DE19616828A1 - Received mixed signal separation method esp. for mobile telephone system using different or common channels for different subscriber signals - Google Patents

Abstract

The method involves selecting a subset of subscriber signals using a criterion during a first step. Joint detection (JD) of these selected signals is performed during a second step and the non-selected signals are treated as noise. During a third step the influence of the selected signals is eliminated by interference cancellation involving subtraction from the signal mixture. Finally the steps are repeated for the as yet non-selected signals. The process is repeated until all subscriber signals of subscribers of interest are detected.

Description

The invention relates to a method for separation a received signal mixture according to the preamble of Claim 1.

A separation of a signal mixture is, for example required on the receiving side of the uplink (uplink) or the downlink (downlink) from Mobilfunksy systems where a large number of mobile stations with one stationary base station can communicate.

It can be assumed that the K subscriber stations in egg com mobile system simultaneously with the base station want to communicate. It must therefore be ensured that in the uplink that of the individual subscriber stations coming transmission signals in the receiver of the base station sepa can be riert or in the downlink for one of the K subscriber stations determined by the base station incoming signal in the relevant subscriber station from the signals intended for other subscriber stations separately can be. Such separation is by using of multiple access methods enabled. One differentiates the more classic multiple access methods frequency multi plex (Frequency Division Multiple Access, FDMA) and time mul tiplex (Time Division Multiple Access, TDMA) and the modern Multiple access method code division multiplex (Code Division Multi ple Access, CDMA). These three methods can also be used in combination nation can be applied. The multiple access procedure CDMA is based on the principles of band spreading technology. In CDMA-Sy systems differ the K subscriber signals, each because of a data sequence with data strings lined up bolen exist, by the contained in the data symbols CDMA spreading codes, which are also called signatures. The The following considerations primarily concern systems where CDMA is used. However, the is applicable  speed of the method according to the invention not on CDMA systems limited.

The separation of a signal mixture used in CDMA systems data protection corresponds, can be done in a known manner thanks to signal-matched filtering (MF, Matched Filtering) accomplish, each on the CDMA spreading code of the Participant is adjusted. This signal-adapted filtering performing receiver can be, for example, as a Bank of correlators or as a bank of RAKE receivers realize, cf. e.g. B. the book by Proakis, J. G .: "Digital Communications ", New York, McGraw-Hill, 1989.

Another known possibility of separating a signal mixture is the so-called interference elimination (IC, interference cancellation), which, for. B. in German patent application 195 09 867.6, in Ewerbring, M .; Gudmundson, B .; Larrson, G .; Teder, P .: "CDMA with interference cancellation: A technique for high capacity wireless systems", Proc. Int. Conf. Commun., Geneva, 1993, pages 1901 to 1906 and in Dent, P .; Gudmundson, B .; Ewerbring, M .: "CDMA-IC: A novel code di vision multiple access scheme based on interfence cancella tion", Proc. Symp. Personal, Indoor and Mobile Radio Commun., Boston, 1992, pages 98-102
In addition, a separation of a signal mixture can be carried out in a known manner with the aid of a so-called joint detection (JD, Joint Detection), which is described for example in DE 41 21 356 C2 and DE 43 29 320 A1.

The signal-adapted filtering results in egg separation very poor performance, e.g. B. in the form of bit error probabilities, at Mehrwe channels and for non-orthogonal CDMA codes.

Achieved when using interference elimination (IC) on the other hand you have a relatively good performance, the  however, is even worse than with the joint detection (JD). Problems arise in particular with subscriber signals len with almost the same reception power, with the exception of the in the German patent application 195 09 867.6 described Ver driving.

With the joint detection (JD) is with the separation tion of a signal mixture on the receiving side is a very achieved good performance. However, this is in Nachtei liger manner with a strongly disproportionate increase in required computing power with increasing number of participants connected.

The invention has for its object at the reception side separation of a signal mixture an improvement performance over matched filters education and also towards the elimination of interference len and a similarly good performance as with To accomplish a common detection. Here however, the computational effort should be compared to the common one Detection can be reduced.

According to the invention, this object is in a genus procedures by the in the characterizing part of the patent Claim 1 specified features solved. The procedure after the invention brings particular advantages for example the case that there is a number K 1 of subscriber signals, whose reception services are approximately the same (in the order of magnitude tion of P₁) and a further number K₂ of subscriber signa len, whose reception services are also approximately the same (in the Order of magnitude of P₂), but are much less than P₁. In such a case, performance is not just that the signal-adapted filtering, but also all with inter ference elimination (IC) procedures except des described in the German patent application 195 09 867.6 NEN procedure relatively bad.  

Appropriate training and execution options are specified in the subclaims. In particular contain egg some of the subclaims selection criteria for selecting one Subset of K₁ subscriber signals from a total the K active subscriber signals.

The invention is based on one in one Figure shown embodiment for a total of two common detection runs explained.

The figure shows in block diagram form a receiving end Device for performing the method according to the invention for separating a received signal mixturee. The Z. B. Mixed signal coming via different transmission channelse  arrives at an off together with a noise signal electoral level1 with subsequent joint detection. In the this selection level1 is first out in a first step K different subscriber signals one from a subset existing number K₁, 1K₁K, of subscriber signals according to egg selected selection criterion. In a second step a joint detection (JD) of these is selected there K₁ subscriber signals made. The unselected (K-K₁) subscriber signals are treated like noise. In the illustrated embodiment, the selection level 1 the data sequencesd ⁽¹⁾,d ⁽²⁾ . . .d ^(K1) according to a selection criterion selected and by means of a common detection JD have been evaluated so that the estimated data sequences ⁽¹⁾, ⁽²⁾ . . . ^(K1) after detection. The data ^k  are data estimates of the data symbol sequence of the kth participant mersignals. Within a facility2nd to the interference Mining is done in one facility3rd a reconstruction signale'Created by which the influence of K₁ detek tied subscriber signals by subtraction in an adder element4th from the received signal mixturee is eliminated. The Output signal of the adder4th, which is also the exit signal of establishment2nd to eliminate interference, becomes an establishment5 for joint detection JD for the  remaining (K-K₁) subscriber signals supplied. At the exit of the Facility5 then stand for the joint detection estimated data sequences ^{(K1 + 1)}, ^{(K1 + 2)} . . . ^(K) on.

The subtraction taking place within the device 2 for interference elimination in the adder 4 of the influence of the participant signals detected jointly during the first pass from the incoming received signal mixture e can also be carried out at the outputs of matched filters who in the device 1 for joint detection of the selected K 1 Subscriber signals are included.

Claims (22)

1. A method for separating a received signal mixture for use in the receivers of a multi-subscriber signal transmission system in which the transmission of the K different subscriber signals, all or some of which are temporally and / or spectrally not disjoint, via different transmission channels or via one and The same transmission channel takes place, characterized in that in a first step from the K different subscriber signals a number consisting of a subset K₁, 1K₁K, subscriber signals is selected according to a selection criterion that in a second step a common detection (JD, Joint Detection ) this selected K₁ participant signals is made and the non-selected (K-K₁) participant signals are treated like noise, that in a third step the influence of the K₁ detected participant signals is eliminated by a method for interference (IC, interference cancellation ation) is eliminated by subtraction from the received signal mixture, that the three specified steps for the not yet detected subscriber signals are then run through again, where at K the number of undetected subscriber signals means and K 1 assume a new value in the renewed run can, and that a total of so many runs are carried out until the subscriber signals of all interested subscribers are detected. 2. The method according to claim 1, characterized, that any, the type of the respective subscriber signals adapted method for joint detection (JD, Joint De tection) is used. 3. The method according to claim 1, characterized,  that any, the type of the respective subscriber signals adapted procedure for interference elimination (IC, Inter ference cancellation) is used. 4. The method according to any one of the preceding claims, characterized, that the received mixture of signals is transmitted simultaneously synchronous or asynchronous, from digital data symbols composite data sequences that exist on the transfer be distorted, each of the data symbols of the Data sequences before the transmission of the respective data sequence assigned spreading code is modulated, and that in the receiver quantized or unquantized data estimates of the Da tens symbol sequence of the k-th (k = 1... K₁) participant by common same detection of each according to the selection criterion selected or the one remaining at the end of all runs Subscriber signals are formed. 5. The method according to claim 4, characterized, that within the scope of interference elimination (IC, Interfe rence cancellation) subtraction of the influence of the participants detected jointly during a run signals from the signal signal existing before the respective run mixed at the outputs of matched filters is carried out in a facility for joint detec tion are available. 6. The method according to claim 1, characterized, that the receiving energy / power of the Subscriber signals is used, d. H. there will be Participant signals selected, their receiving energy / power exceeds a certain threshold. 7. The method according to claim 6, characterized,  that the threshold is redefined for each run. 8. The method according to claim 1, characterized, that the signal / interference ratio of the part as a selection criterion subscriber signals is used, d. H. it becomes such part selected subscriber signals whose signal-to-interference ratio is one exceeds certain threshold. 9. The method according to claim 8, characterized, that the threshold is redefined for each run. 10. The method according to claim 1, characterized, that the symbol alpha used in each case as the selection criterion bet is used, d. H. there will be such participants gnale selected where the thickness of the used Symbol alphabet falls below a certain value. 11. The method according to claim 10, characterized, that the determined value is redefined for each run becomes. 12. The method according to claim 4, characterized, that as the selection criterion the spread used in each case factor is used, d. H. the subscriber signals are selected depending on the spreading factor used. 13. The method according to claim 4, characterized, that the bandwidth used in each case as a selection criterion is used, d. H. the subscriber signals become dependent selected by the bandwidth used.   14. The method according to claim 1, characterized, that as a selection criterion, the rate of the Ka nal encoder is used, d. H. the subscriber signals are dependent on the rate of the channel encoder used selected. 15. The method according to claim 1, characterized, that as the selection criterion the service used in each case (service) is used, d. H. the subscriber signals who selected depending on the service used. 16. The method according to claim 1, characterized, that as the selection criterion the bit error required in each case probability, frame error probability or the like. is used, d. H. the subscriber signals become dependent on the required bit error probability, frame probability of error or the like selected. 17. The method according to claim 1, characterized by any combination nation of two or more of those in claims 6 to 16 specified selection criteria. 18. The method according to any one of the preceding claims, characterized, that the K₁ subscriber signals for each pass before Performing the runs can be selected. 19. The method according to any one of claims 1 to 17, characterized, that the K₁ subscriber signals for each run after Perform the previous pass.   20. The method according to any one of the preceding claims, characterized, that the (K-K₁) unselected subscriber signals such as un correlated noise are treated. 21. The method according to any one of claims 1 to 19, characterized, that the (K-K₁) unselected subscriber signals such as kor relative noise are treated. 22. The method according to any one of the preceding claims, characterized in that a total of two runs are provided, that in the first step from the K different subscriber signals a number consisting of a subset K₁, 1K ₁ K, of subscriber signals is selected according to a selection criterion that in the second step, a common detection (JD) of this from selected K 1 subscriber signals and the unselected (K-K 1) subscriber signals are treated as noise, that in the third step the influence of the K 1 de detected subscriber signals by means of a method for interference elimination (IC) is eliminated by subtraction from the received signal mixture and that after the subtraction, a common detection (JD) of the remaining (K-K₁) participant signals is carried out.