DE19912198C1 - Data transmission over radio interface of intelligent radio communications system - Google Patents

Abstract

The method involves organising the radio interface within each frequency band in several time slots which form respectively a frame according to a TDMA method. A variable part of these time slots is respectively usable in downlink and uplink direction between subscriber stations and a base station, according to a time-duplex transmission method. The subscriber stations are notified by the base station about currently available time slots, whereby the information may be limited to time slots currently available for the downlink direction and/or the uplink direction.

Description

The invention relates to a method and a device for Transmission of information via a radio interface in within an intelligent radio communication system, ins particular of a cellular mobile radio system, the radio interface within each frequency band after a time Layer division multiplexing (TDMA) into several, each one Frame-forming time slots is organized and according to a Time division duplex transmission (TDD) a variable part this time slots for the uplink and a variable Part of these time slots can be used for the downlink is.

For future universal mobile telecommunication systems 3rd generation such as the UTMS system (Univer sal Mobile Telecommunication System) Representation of the technical background of the invention should be used without restricting the generality of their use There are two modes for bidirectional information transfer transmission between two radio stations for use, ie for example between a subscriber station of a network and a parent base station. For one, can different frequency subbands for the downlink (from a base station to a subscriber station) and upwards route (from a subscriber station to a base station) be used within an assigned frequency band, whereby a simultaneous transmission of information in both Directions without mutual interference is guaranteed. Man refers to this as frequency division duplex (FDD). On the other hand one send and receive one after the other in time, whereby for the Downlink and uplink different times slots of the same frequency band can be used. Man refers to this as time division duplex (TDD). Time duplex is strict  taken a half duplex method, transmitter and receiver ar don't absolutely switch the switch between However, sending and receiving is so quick and frequent, that the participants do not notice anything. One speaks therefore of a quasi-simultaneous transmission of information.

For a future broadband information transfer is it is provided in the UMTS system, both procedures with one code to combine multiplexing (CDMA). The Individual signals with different code sequences provided that allow a clear assignment of the signals chen. During this process, the spread of the On occurs cell signals on, resulting in a multiplication of the frequency band wide with the possibility of multiple use leads.

Accordingly, a transmission takes place in the FDD mode of the UMTS system channel through the degrees of freedom frequency and spreading code cha characterized and in the TDD mode of the UMTS system by the Degrees of freedom frequency, time slot and spreading code. Man therefore speaks of one in the latter method TD / CDMA system. In the following only the TDD mode of the UMTS system received. Such radio communication system systems using a TDD transmission method for example from DE 198 17 771 A1 and DE 198 20 736 C1 known.

After a base station, the following as an example for a higher-level station is to serve, a connection request has been notified by a subscriber station, the Subscriber station a suitable transmission channel in one Time division frames for both the uplink and be made available for the downlink.

The aim is for the TDD mode of the UMTS system towards time slot custering, according to which certain time slots are reserved for a specific base station. Different pressed, several base stations share the time slots  a time slot frame (depending on traffic) for one or multiple frequencies, causing mutual interference and interference between neighboring radio cells or Sectors from different base stations of the radio Communication system are supplied, will be reduced. It there is also the possibility if the malfunctions are not too are large, certain time slots at two base stations dop pelt to forgive.

Time slot clustering is mainly done in a macro Introducing enviroments, for example in suburbs or rural areas that are divided into several large cells is. Furthermore, one pursues the goal, the part, in the UMTS system to empower stations that they consider appropriate Most useful time slot, for example with regard to its over wearing quality, to choose yourself.

In a DECT system (DECT = Digital Enhanced Cordless Tele communication) there is system information that indicates which time slots are not or are not available at the base station concerned. This is a so-called blind slot information about "blind" time slots, described in the DECT specification for the Medium Access Control Layer (MAC), ETS 300-175-3, chapter 7.2.4.3.3., Page 78 (see Fig. 3). The blind slot information here relates to a time slot pair, that is to say simultaneously to the downward time slot and the upward time slot. There are 24 time slots in the DECT system, the first 12 time slots (full slots) for the downlink and the next 12 time slots (full slots) for the uplink. If a corresponding bit is set in the blind slot information, this affects both the down time slot and the up time slot shifted by 5 ms because the DECT system operates with a fixed switchover point between down time slot and up time slot . This blind slot information is fixed once and for all in the DECT base stations or is also broadcast dynamically and sent in the paging channel. In the case of the DECT base stations from Siemens on the market, for example, every second time slot is blocked for the purpose of using a very inexpensive HF component. Out of 24 channels, only 12 channels are available. The DECT base stations of the DECT system HICOM 300 E Cordless, on the other hand, have all 24 time slots available.

For a system like TD / CDMA with a variable switchover point between the downlink and the uplink or with several switchover points for an even better utilization of the scarce frequency band resources is the problem of one constant, effort-reduced search for an example optimal time slot in terms of transmission quality not solved satisfactorily.

The invention is therefore based on the object of a method and to specify a facility that enables the off choice from the point of view of a subscriber station with regard to the transmission quality suitable or most suitable time slit more efficiently than intended.

This task is carried out with regard to the procedure by the Claim 1 specified features and with regard to the A direction by the features specified in claim 19 solved. Advantageous developments of the invention are Subject of the subclaims.

According to the invention, a subscriber station of a Base station (or another parent station of one Network) in the form of blind slot information shares which time slots on which frequencies in one Radio sector, a radio cell or in neighboring radio cells are currently available. This will make choosing one suitable time slot by the subscriber station accelerates because the subscriber station only those Time slots must also be examined by the base station get supported. In addition, energy consumption drops in the subscriber stations, which means that they network longer can be operated independently.  

An additional advantage can be seen in the fact that this the signaling between the stations is significantly reduced can be in such a way that the subscriber station selected a time slot, for example a change to perform another time slot (handover). The Subscriber station notifies the base station of this request and this has to reject this wish, for example, because the The time slot in question is blocked from the perspective of the base station is what the subscriber station of the base station answers whose time slot request communicates. The information or desires can vary from frequency band to frequency band his.

According to an embodiment of the invention, the parent neten station all currently unavailable time slots "blind" set, that is, blocked.

In a further embodiment of the invention it is proposed that an information element blind slot for each usable Fre quenzband is broadcast and on all time slots egg nes timeslot frame relates for the downlink ke and / or the uplink of the radio interface.

In a further development of the invention, this becomes information element blind slot in a "System Information Message" broadcast, indicating which time slots for which fre sequences can be occupied. It relates individually on all time slots for the downlink and / or the Upward stretch.

According to a further specification, the transfer of the Blind slot information and the allocation of the time slots on the downward and / or upward route in a common Menus information element blind slot.

In a development of the invention, the blind slot informa tion either broadcast periodically or only on request  transmission of a subscriber station. For example be sent on a dedicated control channel.

To support dynamic channel management, fer ner suggested that the subscriber stations from one parent station, which is also communicated Time slots in neighboring radio cells are available. For this purpose, the base stations can use their central control unit (BSC) exchange information and on pass on their subscriber stations.

A change in the content of blind slot information can advantageously dynamically according to Ver traffic and / or other preferences. For Reduction of the data volume is possible by means of egg ner special information only the changes in content the blind slot information referring to previous ones Blind slot information or the content of a new blind slot information only when the same changes transfer.

The invention is intended to be explained in more detail using an exemplary embodiment are explained. In the accompanying drawing shows

Fig. 1 is a general view of a radio interface in a radio communication system,

Fig. 2 is a schematic representation of the frame structure ei ner TDD radio interface,

Fig. 3 shows the already described blind slot information in a DECT system,

Fig. 4 shows an example of an information element blind slot for a TD / CDMA system and

Fig. 5 shows an information element about free time slots, se parried for the downlink and uplink in a TD / CDMA system.

Fig. 6 indicates an information element that both Blindschlitz- information and the assignment of the dummy slots for downlink or uplink.

1, a subscriber station MS and a higher-level base station BS, which is to be used as an example for a station of a radio cell, a sector of a radio cell or a network itself, as an example of a radio communication system which uses the UMTS mobile radio network . via a radio interface in TDD mode for the downlink DL and the uplink UL. The base station BS can set up a connection to another subscriber station MS, for example a mobile station or another mobile or stationary terminal, via a further radio interface (not shown).

The frame structure of a TDD radio transmission can be seen from FIG . Within each broadband frequency range, for example the bandwidth B1, B2 = 5 MHz, a division into several time slots ts of the same duration, for example 16 time slots 1 to 16 per TDMA frame fr, takes place according to a TDMA component (time division multiplex access). Several time slots ts are allocated to each base station BS. Some of these time slots ts are used for the downlink DL and some of these time slots ts are used for the uplink UL. In between there is a variable switchover point SP.

With this TDD transmission method, this corresponds to the frequency band B1 for the downlink DL the frequency band B1 for the UL upward link. The same is repeated in further fre quenzbänder B2 etc. by variable allocation of time slots ts for the downlink and uplink DL, UL can  various asymmetrical resource allocations men.

To make an efficient selection from the perspective of a participant merstation MS suitable with regard to the transmission quality the most time slot ts, the participant states tion MS notified by the base station BS which Time slots ts on which frequencies are currently available are at your free disposal. This will make the selection of a ge suitable time slot ts with regard to transmission quality significantly accelerated because the subscriber stations MS only still have to measure those time slots ts which of the base station BS is actually currently supported or are currently available. Another advantage is that there is less signaling between the base station BS and a subscriber station MS is required, for example when a subscriber station MS a time slot ts for establishing a connection or for the purpose selected for a handover request.

The information about freely available time slots ts can be broadcast as blind slot information in a system information message via the broadcast control channel (BCCH) from the base station BS, which indicates which time slots ts can be occupied for which frequencies. In Fig. 4 egg ne such blind slot information for a certain frequency and a certain radio cell is shown as an example.

With an additional information element of FIG. 5 the subscriber stations MS can be informed as to which time slots TS for the downlink DL, and which are available for the UL on Windwärts distance within the frequency band available.

The information elements about the available time slots according to FIG. 4 and about their use in the uplink UL and downlink DL according to FIG. 5 can be transmitted in a compressed manner in accordance with FIG. 6 in an information element. There is also the possibility that the subscriber stations MS request the information elements via a control channel (CCH) or dedicated control channel (DCCH) and receive this information on a common control channel (CCCH) or dedicated control channel (DCCH).

In an extension of the inventive concept can be in an informa tion element on which frequency bands which time slots ts are available in a radio cell, which can accelerate a handover, for example.

You can also specify which information in an information element Time slots ts are available in the neighboring cells hen. This also means blind slot information about be neighboring radio cells, which is a dynamic assignment of over Carrying capacities of the radio cells with each other for the purpose of increasing support of participant capacity.

Time slot information can be sent out regularly in the BCCH or at the request of a subscriber station MS follow by the mobile stations via an assigned De Control Channel (DCCH) dicates the blind slot information requests, which reduces the signaling effort that can. In addition, battery energy can benefit a country saved in standby mode or a longer talk time become.

A change in the time slot information regarding blind slot availability and availability in the downward or Uplink DL or UL can be dynamic according to the Traffic and interference in the corresponding Radio cells are carried out, creating an intelligent Distribution of the limiters available to the radio network spectral resources is supported. Because in particular their small cellular radio networks through a strongly inhomogeneous  Marking load distribution can be interpreted in this way support the increase in participant capacities and improve the quality of connections.

Changing the time slot information can be a basis Run station BS independently. About changes made information is provided by an information element or a message a higher-level instance in the network, For example, a base station controller (BSC) that this Information, for example, based on a specially put list forwarded to other base stations BS so they can update their blind slot information.

Furthermore, the measurement of the traffic volume for the purpose of discharging a base station BS and for reasons of larger Overview of traffic in the network as well as opp if necessary, the detection of further influences in a superordinate ordered instance of the network and based on the Measured values a time slot information currently configured become.

Claims (33)

1. A method for transmitting information via a radio interface within a radio communication system, in particular a cellular mobile radio system, the radio interface being organized in each frequency band according to a time slot multiplex method (TDMA) into a plurality of time slots, each forming a frame, and according to a time duplex Transmission method (TDD) a variable part of these time slots for the uplink between subscriber stations and a higher-level station and a variable part of these time slots for the downlink can be used, characterized in that the subscriber stations (MS) from the higher-level station (BS) over currently available time slots (ts) are informed. 2. The method according to claim 1, characterized, that the information is based on the indication of the time available slots (ts) for the downlink (DL) and / or for the Upward link (UL) limited. 3. The method according to claim 1, characterized, that from the higher-level station (BS) not all at the moment available time slots (ts) can be set "blind". 4. The method according to claim 3, characterized, that the parent station (BS) a blind slot information mation to the subscriber stations (MS). 5. The method according to claim 1, characterized,  that the information indicates which time slot ze (ts) of the downlink (DL) and / or which of the uplink distance (UL) are assigned. 6. The method according to claim 1 or claims 4 and 5, characterized, that the information indicates which time slot ze (ts) are available and how these the downlink (DL) and / or uplink (UL) are assigned. 7. The method according to claim 3 or 6, characterized, that the blind slot information from the parent Sta tion (BS) in a system information (System Information Mes say) is transmitted. 8. The method according to claim 3 or 6, characterized, that the blind slot information from the parent Sta tion (BS) on a Dedicated Control Channel (DCCH) will. 9. The method according to any one of claims 5, 7 or 8, characterized, that the blind slot information periodically from the transposed parent station (BS) on the subscriber stations (MS) will wear. 10. The method according to any one of claims 5, 7 or 8, characterized, that the blind slot information at the request of a part subscriber station (MS) is transmitted. 11. The method according to any one of the preceding claims, characterized,  that use blind slot information for everyone in the network bare frequency band (B1, divided into time slots (ts), B2) is transmitted. 12. The method according to any one of the preceding claims, characterized, that the subscriber stations (MS) from the parent Sta tion (BS) is communicated which time slots (ts) in be neighboring radio cells are available. 13. The method according to any one of the preceding claims, characterized, that a change in the content of a blind slot information dynamic according to traffic volume and / or distance preferences. 14. The method according to claim 13, characterized, that the transmission of the blind slot information at a The content of the same is changed. 15. The method according to claim 13, characterized, that the changes in the content of a blind slot informa tion referring to one of the previous blind slot Information is transmitted. 16. The method according to any one of the preceding claims, characterized, that base stations (BS) are mutually blind slot Exchange information. 17. The method according to claim 16, characterized, that the exchange of the blind slot information about a central control unit (BSC) for the base stations (BS) follows.   18. The method according to claim 16 or 17, characterized, that the selection of base stations (BS) for the exchange of Blind slot information is done using a list. 19. Device for transmitting information about a Radio interface within a radio communication system, in particular a cellular mobile radio system, the Radio interface within each frequency band after one Time division multiplexing (TDMA) into several, each one Frame-forming time slots is organized and according to a Time division duplex transmission (TDD) a variable part of these time slots for the uplink between participants merstations and a superordinate station and a variab Part of these time slots can be used for the downlink is managed at the signaling level of the system become, characterized, that in the higher-level station (BS) an information sele is available, that all currently available time slots (ts) as control information to the subordinate participants stations (MS) transmits. 20. Device according to claim 19, characterized, that the transmission of the control information as broadcast in formation in the broadcast control channel (BCCH) and / or a Dedicated Control Channel (DCCH) takes place. 21. Device according to claim 19, characterized, that from the higher-level station (BS) not all at the moment available time slots (ts) can be set "blind". 22. Device according to claim 19, characterized,  that the control information the available time slots (ts) for the downlink (DL) and / or for the uplink (UL) contains. 23. Device according to claim 21, characterized, that the parent station (BS) is an information element Blind slot transmits to the subscriber stations (MS). 24. Device according to one of claims 19, 22 or 23, characterized, that the tax information indicates the availability of the Time slots (ts) and the assignment of these to the downward route (DL) and / or uplink (UL) contains. 25. Device according to claim 21 or 24, characterized, that the information element blind slot from the parent th station (BS) within a system information (system Information Message) is transmitted. 26. Device according to one of claims 22, 24 or 25, characterized, that the information element blind slot periodically from the higher-level station (BS) on the subscriber stations (MS) is transmitted. 27. Device according to one of claims 22, 24 or 25, characterized, that the information element blind slot on request ner subscriber station (MS) is transmitted. 28. Device according to one of claims 19 to 27, characterized, that the information element blind slot for everyone in the network Fre usable and divided into time slots (ts) quenzband (B1, B2) is created.   29. Device according to one of claims 19 to 28, characterized, that the signaling device also the available time slots (ts) of neighboring radio cells. 30. Device according to one of claims 19 to 29, characterized, that the information element corresponds to blind slot dynamically depending on traffic and / or other preferences is updated. 31. Device according to claim 30, characterized, that an information element changes the blind slot Information referring to one of the previous blinds contains slot information. 32. Device according to claims 19 to 31, characterized, that the blind slot information in the subscriber station (MS) for the duration of the validity of the blind slot information mation is saved. 33. Device according to claims 19 to 31, characterized, that a new blind slot information only when the the same is read into the memory of the subscriber station (MS) becomes.