation mark during the information backup phase and / or numbered transmission not yet confirmed send out frames during the information transfer phase.

The invention is based on an illustrated in figures management example explained in more detail. Show in detail

Fig. 1 shows the block diagram of an arrangement for the transmission of information about the radio interface between a subscriber device and - a network device of a cellular mobile network and

Fig. 2 shows the general structure of the transmission frame and the content of the transmission frame for multiple selective confirmation of numbered transmission frames.

Fig. 1 shows a radio link RL with a radio interface between a subscriber device MS and a network device IWF of a cellular mobile radio network. Radio channels for information transmission in both transmission directions are provided via the radio interface. The subscriber device MS consists of a radio subscriber station with which a mobile subscriber SUB can start calls to the network and accept them from the network. The network facility IWF is designed depending on the type of cellular cellular network. In the event that the cellular mobile radio network is, for example, a terrestrial mobile radio network PLMN, the network device IWF is located in a mobile switching center or a base transceiver station. If the cellular mobile radio network consists of a satellite-based mobile network SMN, such as the Iridium satellite network - see "Future-oriented satellite-based mobile communication", from telcom report 17 (1994) number 5, pages 180 to 183 - the IWF network is located in a mobile switching center. The radio connections run between the subscriber device MS and the network device IWF via one or more satellites. The satellite-based mobile radio network SMN is, for example, a packet-switched network in which the information is passed in sections from satellite to satellite and is temporarily stored until one transmission path in the further transmission direction becomes free.

To secure the information provided by the participant direction MS to the network facility IWF and from the network direction IWF to the subscriber facility MS over the air a security protocol is provided. According to the security protocol is an information security ver bond built up or reset, then the In formations in an information transfer phase via the or to transmit the radio channels in succession.

The user information and / or signaling information are transmitted in numbered transmission frames NFR during the information transmission phase by one of the two devices. In addition, selected control information can be sent in a numbered transmission frame SFR (supervisory frame), for example information for confirming the numbered transmission frames NFR as shown in FIG. 2. Each transmission frame NFR, SFR has at least one header field and one information field. The content of the header field shows, among other things, whether it is a non-numbered or a numbered transmission frame and whether user information / signaling information or control information is contained in the information field.

The transmission frame SFR, with which the from the network equipment device IWF or received from the subscriber facility MS numbered transmission frames can be confirmed depending on the NFR are currently being broadcast repeatedly. This increases the probability that the multiple confirmation emp  reached and not lost. In addition, it is from Advantage that unconfirmed numbered transmission frames NFR at any time from the network facility IMF or from the part subscriber device MS are sent out again without it Be before a request from the other institution may. Multiple arriving numbered transmission frames can be recognized by the receiving device. NFR is preferred for the numbered transmission frames one timer each to monitor the confirmation of each because the frame started. If the exceeds Timer a specified by a permitted period of time Border without confirmation is either the frame is sent repeatedly.

Fig. 2 shows the identical general frame structure for the numbered transmission frame SFR and the numbered transmission frame NFR. Each transmission frame has at least the header field HD (header) and the information field INF. If necessary, an additional head test field HCS and a frame test field FCS are added. In the header HD. B. contain control information to identify the frame type and egg nes transmission mode, while in the information field INF the user information such as voice and data or the signaling information or control information such as the confirmation characters are entered. The header test field HD or the frame test field FCS is used to check the information contained in the header field HD or in the entire transmission frame.

The information field INF of the transmission frame SFR consists of a first subfield OCT0, a second subfield OCT1 and a subfield BMAP, which in turn contains several subfields OCT3. . . Has OCTx. In the present example, the subfields include OCT0. . . OCTx eight bits each, which are combined to form an octet. A base number BANR is entered in the first subfield OCT0 of the information field INF, by means of which the first numbered transmission frame to be confirmed can be identified. The second subfield OCT1 contains length information LEN (n), by which the maximum number of transmission frames to be confirmed is determined. In the present example, a total of n frames can be selectively confirmed at the same time. Confirmation takes place through a confirmation mask BMAP, consisting, for example, of binary-coded confirmation characters MB0, MB1, MB2. . . MB7. . . MBn-3, Mbn-2 and Mbn-1 assigned to the successive numbered transmission frames to be confirmed. The first transmission frame receives the confirmation character MB0, while for the subsequent transmission frames the confirmation characters MB1. . . MBn-1 are reserved. In the present example there are consequently n binary confirmation characters, corresponding to the value of the length information LEN (n). The coding of the confirmation characters MB0. . . MBn-1 can be such that a binary 1 means confirmation of the arrival of the numbered transmission frame, while binary 0 indicates an unconfirmed numbered transmission frame to the receiver. For the selective simultaneous confirmation of several numbered transmission frames, the respectively assigned confirmation characters, e.g. B. MB0, MB1, MB7. . . MBn-2 set to binary 1 . The confirmation characters, e.g. B. MB2, MBn-3, which belong to the unconfirmed transmission frames, remain at the binary value 0. This means that the network device or the subscriber device at the set confirmation characters from the other device in the information field INF des incoming transmission frame SFR have been entered, can recognize which numbered transmission frames have already been confirmed.

Claims (7)

1. A method for transmitting information via a radio interface between a subscriber device (MS) and a network device (IWF) of a cellular mobile radio network (PLMN, SMN), in which, according to a layer model, an information transmission phase in a network layer in which the information in at least one numbered transmission frames (NFR) are sent out on the network side or on the subscriber side, and in an underlying connection security layer an information security phase in which the information in at least one transmission frame (SFR) is secured by a security protocol, runs separately from one another, characterized in that

• - That an information field (INF) of the transmission frame (SFR) in the information assurance phase for multiple confirmation of numbered transmission frames (NFR), which are received in the information transmission phase by the subscriber device (MS) or the network device (IWF), is used and thereby a basic number (BANR) for identifying a first numbered transmission frame (NFR) and confirmation characters (MB0, MB1... MB7.. MBn-1), the numbered transmission frame (NFR) following the first numbered transmission frame (NFR) and this transmission frame ) can be assigned, entered in the information field (INF),
• - To confirm the numbered transmission frames (NFR) that have arrived, the corresponding confirmation characters (MB0, MB1 ... MB7 ... MBn-1) are set in the information field (INF) and transmitted in the transmission frame (SFR) during the information security phase, and
• - That the transmission frame (SFR) with the confirmation characters (MB0, MB1 ... MB7 ... MBn-1) during the information assurance phase and / or as yet unconfirmed numbered transmission frame (NFR) each without request during the information transmission phase or can be sent repeatedly on the network side.

2. The method according to claim 1, characterized, that in addition to the basic number (BANR) and the confirmation marks (MB0, MB1.. MB7... MBn-1) information about the number of confirmation characters (MB0, MB1 ... MB7 ... MBn-1) or the numbered transmission frames to be confirmed in the information field (INF) of the transmission frame (SRF) in the information backup phase is entered. 3. The method according to any one of the preceding claims, characterized, that for each of the numbered transmission frames (NFR) Timer for monitoring the confirmation of the out sent transmission frame (NFR) in the information about wearing phase is started. 4. The method according to claim 3, characterized, that in the event that the timer a predetermined time it exceeds in the confirmation of the numbered Transmission frame (NFR) has not occurred, this transmission frame (NFR) from the subscriber facility (MS) or from the network device (IMF) is sent again. 5. Arrangement for the transmission of information via a radio interface between a subscriber device (MS) and a network device (IWF) of a cellular mobile radio network in accordance with a layer model with a switching layer for information transmission and an underlying connection security layer for information security, the subscriber device (MS) and the network device (IWF) each has means for sending out at least one numbered transmission frame (NFR) during the information transmission phase and means for sending out at least one transmission frame (SFR) during the information backup phase, characterized in that

• - That an information field (INF) of the transmission frame (SFR) is provided in the information securing phase for multiple confirmation of numbered transmission frames (NFR), which the subscriber device (MS) or the network device (IWF) receive, in which a base number (BANR) to identify a first numbered transmission frame and confirmation characters (MB0, MB1... MB7.. MBn-1), which are assigned to the first numbered transmission frame (NFR) and transmission frame (NFR) following this transmission frame,
• - That in order to confirm the numbered transmission frames (NFR) that have arrived, the respective associated confirmation characters (MB0, MB1 ... MB7 ... MBn-1) are set in the information field (INF) and by the subscriber-side or network-side means in the transmission frame (SFR) during the information assurance phase can be sent, and
• - That the transmission frame (SFR) with the confirmation characters (MB0, MB1 ... MB7 ... MBn-1) during the information assurance phase and / or as yet unconfirmed numbered transmission frame (NFR) without request during the information transmission phase of can be repeatedly sent out on the subscriber side or on the network side.

6. Subscriber device (MS) for sending or receiving information via a radio interface to or from a network device (IWF) of a cellular mobile radio network according to a layer model with a network layer for information transmission and an underlying connection assurance layer for information security, the subscriber device (MS ) Has means for transmitting and receiving at least one numbered transmission frame (NFR) during the information transmission phase and means for transmitting and receiving at least one transmission frame (SFR) during the information securing phase, characterized in that

• - That means are provided in the subscriber facility (MS) which, in an information field (INF) of the transmission frame (SFR) in the information backup phase for multiple confirmation of received numbered transmission frames (NFR), a base number (BANR) for identifying a first numbered transmission frame and Enter confirmation characters (MB0, MB1.. MB7.. MBn-1) which are assigned to the first numbered transmission frame (NFR) and transmission frame (NFR) following this transmission frame,
• - That the subscriber device (MS) has means that set the respectively assigned confirmation characters (MB0, MB1. .MB7... MBn-1) in the information field (INF) and in the transmission frame (SFR) to confirm the numbered transmission frames (NFR) that have arrived. send out during the information backup phase, and
• - That the subscriber device (MS) has means that the transmission frame (SFR) with the confirmation characters (MB0, MB1 ... MB7 ... MBn-1) during the information security phase and / or not yet confirmed numbered transmission frame (NFR) each without Send the request repeatedly during the information transfer phase.

7. Network device (IWF) for sending or receiving information via a radio interface to or from a subscriber device (MS) of a cellular mobile radio network according to a layer model with a network layer for information transmission and an underlying connection data link layer for information security, the network device (MS) has means for sending and receiving at least one numbered transmission frame (NFR) during the information transmission phase and means for sending and receiving at least one transmission frame (SFR) during the information securing phase, characterized in that

• - That means are provided in the network device (IWF) which, in an information field (INF) of the transmission frame (SFR) in the information assurance phase for multiple confirmation of received numbered transmission frames (NFR), a basic number (BANR) for identifying a first numbered transmission frame as well as confirmation characters (MB0, MB1.. MB7.. MBn-1) which are assigned to the first numbered transmission frame (NFR) and transmission frame (NFR) following this transmission frame,
• - That the network device (IWF) has means for the confirmation of incoming numbered transmission frames (NFR) to set the respectively assigned confirmation characters (MB0, MB1... MB7... MBn-1) in the information field (INF) and in the transmission frame ( SFR) during the information backup phase, and
• - That the network device (IWF) has means that the transmission frame (SFR) with the confirmation characters (MB0, MB1 ... MB7 ... MBn-1) during the information security phase and / or not yet confirmed numbered transmission frame (NFR) each without Send the request repeatedly during the information transfer phase.