DE102005023322A1 - Radio communications using relays involves transmitter simultaneously sending first information part directly to receiver and second part to radio station for relaying to receiver by radio - Google Patents

Abstract

The radio communications method involves transmitting information from a transmitter (SOURCE) to a receiver (DESTINATION), whereby the transmitter divides the information at least into first and second parts. The transmitter simultaneously sends the first part directly to the receiver and the second part to a radio station (RELAY1, RELAY2) for relaying to the receiver by radio. Independent claims are also included for the following: (A) a transmitter (B) and a radio communications system.

Description

The The invention relates to a method for the radio transmission of information from a sender to a receiver. Furthermore, the invention relates to a transmitter and a radio communication system to carry out of the procedure.

In Radio communication systems are messages, for example, with Voice information, image information, video information, SMS (Short Message Service), MMS (Multimedia Messaging Service) or others Data, using electromagnetic waves via a radio interface transmitted between transmitting and receiving station. At the stations Depending on the specific configuration of the radio communication system, this may be the case to various subscriber-side radio stations or network-side Radio equipment such as repeaters or relays, radio access points or Base stations act. In a mobile communication system acts it is at least part of the subscriber radio stations to mobile radio stations. The radiating electromagnetic Waves occur at carrier frequencies, in the for the respective system provided frequency band lie.

Mobile communication systems are often used as cellular systems e.g. according to the standard GSM (Global System for Mobile Communication) or UMTS (Universal Mobile Telecommunications System) with a network infrastructure consisting e.g. from base stations, facilities for controlling and controlling the base stations and other network-side Facilities trained. Except this spacious organized (supralocal) cellular, hierarchical radio networks There are also wireless local area networks (WLANs, Wireless Local Area Networks) with a generally much more spatially limited Radio coverage area. Examples of different standards for WLANs are HiperLAN, DECT, IEEE 802.11, Bluetooth and WATM.

radio stations can only communicate directly with each other when they are both in the radio coverage area the other radio station are located. Is not a direct communication possible, so can Messages between these radio stations over other radio stations, which - by they forward the messages - act as relays, transmit become. Such message forwarding may, depending on the specific embodiment of the radio communication system, both from subscriber radio stations as well as from network radio stations be performed. Messages can for example, in a WLAN between a radio access point and far away from the radio access point subscriber radio stations be forwarded. In an ad hoc mode of a radio communication system, subscriber radio stations can also use a or more jumps (Hop or Multihop) communicate with each other, without mediating Facilities such as e.g. Base stations or radio access points interposed become.

Of the Invention is based on the object, a method for communication show by radio, in which a forwarding radio station to Use comes. Furthermore, a transmitter and a radio communication system to carry out the Procedure will be presented.

These The object is achieved by a method having the features of the claim 1 and solved by devices having features of independent claims. advantageous Embodiments and developments are the subject of dependent claims.

at the method according to the invention for radio transmission From information from a sender to a receiver, the sender shares the information at least in a first and a second part. In accordance with the invention the transmitter at the same time by radio the first part directly to the receiver and the second part to a radio station for forwarding to the receiver.

at the transmitter is preferably a network-side device, for example, a UMTS, GSM, WiMAX or WLAN system. In which receiver it is preferably a particular mobile subscriber radio station. The radio station to which the second part of the message is sent is used, at least among other things, the forwarding of information, this can be a network-side or subscriber-side Act repeater or relay.

The sender has information, which he divides into several parts, at least in the first and the second part. The information may, for example, be information already channeled for purposes of radio transmission. The division preferably takes place in such a way that there are no overlaps between the two parts, ie there are no components of the information which are both part of the first and the second part. The information can be completely divided, in which case there is no part of the information which is not part of the first and / or the second part. Alternatively, the information may be divided so that the sum of the components of the first and second parts do not give the complete information, but at least one Be exists Part of the information that is not part of the first and / or the second part. The two parts are different from each other, so that by dividing the information, the contents transmitted from the transmitter directly to the receiver differ from those transmitted from the transmitter to the receiver via the radio station. The information may be divided into a plurality of first and second parts, and the method of the invention may be applied to the plurality of first and second parts.

For the radio transmission between the sender and the receiver and between the transmitter and the radio station is preferably the same radio technology, for example the same radio standard, used. This radio technology can also be used for transmission between the radio station and the receiver be used.

In Development of the invention leads the sender prior to sending a method for predistorting the first and second part, whereby knowledge of the radio channels between the sender and the receiver and between the transmitter and the radio station. The predistortion may in particular cause the receiver substantially the first Part and the radio station essentially receives the second part, so that a receiver-side Separation of the two parts is not necessary. Preferably it is in the predistortion to a dirty-paper precoding method.

one According to an advantageous embodiment of the invention according to the division of the Information a punctuation of a channel-coded message. By a channel coding is added to information redundancy. By a punctuation will be the length reduced a message by letting out ingredients, by e.g. every nth bit is removed from the message. A division by puncturing can be done by the first Part from the dotted message, and the second part from the spiked components of the message.

With Advantage receives the recipient first the first and then the second part and combine them. This allows receiving end the information is obtained from the two parts.

Advantageous it is when the transmitter has a plurality of transmitting antennas and a directed radiation of the first part to the receiver and of the second part to the radio station. Furthermore, it is advantageous though the receiver a plurality of receiving antennas for the separation of simultaneously signals received from different directions.

In Development of the invention will also be the second part of the radio station to the receiver forwarded and a third part of the information from the transmitter to the recipient Posted. In this case, the transmission must be by the transmitter and the radio station not exactly at the same time, but rather a transfer takes place such that the two parts are superimposed upon receipt by the receiver.

According to one Another embodiment of the invention is simultaneously the second Part passed from the radio station to the receiver, and a third part of the information is sent from the sender directly to the receiver and a fourth part of the information from the sender to another Radio station sent to the recipient for forwarding. The radio station and the other radio station are preferably located at different Places, allowing different radio channels between the radio station and the recipient on the one hand and between the other radio station and the receiver on the other available.

In Embodiment of the invention leads the recipient a method for separating simultaneously received parts of the Information using knowledge of the radio channels between the transmitter and the receiver and between the radio station and the receiver.

Of the inventive transmitter for sending information by radio has means for splitting the information at least in a first and a second part, as well as means for sending the first part simultaneously to a receiver and the second part to a radio station for forwarding the recipient.

Furthermore, the transmitter according to the invention can in particular comprise:
Means for performing a method of predistorting the first and second parts prior to transmission using knowledge of the radio channels between the transmitter and the receiver and between the transmitter and the radio station, and / or
a plurality of transmitting antennas for directionally radiating the first part to the receiver and the second part to the radio station.

The radio communication system according to the invention comprises at least a transmitter, a receiver and a radio station for information forwarding. It has means for dividing information at least into a first and a second part, as well as means for simultaneous transmission by the transmitter of the first part directly to the Receiver and the second part to the radio station for forwarding to the receiver, and means for forwarding the second part by the radio station to the receiver, and means for receiving the first part and the second part and for combining the first and the second part by the Receiver.

Of the inventive transmitter and the radio communication system according to the invention are particularly suitable for carrying out the method according to the invention, this may also apply to the embodiments and developments. You can do this they have other suitable agents.

in the Following, the invention will be explained in more detail with reference to an embodiment. there demonstrate:

1 : a section of a radio communication system,

2a a first division of a message according to the invention,

2 B a second division of a message according to the invention,

3 a first time sequence of a message transmission according to the invention,

4 a second time sequence according to the invention of a message transmission.

The in 1 The detail of a radio communication system shown includes the radio stations SOURCE, DESTINATION, RELAY 1 and RELAY 2. The radio station SOURCE is preferably a base station of a cellular radio communication system or a radio access point of a WLAN. The radio station DESTINATION is preferably a subscriber-side radio station, for example a mobile telephone or a mobile computer of a user of the radio-communication system. The message transmission from the radio station SOURCE to the radio station DESTINATION is considered. This message transmission can take place directly, symbolized by the arrow between the radio stations SOURCE and DESTINATION. The message transmission from the radio station SOURCE to the radio station DESTINATION can also be made via the radio stations RELAY 1 and RELAY 2, by the arrow between the radio station SOURCE and the radio stations RELAY 1 and RELAY 2, and between the radio stations RELAY 1 and RELAY 2 and the radio station DESTINATION symbolizes. For this purpose, the radio station SOURCE sends the message to one of the radio stations RELAY 1 or RELAY 2, which forwards the message to the radio station DESTINATION. The relaying radio stations RELAY 1 and RELAY 2, which are advantageously stationary, can be network-side or subscriber-side radio stations.

Before sending a message from the radio station SOURCE to the radio station DESTINATION, the radio station SOURCE codes the message, eg by convolutional coding. This channel coding adds redundancy information to the message. According to the top line of the 2a and 2 B After coding, the codeword CODEWORD exists, which consists of the components BIT 1, BIT 2, BIT 3, BIT 4, BIT 5, BIT 6, BIT 7 and BIT 8. The codeword CODEWORD is transmitted by the radio station SOURCE to the parts TO RELAY, corresponding to the second line of the 2a and 2 B , and TO DESTINATION, according to the third line of the 2a and 2 B , split. The parts TO RELAY, ie in the case of 2a the components BIT 2, BIT 4, BIT 6 and BIT 8 and in the case of 2 B the components BIT 3 and BIT 6 of the code word CODEWORD are intended for transmission to one of the two radio stations RELAY 1 or RELAY 2. The other parts TO DESTINATION of the codeword CODEWORD, in the case of 2a the components BIT 1, BIT 3, BIT 5 and BIT 7 and in the case of 2 B the components BIT 1, BIT 2, BIT 4, BIT 5, BIT 7 and BIT 8 are intended for transmission from the SOURCE radio station directly to the DESTINATION radio station. The parts TO RELAY and TO DESTINATION have no overlaps, they together form the complete codeword CODEWORD. The radio station SOURCE thus transmits different information to the respective radio station RELAY 1 or RELAY 2 on the one hand and to the radio station DESTINATION on the other hand.

The splitting of the code word CODEWORD into the parts TO RELAY and TO DESTINATION preferably takes place by puncturing: for example, every nth bit can be punctured from the code word CODEWORD, the parts TO RELAY consisting of the punctured bits and the parts TO DESTINATION consisting of the dotted codeword CODEWORD. In 2a the case is illustrated that every other part of the codeword CODEWORD has been punctured, and in 2 B that every third component has been punctured.

The parts TO RELAY and TO DESTINATION are further coded to eliminate interference before sending (pre-interference cancellation). For this purpose, preferably the so-called dirty-paper-precoding method is used, described for example in
G. Caire, S. Shamai: On the Achievable Throughput of a Multiantenna Gaussian Broadcast Channel, IEEE Transactions on Information Theory, Vol. 7, July 2003.

at This further coding uses the radio station SOURCE knowledge about the Radio channel between the radio station SOURCE and the radio station DESTINATION on the one hand, and between the radio station SOURCE and the respective one Radio station RELAY 1 or RELAY 2 on the other hand. The predistortion causes the parts TO RELAY and TO DESTINATION from the radio station SOURCE simultaneously, i. as an overlay the two parts TO RELAY and TO DESTINATION, can be sent, where the radio station DESTINATION essentially the respective part TO DESTINATION receives, and the respective radio station RELAY 1 or RELAY 2 essentially the part receives respective TO RELAY.

To the receipt of a part TO RELAY by the respective radio station RELAY 1 or RELAY 2 forwards the part TO RELAY to the radio station DESTINATION continues. The radio station DESTINATION thus receives first a part TO DESTINATION directly from the radio station SOURCE, followed by a part TO RELAY from the respective radio station RELAY 1 or RELAY 2. After receiving the two parts TO RELAY and TO DESTINATION, the DESTINATION radio station can combine these. By combining the parts TO RELAY and TO DESTINATION of the Codewordes the radio station DESTINATION the entire codeword Win CODEWORD.

3 shows the sequence of message transmissions from the radio station SOURCE to the radio station DESTINATION. The second column of the two blocks of the 3 stands for the transmission of messages during a first time slot T1, the third column for the transmission of messages during a second time slot T2, the fourth column for the transmission of messages during a third time slot T3, and the fifth column for the transmission of messages during a fourth time slot T4.

Assuming that the radio stations RELAY 1 and RELAY 2 are configured so that both the radio station RELAY 1 can not receive and send messages simultaneously and the radio station RELAY 2 can not receive and send messages simultaneously, then for the transmission of a Message from the radio station SOURCE to the radio station DESTINATION using one of the radio stations RELAY 1 or RELAY 2 two time slots are inserted, as in the upper block of the 3 shown. The second line of the upper block stands for the transmission of messages from the radio station SOURCE to the radio station DESTINATION, the third line for the transmission of messages from the radio station SOURCE to the respective radio station RELAY 1 or RELAY 2, and the fourth line for the transmission of messages from the respective radio station RELAY 1 or RELAY 2 to the radio station DESTINATION. During the time slot T1, the radio station SOURCE transmits a first part TO DESTINATION 1 directly to the radio station DESTINATION and a second part TO RELAY 1 to the respective radio station RELAY 1 or RELAY 2. During the following time slot T2 the respective radio station forwards RELAY 1 or RELAY 2 the second part TO RELAY 1 to the radio station DESTINATION on. The radio station SOURCE does not transmit a signal to the respective radio station RELAY 1 or RELAY 2 during the time slot T2, since this can not be received due to its own transmission of the part TO RELAY 1. In the next time slot T3, the radio station SOURCE transmits a third part TO DESTINATION 2 directly to the radio station DESTINATION and a fourth part TO RELAY 2 to the respective radio station RELAY 1 or RELAY 2. In the following time slot T4 the respective radio station RELAY 1 or RELAY 2 forwards the fourth part TO RELAY 2 to the radio station DESTINATION on. Thus four time slots are needed for the transmission of the four parts, with the radio station SOURCE not transmitting every other time slot. Due to this "suspension" of the radio station SOURCE the data throughput is halved 3 described method is a division of a codeword according to 2a ie dividing a data stream into parts TO RELAY and TO DESTINATION in the ratio 1: 1.

The lower block of the 3 represents an advantageous possibility for increasing the data rate. The first line of the lower block stands for the transmission of messages from the radio station SOURCE to the radio station DESTINATION, the second line for the transmission of messages from the radio station SOURCE to the respective radio station RELAY 1 or RELAY 2, and the third line for the transmission of messages from the respective radio station RELAY 1 or RELAY 2 to the radio station DESTINATION. The first timeslot T1 becomes as in the upper block of 3 used by the radio station SOURCE sends a first part TO DESTINATION 1 directly to the radio station DESTINATION and a second part TO RELAY 1 to the respective radio station RELAY 1 or RELAY 2. In the following time slot T2, the respective radio station conducts RELAY 1 or RELAY 2 as in the upper block of FIG 3 the second part TO RELAY 1 to the radio station DESTINATION on. The radio station SOURCE does not suspend the message transmission during the time slot T2, but sends a third part TO DESTINATION 2 directly to the radio station DESTINA TION. The transmission of the fourth and fifth parts TO DESTINATION 3 and TO RELAY 3, as well as the sixth part TO DESTINATION 4 in the time slots T3 and T4 is carried out according to the transmission of the parts TO DESTINATION 1, TO RELAY 1 and TO DESTINATION 2 in the time slots T1 and T2. The lower block of 3 shows that four timeslots are needed for the transmission of six parts from the radio station SOURCE to the radio station DESTINATION. For the sake of the lower block of the 3 described method is a division of a codeword according to 2 B ie dividing a data stream into the parts TO RELAY and TO DESTINATION in the ratio 2: 1.

While the radio station DESTINATION in the upper block of 3 In either time slot received from either the radio station SOURCE or from one of the radio stations RELAY 1 or RELAY 2, the signals originating from the radio station SOURCE and from one of the radio stations RELAY 1 or RELAY 2 are received by the radio station DESTINATION in the lower block of the 3 in the time slots T2 and T4 simultaneously. In order to be able to separate the parts TO DESTINATION 2 and TO RELAY 1 of the time slot T2 or the parts TO DESTINATION 4 and TO RELAY 3 of the time slot T4, the radio station DESTINATION performs a multi-user detection method. In this case, it uses knowledge of the radio channels between the radio station SOURCE and the radio station DESTINATION on the one hand and between the respective radio station RELAY 1 or RELAY 2 and the radio station DESTINATION on the other hand. Multi-user detection methods are explained in eg
AD Wyner: Recent Results in the Shannon Theory, IEEE Transactions on Information Theory, Vol. IT-20, no. 1, January 1974.

Another time sequence of a message transmission, in which the radio station SOURCE can send in each time slot, is in 4 shown. Both the radio station RELAY 1 and the radio station RELAY 2 are used for forwarding message parts. The second column of 4 stands for the transmission of messages during a first time slot T1, the third column for the transmission of messages during a second time slot T2, the fourth column for the transmission of messages during a third time slot T3, and the fifth column for the transmission of messages during a fourth time slot T4. The second line of the 4 stands for the message parts received by the radio station RELAY 1, the third line for the message parts transmitted or relayed by the radio station RELAY 1, the fourth line for the message parts received by the radio station RELAY 2, and the fifth line for those from the radio station RELAY 2 sent or: sent. forwarded message parts. The sixth line stands for the message parts received by the radio station DESTINATION.

During the Time slot T1 receives the radio station RELAY 1 a first part TO RELAY 1 from the radio station SOURCE. The radio station sends a second part TO DESTINATION 1 directly to the radio station DESTINATION, leaving the radio station DESTINATION in timeslot T1 the second part TO DESTINATION 1 receives. The radio station RELAY 1 passes the first part TO RELAY 1 in time slot T2 to the radio station DESTINATION on. In time slot T2 receives the Radio station RELAY 2 a third part TO RELAY 2 from the radio station SOURCE. Simultaneously with the sending of the third part TO RELAY 2 to the radio station RELAY 2, the radio station SOURCE sends a fourth Part TO DESTINATION 2 directly to the radio station DESTINATION, i. the radio station DESTINATION receives in time slot T2, the two message parts TO DESTINATION 2 and TO RELAY 1. In time slot T3, the radio station RELAY 2 forwards the third part TO RELAY 2 to the radio station DESTINATION on. simultaneously receives the radio station RELAY 1 in time slot T3 a fifth part TO RELAY 3 from the SOURCE radio station. The radio station SOURCE sends in the third time slot T3 a sixth part TO DESTINATION 3 directly to the radio station DESTINATION, which in the third time slot T3 thus the third part TO RELAY 2 from the radio station RELAY 2 and receives the sixth part TO DESTINATION 3 from the radio station SOURCE. During the fourth time slot T4, the radio station SOURCE sends a seventh Part TO RELAY 4 to the radio station RELAY 2 and an eighth part TO DESTINATION 4 directly to the radio station DESTINATION. This receives in the fourth Timeslot the eighth part TO DESTINATION 4 and that of the radio station RELAY 1 forwarded fifth Part TO RELAY 3.

The radio station SOURCE thus alternately transmits to the radio station RELAY 1 and to the radio station RELAY 2. Simultaneously with these transmissions, the radio station SOURCE transmits other parts directly to the radio station DESTINATION. The radio station DESTINATION receives alternately simultaneously from the radio station SOURCE and the radio station RELAY 1 on the one hand and from the radio station SOURCE and the radio station RELAY 2 on the other hand. For that on the basis of 4 described method is a division of a data stream in the parts TO RELAY and TO DESTINATION in the ratio 1: 1.

According to 4 sends the radio station RELAY 1, while the radio station receives RELAY 2 and vice versa. Therefore, the transmission of the radio station RELAY 1 generates interference for the reception of the radio station RELAY 2 and vice versa. To this To bypass or reduce the effect, the message parts which are sent from the radio station SOURCE to the radio stations RELAY 1 and RELAY 2 are predistorted according to the dirty paper precoding method. For this purpose, the radio station uses SOURCE knowledge of the radio channels between the radio station SOURCE and the radio station RELAY 1, as well as between the radio station SOURCE and the radio station RELAY 2, as well as the knowledge of each of the transmitting radio station RELAY 1 or RELAY 2 forwarded message part.

Either the transmitter-side as well as the receiver-side signal separation is achieved by the use of a plurality of transmitting and receiving antennas improved as it introduces additional spatial diversity. For example, if the SOURCE radio station has multiple transmit antennas on, then a directional broadcast of the message part TO RELAY in the direction of the respective radio station RELAY 1 or RELAY 2, as well as the message part TO DESTINATION in the direction of the radio station DESTINATION done. This can affect the separation of the message parts dispensed by predistortion by, for example, dirty paper precoding be, or at least the quality of the predistortion caused signal separation can be improved. The same applies to the recipient, so that the radio station DESTINATION by using multiple receiving antennas an improved separation of simultaneously from the radio station SOURCE and received by one of the radio stations RELAY 1 or RELAY 2 Message parts can cause.

Claims (13)

Method for the radio transmission of information (CODEWORD) from a transmitter (SOURCE) to a receiver (DESTINATION), in which the transmitter (SOURCE) divides the information (CODEWORD) at least into a first (TO DESTINATION) and a second part (TO RELAY) , characterized in that the transmitter (SOURCE) simultaneously the first part (TO DESTINATION) directly to the receiver (DESTINATION) and the second part (TO RELAY) to a radio station (RELAY 1, RELAY 2) for forwarding to the receiver (DESTINATION) sends by radio. Method according to Claim 1, in which the transmitter (SOURCE) before sending a method for predistorting the first (TO DESTINATION) and the second (TO RELAY) part performs under Use of knowledge about the radio channels between the transmitter (SOURCE) and the receiver (DESTINATION) and between the transmitter (SOURCE) and the radio station (RELAY 1, RELAY 2). The method of claim 2, wherein the Method of predistortion is a dirty-paper-precoding method. Method according to one of claims 1 to 3, wherein the division the information (CODEWORD) a punctuation of a channel coded Message includes. Method according to one of Claims 1 to 4, in which the recipient (DESTINATION) first the first part (TO DESTINATION) and then the second part (TO RELAY) receives, and the first part (TO DESTINATION) and the second part (TO RELAY) combined. Method according to one of claims 1 to 5, wherein the transmitter (SOURCE) has a plurality of transmit antennas, and a directed one Broadcast of the first part (TO DESTINATION) to the receiver (DESTINATION) and the second part (TO RELAY) to the radio station (RELAY 1, RELAY 2). Method according to one of claims 1 to 6, wherein simultaneously the second part (TO RELAY) from the radio station (RELAY 1, RELAY 2) to the recipient (DESTINATION) and a third part (TO DESTINATION 2) the information (CODEWORD) from the sender (SOURCE) to the receiver (DESTINATION) is sent. Method according to one of claims 1 to 6, wherein simultaneously the second part (TO RELAY) from the radio station (RELAY 1, RELAY 2) to the recipient (DESTINATION) forwarded, a third part (TO DESTINATION 2) the information (CODEWORD) from the sender (SOURCE) directly to the recipient (DESTINATION) and a fourth part (TO RELAY 2) of the information (CODEWORD) of the transmitter (SOURCE) to another radio station (RELAY 1, RELAY 2) for forwarding to the recipient (DESTINATION) is sent. Method according to one of claims 1 to 8, wherein the receiver (DESTINATION) a method for separating simultaneously received parts of the Information (CODEWORD) using knowledge of the radio channels between the transmitter (SOURCE) and the receiver (DESTINATION) and between the radio station (RELAY 1, RELAY 2) and the receiver (DESTINATION). Sender (SOURCE) for sending information (CODEWORD) by radio, with means for dividing the information (CODEWORD) into at least a first part (TO DESTI NATION) and a second part (TO RELAY), characterized by means for simultaneously sending the first part (TO DESTINATION) directly to a receiver (DESTINATION) and the second part (TO RELAY) to a radio station (RELAY 1, RELAY 2) Forwarding to the recipient (DESTINATION). Transmitter according to claim 10, comprising means for performing a Method for predistorting the first (TO DESTINATION) and the second (TO RELAY) part before sending using knowledge of the radio channels between the transmitter (SOURCE) and the receiver (DESTINATION) and between the transmitter (SOURCE) and the radio station (RELAY 1, RELAY 2). Transmitter according to claim 10 or 11, comprising a plurality of transmitting antennas for the directional emission of the first part (TO DESTINATION) to the recipient (DESTINATION) and the second part (TO RELAY) to the radio station (RELAY 1, RELAY 2). Radio communication system comprising at least one Transmitter (SOURCE), a receiver (DESTINATION), and a radio station (RELAY 1, RELAY 2) for forwarding information, With Means for splitting information (CODEWORD) at least in a first (TO DESTINATION) and a second part (TO RELAY), marked by Means for simultaneous transmission by the transmitter (SOURCE) of the first part (TO DESTINATION) directly to the receiver (DESTINATION) and the second part (TO RELAY) to the radio station (RELAY 1, RELAY 2) for forwarding to the recipient (DESTINATION), Means for forwarding the second part (TO RELAY) through the radio station (RELAY 1, RELAY 2) to the receiver (DESTINATION), medium for receiving the first part (TO DESTINATION) and the second one Part (TO RELAY) and to combine the first (TO DESTINATION) and the second (TO RELAY) part by the receiver (DESTINATION).