DE19822276A1 - Method and base station for signal transmission in an organizational channel of a radio communication system - Google Patents

Abstract

According to the invention, control channel information is transmitted from a base station to mobile stations at the same time as other information, according to a CDMA transmission method. Training sequences are embedded in said other information. The signal forms of the organisation channel information and the other information are matched to each other during the training sequences. The signal forms differ by a fixed factor or else the control channel replaces the training sequence. This method is particularly suitable for use in TD/CDMA transmission systems.

Description

The invention relates to a method and a base station for signal transmission in an organizational channel Radio communication system, especially in mobile radio systems with TD / CDMA subscriber separation.

In radio communication systems, information (at for example, language, image information or other data) Using electromagnetic waves over a radio cut place between transmitting and receiving radio station (Ba sis station or mobile station). The blasting of the Electromagnetic waves occur with carrier frequencies zen that in the Fre foreseen for the respective system quenzband lie. For future cellular networks with CDMA or TD / CDMA transmission method over the radio interface place, for example the UMTS (Universal Mobile Telecom munication system) or other 3rd generation systems Frequencies in the frequency band of approximately 2000 MHz are provided.

Signals are subject to spread when they spread medium due to noise or interference signals. By Diffractions and reflections pass through signal components different propagation paths and overlap in the emp catcher. A channel impulse response as an example of the illustration the channel properties describes such a multi-way channel. That from a mobile station for the signals in downwards Direction channel characteristics determined from training sequences are used for signal equalization and for tuning the data detection needed.

With GSM (global system for mobile communications) mobile radio system is fixed in the downward direction per base station Time slot for the transmission of information from an organi  sationskanals (BCCH) provided. In these time slots a radio block with only organizational information Posted. From DE 198 10 285 a method is known for a radio communication system the transmission of informa an organizational channel with further information, e.g. B. useful or signaling information to connect. However, it was not considered that the signals interfere with each other, so in particular the channel estimate the further information from the generally lei stronger signal of the also known as the pilot channel Organizational channel is difficult.

The invention is therefore based on the object, the Sig nal transmission with simultaneous transmission of informa an organizational channel and other information to improve. This task is accomplished through the procedure with the Features of claim 1 and the base station with the Features of claim 10 solved. Further training of the Invention can be found in the subclaims.

According to the invention from a base station to Mobilsta information of an organizational channel at the same time with further information after a CDMA transfer ver drive transfer. There are signal forms of the information the organization channel and other information coordinated at least temporarily.

Because the information of the organizational channel and the others Information is sent from the same base station voting is easy. A timing The measurement made at the transmitter remains after the Receive radio transmission at the receiver. With that you can adjust the mutual influences so that a channel estimate at the receiving end even with strong lei performance differences between the signal components can be. The information of the signal components is thus subsequently also evaluable separately.  

According to an advantageous development of the invention for the organization channel information is a waveform chosen during the transfer from to embedded training sequences whose waveform is adjusted. This results in a like the composite signal predictable at the receiving end form that take on the function of a training sequence can.

So it is advantageous that the signal forms only through distinguish a factor or the signal shapes by the same che chip sequences are formed. This is the reception Side channel estimation is hardly affected as the channel pulse answer possibly by a real multiplicative factor ver is falsified, but with a subsequent data estimate remains without consequences. A JD method is used for data estimation (joint detection) used, see DE 41 21 356 A1, then may be due to the near / far resistance of the process Factor can be easily compensated.

Alternatively, it is possible that the waveform of the informa used the organization channel as a training sequence will, d. H. part of this waveform otherwise replaces it for the further information sent training sequences. An organizational channel is particularly easy to evaluate if the information of the organizational channel with constant lei be sent. This will help you choose a base station for establishing a connection or a handover procedure (handover) between base stations facilitated.

The method according to the invention can advantageously in Radio communication systems can be integrated in addition a TDMA subscriber pair for the CDMA transmission method use. The organization channel is then advantageous only set up in some time slots. Especially in TDD transmission systems (time division duplex) none  continuous organizational channel can be provided. The coexistence of information from the organizational channel with further information is available on spectral efficiency in wide bandy frequency channels important.

The following description of several exemplary embodiments of the method according to the invention has only an example stick character. The features described are not mandatory in the manner shown to achieve the desired success required.

Show

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

Fig. 2 is a schematic representation of the frame structure of a TDD transmission method,

Fig. 3, 4 waveforms for information of the organizational channel and for further information,

Fig. 5 is a block diagram of a base station.

The radio communication system shown in Fig. 1 consists of a plurality of mobile switching centers MSC which are networked to one another or establish access to a fixed network PSTN. Furthermore, these mobile switching centers MSC are each connected to at least one device RNM for allocating radio resources. Each of these devices RNM in turn enables a connection to at least one base station BS. Such a base station BS can connect to other radio stations, e.g. B. Mobile stations MS or other mobile and stationary terminals. At least one radio cell is formed by each base station BS.

In Fig. 1 compounds V1, V2, Vk are exemplary transmission for over Ni user information and signaling Informa si functions between the mobile stations MS1, MS2, MSk and a base station BS and a control channel BCCH, of a point-connection to multi-point represented as shown, . An operation and maintenance center OMC implements control and maintenance functions for the mobile network or for parts of it. The functionality of this structure can be transferred to other radio communication systems in which the invention can be used, in particular for subscriber access networks with a wireless subscriber line.

The frame structure of the radio transmission is shown in FIG. 2. According to a TDMA component, a division of a broadband frequency range, for example the bandwidth B = 5 MHz, into a plurality of time slots ts of the same duration, for example 16 time slots ts0 to ts15, is provided. The frequency range B forms a frequency channel. Part of the time slots ts0 to ts9 is used in the downward direction DL and part of the time slots ts10 to ts15 is used in the upward direction UL. In between is a switch point SP. In this TDD transmission method, the frequency channel for the upward direction UL corresponds to the frequency channel for the downward direction DL.

An organization channel BCCH is in the first time slot ts0 set up. To evaluate the organizational channel BCCH a mobile station decides on a frequency band and detects those received in the corresponding time slot ts Signals from the associated base station. It will therefore stand dig between monitoring the BCCH organizational channel the own base station BS with which the mobile station momen maintains a radio connection, and the Organisa tion channels BCCH of adjacent base stations BS switched.

Information is also within the time slot ts0 multiple connections. This further information tions consist of sections with data d, in which emp known training sequences tseq1 to tseqn are bedded. The data d are connection-specific with  a fine structure, a subscriber code c, spread, so that at the receiving end, for example, n connections through these CDMA components are separable.

The spreading of individual symbols of the data d has the effect that within the symbol duration T _sym Q chips of the duration T _chip are transmitted, which result in a specific signal form. The Q chips form the connection-specific subscriber code c. Furthermore, a protection time gp is provided within the time slot ts to compensate for different signal propagation times of the connections.

Within a broadband frequency range B the successive time slots ts according to a frame structure structure. 16 time slots ts thus become one frame summarized for fr.

The parameters of the radio interface used are advantageously:
Chip rate: 4096 Mcps
Frame duration: 10 ms
Number of time slots: 16
Time slot duration: 625 µs
Spread factor: 16
Modulation type: QPSK
Bandwidth: 5 MHz.

Such a TDD transmission method is with a station wagon nation of time division multiplex and code multiplex for the UMTS radio transmission provided. These parameters allow one best possible harmonization with an FDD (freguency division duplex) Mode for the 3rd generation of mobile communications.

Fig. 3 shows a time slot ts, in the infor mation simultaneously oi the organization channel BCCH and other Informa tion ni, for example, the payload of multiple Ver bonds, to be transferred. A training sequence tseq is embedded in the useful information ni.

An enlarged section shows the signal forms s1, s2 this information oi, si, for the duration of the workouts sequence tseq are coordinated. The chip sequences that form the signal form s1, s2, differ only by a factor. The transmission power of the information oi des Organizational channel BCCH is constant, i. H. the factor gives yourself by adjusting the amplitude of the two individually th waveform s2. The signal forms overlaid on the transmission side s1, s2 lead to a sum signal ss, which for the duration of the Training sequences tseq is predictable and therefore channel estimate can serve. This is for the useful signal components Sum signal ss not predictable, because the ones to be transmitted Information oi, ni of the organizational channel or the user Information and thus also the two signal forms s1, s2 are not coordinated.

An alternative variant is shown in FIG. 4. For the duration of the training sequence tseq, only the signal form s1 of the organizational channel BCCH is sent, which means that it can be used alone as the training sequence tseq. The sum signal ss corresponds to the first signal form s1 of the organization channel BCCH for the duration of the training sequence tseg. Outside the training sequence tseq, the two signal forms s1 and s2 are superimposed.

For the ratio of the transmission powers of the signal components are the following settings: the dynamic range of the Signal portion of the further information ni is in the downward direction direction 30 dB and the transmission power of the signal portion of the Organizational information oi is 16 dB smaller than that maximum transmission power of further information ni. Consequently arises in the event that the minimum transmission power for the further information ni is chosen, a by 14 dB lei  more powerful signal portion of the organizational information oi.

By tuning the signal forms s1, s2 according to the invention can guarantee even with such an unfavorable constellation that the channel estimation can be carried out. For the channel estimation becomes a Steiner channel estimator, see DE 197 34 936 used. For a data estimate, the one channel impulse response determined by the channel estimation a joint detection method (JD) used. This JD detection known from DE 41 21 356 A1 The procedure is based on the resis compensation calculation tent against larger differences in performance between the Signal components.

The structure of base station BS and mobile station MS is shown in a very simplified manner in FIG. 5. Only the components directly involved in carrying out the method according to the invention are mentioned.

The compilation of radio blocks with signal parts of the information oi of the organization channel BCCH and the further information ni, si is carried out in a base station BS according to FIG. 5. This consists of a transmission / reception device TRX, which converts transmission signals to be radiated digital / analog, converts them from the baseband into the frequency range of the radiation and modulates, amplifies and transmits the transmission signals via an antenna device AE. A device SA for radio block formation has previously compiled the transmission signals in radio blocks and assigned them to the corresponding frequency band and time slot. A signal processing device DSP evaluates signals received via the transceiver TRX. The transmission power control of the signal components is carried out by means of a control device SE, the associated data being stored in a memory device MEM.

After the radio transmission, the radio blocks are in one mo bilstation MS received. The mobile station MS contains one Transceiver TRX, in which the received signals reinforced, converted to baseband and analog / digital gain be delt. A signal processing device with DSP a channel estimator KS then carries the channel and data estimate by.

Claims (10)

1. Method for signal transmission in an organizational channel (BCCH) of a radio communication system, in which from a base station (BS) to mobile stations (MS) information (oi) of the organizational channel (BCCH) simultaneously with further information (ni, si) a CDMA transmission method are transmitted, characterized in that signal forms (s1, s2) of the information (oi) of the organization channel (BCCH) and the further information (ni, si) are at least temporarily coordinated with one another. 2. The method according to claim 1, characterized in that that for the information (oi) of the organizational channel (BCCH) a waveform (s1) is selected that during the duration of the Transfer of additional information (ni, si) embedded training sequences (tseq) based on their signal form (s2) is adjusted. 3. The method according to any one of the preceding claims, characterized characterized in that the waveforms (s1, s2) only distinguish by a factor. 4. The method according to claim 3, characterized in that the waveforms (s1, s2) ge by the same chip sequences be formed. 5. The method according to any one of the preceding claims, characterized characterized in that the waveform (s1) of the information (oi) the organizational channel (BCCH) as a training sequence (tseg) is used. 6. The method according to any one of the preceding claims, characterized characterized that the performance of the training sequences (tseq) of the further information (ni, si) set to zero  so that a channel estimate is excluded at the receiving end Lich based on the information (oi) of the organizational channel (BCCH) is done. 7. The method according to any one of the preceding claims, characterized characterized that the information (oi) of the Organisa tion channel (BCCH) with constant power. 8. The method according to any one of the preceding claims, characterized characterized in that in addition to CDMA transmission procedure a TDMA subscriber separation is carried out. 9. The method according to any one of the preceding claims, characterized characterized in that a common channel on the receiving end Estimate for the training sequences (TSEG) and the over stored information (oi) of the organizational channel (BCCH) is carried out. 10. base station (BS) for signal transmission in an organization channel (BCCH) of a radio communication system,

• - With a device (SA) for radio block formation, through which information (oi) of the organization channel (BCCH) is compiled with further information (ni, si) in a common radio block,
• with a transmitting device (TRX) for transmitting the radio block via a radio interface to mobile stations (MS) according to a CDMA transmission method,

characterized in that the device (SA) for radio block formation is formed such that signal forms (s1, s2) of the information (oi) of the organization channel (BCCH) and the further information (ni, si) are at least temporarily coordinated.