DE19957288C1 - Channel structure signalling in radio communications system - Google Patents

Abstract

The method involves sending at least one signalling channel (BCH, FACH) by a base station (NB) of the radio communications system, having a channel-specific format of a radio block. The radio channel structure is derived by a receiving subscriber station (UE) using the format of the radio block. The same radio channel resource is preferably used by at least two signalling channels, according to a time-multiplex method. The respective radio blocks of the signalling channels are preferably distinguishable through an individual length of data.

Description

The invention relates to a method for signaling a Radio channel structure in a radio communication system, esp especially in a mobile radio system.

In radio communication systems, information such as voice, image information or other data is transmitted with the help of electromagnetic waves via a radio interface between a transmitting and a receiving radio station, such as a base station or a mobile station for the case of a mobile radio system . The electromagnetic waves are emitted at carrier frequencies that lie in the frequency band provided for the respective system. In the GSM mobile radio system (G lobal S ystem for M obile Communication) are frequencies of the carriers in the range of 900 MHz, 1800 MHz and 1900 MHz. For future mobile radio systems with CDMA and TD / CDMA transmission methods via the radio interface, such as the UMTS (Universal Mobile Telecommunication System) or other 3rd generation systems, carrier frequencies in the range of approximately 2000 MHz are provided. For the UMTS mobile radio system mentioned, a distinction is made between a so-called FDD mode (Frequency Division Duplex) and a TDD mode (Time Division Duplex). The TDD mode is characterized in particular by the fact that a common frequency band is used both for signal transmission in the upward direction (UL uplink) and in the downward direction (DL downlink), while the FDD mode uses a respective frequency band for the transmission directions .

In the GSM mobile radio system mentioned certain Signa channels in defined time slots from the Base stations or subscriber stations sent. To this Signaling channels also count, for example, the organi BCCH (Broadcast Control Channel), the channel with a compared to normal traffic channels higher transmission Stung is sent and information regarding the structure the mobile radio system or the respective radio cell of a Ba sisstation contains. This BCCH organizational channel is always in the first time slot of a time frame and on a be tuned carrier frequency within one in a radio cell available frequency band sent. Part subscriber station determines the first time the mobile is accessed radio system the location (frequency and time slot) of the BCCH organizational channel in the radio cell in which it is located is currently located and directs after receipt and evaluation the structure of the radio interface.

In the future third generation mobile radio system UMTS is expected to be multiple signaling channels use a common radio channel resource. In the TDD mode of the UMTS mobile radio system are, for example, the Organisa BCH (Beacon Channel) and FACH (Forward Access Channel) and possibly other signaling channels like the PCH (Paging Channel) a common radio channel res Use source according to a time division multiplex. These radio channel res For example, source is a specific spreading code in the first time slot of a time frame. On first access a subscriber station is due to the still unknown ten chronological order not knowing which signalis channel receives them currently, so that, if necessary incorrect synchronization or evaluation of the received Signaling channel and a very long synchronization time occurs. A solution to the problem would be, for example the introduction of a special channel that time multipliers  plex structure describes, or a unique marker of the respective signaling channels by, for example, this way called message header in the radio blocks of the channels. Both Solutions, however, have the disadvantage that they have limited radio tie up resources that are then no longer used for data transfer available.

DE 198 42 039 A1 describes a method in a radio comm communication system with a TDD transmission method knows, in which radio blocks over time slots will be used for the purpose of in-band signaling probably a data portion as well as a signaling portion contain.

DE 197 47 365 A1 discloses a method in which from a base station of a radio communication system in a first frequency range frequency channels for transmission of useful information for a first radio range, and in a second, not overlapping the first frequency range Frequency range at least one frequency channel for organizations information is provided.

The invention has for its object to provide a method give that a simple signaling of the radio channel structure enables. This task is accomplished by the procedure according to the Features of independent claim 1 solved. Next Formations of the invention are the dependent claims refer to.

According to the invention, at least one base station a signaling channel with a channel-specific format of a radio block, and of a receiving one Subscriber station based on the format of the radio block Derived radio channel structure.  

The method according to the invention advantageously enables that a subscriber station when first accessing a radio Communication system based on the format of the respective radio Blocks of the signaling channel clearly recognize this can without additional signaling using a separate channel or a special signaling field which must be done in the radio blocks. Advantageously different the format is also different from the format of a normal ver sweeping channel.

According to a first embodiment of the invention, use at least At least two signaling channels have the same radio channel source according to a time-division multiplex method. With this procedure ren, which is advantageous in the UMTS-Mobilfunksy described  can be used, the subscriber station can clearly identify the respective signaling channel, and thus a fast synchronization on the radio channel perform structure. A radio channel resource can a simple TDMA subscriber separation method Time slot within a frequency band or with one too additional separation according to a CDMA method one or ent multiple spreading codes within a TDMA time slot speak.

According to two alternative configurations of the invention the respective radio blocks of the signaling channels an individual length or order of data under divorced. The subscriber station uses according to another Design a known error detection mechanism, so can, for example, based on the length of the data in a sub within the radio block of the signaling channel carry out divorce. A data part that is too long or too short is rejected in such a mechanism. Only when the length of the data with that expected by the mechanism Length matches, an evaluation and forwarding takes place processing of data to higher protocol instances. same for for the individual order of the data. Only when the received data from the mechanism as correctly identified an evaluation is carried out. In general, formu lated that only if the received data with the Structure of the wanted signaling channel or - channels match, the recognizes Error detection mechanism this data as correct and evaluates them.

According to two further alternative configurations, this is respective format of the signaling channel in all radio cells len of the radio communication system selected the same or radio differentiated individually. Can be advantageous with one  same format the subscriber station in each radio cell Radio channel structure in a simple manner without special prior knowledge Determine nisse, meanwhile with a radio cell individual an implicit signaling and thus identi fication of the respective radio cell by the participant sta tion takes place, the subscriber station is therefore able transmitted in parallel, for example, in neighboring radio cells Distinguish signaling channels.

The method according to the invention is particularly advantageous in a radio communication system that uses a hybrid TD / CDMA Uses participant separation procedures.

The method according to the invention and the interaction with it the components of the radio communication system are now on hand explained in more detail by drawings. there demonstrate

Fig. 1 is a block diagram of a radio communication system, especially a mobile radio system,

Fig. 2 is an exemplary schematic representation of the Rah menstruktur the radio interface and the structure ei nes radio block,

Fig. 3 shows a sequence of multiple time frames of differing chen signaling channels, and

Fig. 4 radio blocks of signaling channels with under different data formats.

Fig. 1 shows part of a mobile radio system as an example for the structure of a radio communication system. A mobile radio system consists in each case of a multiplicity of mobile switching centers MSC (Mobile Switching Center), which belong to a switching network (switching subsystem) and are networked with one another or provide access to a fixed network PSTN, and each with one or more Mobile switching centers MSC connected base station systems BSS (Base Station Subsystem). A base station system BSS in turn has at least one device RNC (Radio Network Controller) for assigning radio resources and at least one base station NB (node B) connected to it.

A base station NB can connect via a radio interface Set up the user equipment stations and entertain. At least through each base station NB a radio cell Z is formed. The size of the radio cell Z is in usually by the reach of an organizational channel BCH, that of the base stations NB with a higher and constant transmission power is determined. At a Sectorization or hierarchical cell structures can For each base station NB, several radio cells Z are also supplied the.

The example in FIG. 1 shows a subscriber station UE which is located in the radio cell Z of a base station NB. The subscriber station UE has established a communication link to the base station NB, on which a signal transmission of a selected service takes place in the upward UL and downward direction DL. The communication link is separated by one or more spreading codes assigned to the subscriber station UE from communication connections set up in parallel in the radio cell Z, the subscriber station UE, for example, all spreading codes currently assigned in the radio cell Z for receiving the signals of the own communication link in accordance with the known joint detection method uses.

An exemplary frame structure of the radio interface, as is implemented in the TDD mode of the future UMTS mobile radio system and in a modified form in the future Chinese TD-SCDMA mobile radio system, can be seen from FIG. 2. According to a TDMA component, a division of a broadband frequency band, for example the band width B = 5 MHz, into a plurality of time slots ts, for example 16 time slots ts0 to ts15, is provided. Each time slot ts within the frequency band B forms a frequency channel. Within a broadband frequency band B, the successive time slots ts are structured according to a frame structure. In this way, 16 time slots ts0 to ts15 are combined to form a time frame for. Several subsequent time frames for result in a multiple frame.

When using a TDD transmission method, a Part of the time slots ts0 to ts15 in the upward direction UL and part of the time slots ts0 to ts15 in the downward direction DL used, the transmission in the upward direction UL at for example, before the transmission in the downward direction DL follows. In between is a changeover point SP (SP - Swit ching point), which according to the respective need for over support channels for the up and down direction flexible po can be sitioned. Through the variable assignment of the Time slots ts for upward or downward direction UL, DL can various asymmetrical resource allocations become.

Information of several connections is transmitted in radio blocks fb within the time slots ts. The data d are spread individually for each connection with a fine structure, a spread code c, so that on the receiving side a number of connections can be separated by this CDMA component (code division multiple access). A radio channel resource is defined from the combination of a frequency channel and a spread code c, which can be used for the transmission of signaling and useful information. The spreading of individual symbols of the data d causes T _sym Q chips of the duration T _chip to be transmitted within the symbol duration. The Q chips form the connection-specific spreading code c. In the radio blocks fb there is also a connection-specific training sequence tseq1. , , is arranged, which serves a reception-side channel estimate. Furthermore, a protection time gp is provided within the time slot ts to compensate for different signal propagation times of the connections of successive time slots ts. For the transmission in the downlink DL, certain signaling channels, such as the BCH and the FACH, use the same radio channel resource in each time frame, this always corresponding, for example, to the first spreading code in the first time slot ts0 of a time frame fr. In order to avoid simultaneous transmission of these channels in neighboring radio cells Z, this radio channel resource can, however, also "wander" within the time frame for, ie, for example, change the respectively assigned time slot ts in a specific time sequence.

In Fig. 3 is an exemplary sequence of multiple time frames fr1. , .fr4 to describe the use of a same radio channel resource by several signaling channels BCH, FACH, only the first time slot ts0 of a respective time frame fr1. , .fr4 is specified. The signaling channels BCH and FACH use the common radio channel resource in a time division multiplex, which is defined by the first time slot ts0 and the first spreading code c1.

A subscriber station UE, the first access to the Radio communication system, first looks for the Or ganisation channel BCH, since this is for a subsequent Ver sends out relevant information. It can also this channel due to its higher transmission power from the Subscriber station UE also very good near the radio cell boundaries  be received. The user station UE is per se in Knowing that the organization channel BCH with the first radio channel resource (as described above) of a time frame mens fr is sent, and now tries the organizational box nal to detect BCH. Since this is as shown, not how in the known GSM mobile radio system in all time frames for ge is sent, the subscriber station UE may have to successively several time frames for after the organizational channel Search BCH until it completely de tect and evaluated.

The organization channel BCH differs from, for example, the FACH by a different data length d, as is shown by way of example in FIG. 4. The organization channel BCH has a shorter data field than the FACH, 248 bits compared to 256 bits. The error detection mechanism in the subscriber station UE is aware of these lengths of the respective data fields d. If this mechanism detects a data field that is too long, for example if the FACH is received instead of the BCH, it discards the data field and tries to receive it again. This continues until the length of the data field received matches the length it was waiting for. Only then is the data field with the information hidden therein evaluated in higher protocol instances. If the length of the data fields is also varied from radio cell to radio cell, the subscriber station UE, knowing the respective length before being exposed, can differentiate the signaling channels BCH, FACH of the respective radio cells and this knowledge is advantageous for determining a suitable radio cell for one Use connection setup.

Claims (9)

1. Method for signaling a radio channel structure in a radio communication system, in which
at least one signaling channel (BCH, FACH) with a channel-specific format of a radio block (fb) is transmitted by a base station (NB) of the radio communication system, and
the radio channel structure is derived from a receiving subscriber station (UE) based on the format of the radio block (fb). 2. The method according to claim 1, wherein of at least two signaling channels (BCH, FACH) one same radio channel resource according to a time division multiplex method is being used. 3. The method according to claim 1 or 2, wherein the respective radio blocks (fb) of the signaling channels (BCH, FACH) by an individual length of data (d) un are distinguishable. 4. The method according to claim 1 or 2, in which the respective radio blocks (fb) of the signaling channels (BCH, FACH) through an individual order of the data (d) are distinguishable. 5. The method according to claim 3 or 4, in which the respective signaling from the subscriber station (UE) channel (BCH, FACH) using an error detection mechanism is detected.   6. The method according to any preceding claim, in which the format of the signaling channel (BCH, FACH) in all Radio cells (Z) of the radio communication system selected the same becomes. 7. The method according to any one of claims 1 to 5, in which the format of the signaling channel (BCH, FACH) funkzel selected individually, and a respective radio cell (Z) is identifiable based on the format. 8. The method according to any preceding claim, in which the radio communication system is a TDMA-based subscriber uses separation method, being a radio channel resource by at least one frequency band (B) and one time slot (ts) is defined. 9. The method according to any preceding claim, in which the radio communication system additionally a CDMA subscriber uses separation method, and the signaling channel (BCH, FACH) at least one spreading code (c) within one Time slot (ts0) of the time frame (fr) is assigned.