DE102006039326A1 - A method for operating a first receiving station and method for operating a transmitting station as well as receiving station, transmitting station and radio communication system - Google Patents

Abstract

at the method according to the invention for operating a first receiving station (MS1) in a radio communication system, in which a first transmission signal (S1) comprising a data (D) of a service from a transmitting station (BS1) in a first radio cell (FZ1) via a Air interface simultaneously to the first receiving station (MS1) and at least one second receiving station (MS2) is, wherein the transmitting station (BS1) for transmitting the first transmission signal (S1) is given a maximum usable transmission power receives the first receiving station (MS1) from the transmitting station (BS1) transmission power information (SI), which is extractable, whether a Limit value of the transmission power has already been reached or by a Increase the transmission power of the first transmission signal (S1) is exceeded.

Description

The The invention relates to a method for operating a first receiving Station and a method for operating a transmitting station and a corresponding receiving station, a corresponding transmitting station and a corresponding radio communication system.

Point-to-multipoint connections play an increasingly important role in radio communication systems Role, as even classical broadcasting services increasingly for mobile terminals Tobe offered. This is not just about the broadcast application (Broadcasting), but also to send identical content to a group of users (multicasting). Radio communication systems are in the past for the multiple access and thus for the individual traffic has been optimized. An improvement the total capacity on the air interface is thereby by the individual control of the individual connections (for example by transmission power control). Point-to-multipoint connections in a radio cell are required extended method to meet the capacity needs (e.g., transmit power) for this Minimize connections. Especially in the case of CDMA systems (Code Division Multiple Access), for example, is for a 95% Cover in a radio cell for the broadcasting of broadcast signals a large Share of available transmitting power of a radio station (e.g., base station). The Use a big one Share of transmission power is justified only if a large number from subscriber stations actually on Receiving the broadcast signals is interested, since in this case little capacity (Transmit power) for others Services left over remains.

• a) Point-to-Point (P-T-P) und
• b) Point-to-Multipoint (P-T-M).

In the specification of Multimedia Broadcast / Multicast Services (MBMS) in the 3GPP Third Generation Partnership Project (Universal Mobile Telecommunication System Standard), 3GPP TS 22.246 V6.2.0 and 3GPP TS 25.346 V6.6.0, provision has therefore been made. to control the transmission of point-to-multipoint signals according to demand. In the case of multicast services, the individual subscriber stations must register if they are interested in receiving a particular service or log out if they no longer wish to receive a service. On the network side, the subscriber stations ready to receive as a whole and also per radio cell can be counted in order to achieve an optimized transmission which is adapted to the requirements. Thus, for MBMS according to the 3GPP standard, two types of emissions are defined on the air interface:

• a) Point-to-Point (PTP) and
• b) Point-to-Multipoint (PTM).

P-T-P-compounds are not essentially different from other individual ones Connections for data transmission (dedicated left). Here is the same content (data of a service) the individual subscriber stations each individually assigned Resources (e.g., time, frequency, and / or code), i.e. the same content is sent multiple times. This approach is particularly justified if only a few subscriber stations want to receive this service. P-T-P compounds have the advantage an individual link control, e.g. a individual transmission power control or one to the respective Subscriber station directed broadcast of data of the service comprehensive transmission signals.

Of the 3GPP standard provides that with increased number of listening subscriber stations on the P-T-M operation can be switched. In P-T-M operation is a data of the service comprehensive transmission signal with fixed transmission power and with as possible greater Cover, i. high transmission power, sent.

This has the advantage that no radio resources for uplink transmissions (from a subscriber station to a network radio station) are needed. Thus theoretically an infinite number of subscriber stations to be served.

Of the However, as already mentioned above, P-T-M operation has the disadvantage that the To achieve a high coverage, a service with a large transmission power must be sent in a radio cell. This is the capacity expressed in number of the various services offered, not very good in P-T-M operation high. To the capacity to increase, i. within a radio cell with low transmission power to get along, a reciprocal combination (selective combining, soft combining) of P-T-M transmit signals of adjacent radio cells introduced (3GPP TS 25.346 V6.6.0). Of course, this requires that in neighboring radio cells, the same service sent in P-T-M operation becomes.

Another possibility for minimizing the transmission power used within a radio cell in PTM operation is, for example, US Pat EP 1 388 956 It is known in PTM operation to allow subscriber stations to receive transmission signals of the transmission signals by transmitting corresponding control signals in the upward direction when receiving data of a service comprising transmission signals in a radio cell. A subscriber station with poor reception quality (eg a signal-to-noise ratio is smaller than a predetermined Bener limit value) sends, possibly repeatedly, control signals to a radio station that transmits data of a service comprehensive transmission signals in a radio cell. The radio station increases its transmission power upon receipt of a corresponding control signal until a maximum value of the transmission power is reached or until no corresponding control signals arrive. In this way, the transmission power used always corresponds to the demand that has the subscriber station with the worst reception quality within the radio cell. If, after receiving a control signal within a predetermined time interval, no control signal from the radio station is received, the radio station lowers its transmission power successively until a control signal is received again. It can thus be achieved that no more transmission power is used as needed. If, however, the maximum value of the transmission power is reached, a subscriber station, which still has a poor reception quality, either has to expect to stop receiving the data of the service or to endeavor to receive the data of the service in an adjacent radio cell. For this purpose, the subscriber station changes into an adjacent radio cell offering the service, or requests the service for the adjacent radio cell, if their reception quality does not improve despite repeated transmission of control signals. However, this frequently leads to a change only taking place when the transmission of the data of the service has already been interrupted, since in particular the requesting of the transmission of the data of a service in an adjacent radio cell in which the data of the service is not yet transmitted, Time needed.

It Object of the present invention, methods and corresponding Specify devices by means of which the reception of data of a service as part of a multicast operation alternatively or in addition to Reception in a first radio cell also in a second radio cell is made possible while at the same time a probability for the interruption of the reception the data of the service known method is reduced.

These Task is solved by a method for operating a first receiving station and a method for operating a transmitting station and a receiving Station, a transmitting station and a radio communication system according to the independent claims.

beneficial Embodiments and developments are the subject of dependent claims.

at the method according to the invention for operating a first receiving station in a radio communication system, in which a data of a service comprising the first transmission signal of a transmitting station in a first radio cell via a Air interface simultaneously to the first receiving station and at least one second receiving station is sent, wherein the transmitting station for transmitting the first transmission signal a maximum usable transmit power, receives the first receiving station from the transmitting station a transmission power information, the removable is whether a limit of the transmission power has already been reached or by increasing the transmission power of the first transmission signal is exceeded.

By the transmission power information becomes the first receiving station allows to recognize if they in the case of too low quality of reception another increase the transmission power of the transmitting station can request with success. This gives the first receiving station the opportunity before it becomes one Interruption of receiving the data of the service due to a too low reception quality the first transmission signal comes to take action to the Continue to receive data of the service with a reception quality which enables decoding of the first transmission signal.

advantageously, signals the first receiving station of the transmitting station, the for to increase the transmission power used when the first transmission signal a reception quality of the first determined by the first receiving station Transmission signal is less than a minimum value of the reception quality and if the limit value of the transmission power has not yet been reached or by increasing the Transmission power not exceeded becomes.

To the Signaling the increase the transmission power of the first transmission signal is for example a shared channel (uplink shared channel) both from the first receiving station as well as other receiving stations ver used. This way, from the receiving stations, the first transmission signal, i. Data of service, receive, one single radio resource shared.

The Cancellation of the reception of the data of the service may be the first receiving Prevent station when the first receiving station checks in a second radio cell containing the same data of the service second transmission signal is sent if one of the first receiving station determined reception quality of the first transmission signal is less than a minimum value of the reception quality and if the limit value of the transmission power has been reached or by increasing the Transmitting power exceeded becomes.

A Development of the invention provides that the first receiving Station sends a message to the radio communication system, by means of which sending the data of the service comprising the second transmission signal is requested in the second radio cell. This way you can the first receiving station cause that in the second radio cell sending the data of the service by means of the second transmission signal is started before the first receiving station due to lack of reception quality no longer decode the first transmission signal in the first radio cell can.

Also at a reception quality of the first transmission signal, which is no longer sufficient to the first Decode transmission signal, the first receiving station with Advantage the first transmission signal from the first radio cell and the second Receive transmission signal from the second radio cell and both transmit signals before or after their decoding to detect the data of the service combine. This can on the one hand a decoding of the undecoded combined signal allows or in case of an erroneous decoding of the first transmission signal this error can be based on the decoding of the second transmission signal and subsequent combination of the erroneously decoded first transmission signal and the decoded second transmission signal.

With Advantage changes the first receiving station to receive the second Transmission signal from the first radio cell to the second radio cell, if or as soon as the second transmission signal is sent in the second radio cell becomes. For example, the reception of the first transmission signal in the first radio cell deteriorate so much that a combination the first and second received signal no improved reception across from the sole receipt of the second transmission signal results. In this Case, the first receiving station can receive the first Dispense transmission signal and switch to the second radio cell.

advantageously, the transmit power information is a currently used transmit power and / or an exploitation of the transmission power with regard to the maximum usable Transmitting power can be removed.

Of the For example, the first receiving station is the maximum usable one Transmit power or below the maximum usable transmit power lying limit known. In this case, the first receiving Station using the currently used transmit power determine whether the limit or the maximum usable transmission power already has been reached or exceeded by increasing the transmission power becomes. The transmit power information may also be a relative indication the currently used transmit power. For example can either specify the transmit power information or it can be deduced to what percentage the currently used Transmission power of the maximum usable transmission power. The Receiving station can then check if the percentage utilization of the maximum transmit power one for the percentage Utilization has already reached or exceeded this limit Limit by further increase exceeded the transmission power becomes.

It is therefore advantageous if a limit of the transmission power Limit for a currently used transmit power or a limit of utilization the transmission power in terms of the maximum usable transmission power is used.

Of course you can an exploitation of the transmission power with regard to the maximum usable Transmit power expressed in dB (decibels). Here is the decibel indication related to the maximum transmission power. Contains the signaling information for example, the indication 0 dB or is the indication 0 dB of the signaling information Removable, this means that the first transmission signal with the maximum Transmission power is sent. The indication -30 dB means that the used Transmission power one thousandth of the maximum usable transmission power is.

Of course you can the transmission power information instead of a currently used Transmission power or an exploitation of the transmission power in terms the maximum usable transmit power also includes an indication which explicitly states that the limit reaches the transmit power or that the limit value of the transmission power has not been reached. In this case, the first receiving station can receive this information directly use, without even a comparison with the limit perform, since the transmission power information already the comparison result indicates.

The Transmission power information can, for example via a control channel or a paging channel, i. for example via the MCCH (Multicast Control Channel) or the MIC (Multicast Indicator Channel), see 3GPP TS 25.346 V6.6.0, transmitted become.

Especially It is advantageous if the first transmission signal additionally the Transmission power information includes. The first transmission signal is in in each case received by the first receiving station to the To decode data of the service, so that in this way an interception of a Control channel or a paging channel during the reception of the data Diens tes for receiving the transmission power information is not required is.

at the method according to the invention for operating a transmitting station in a radio communication system becomes a data of a service comprehensive first transmission signal of the sending station over an air interface in a first radio cell at the same time a first receiving station and at least one second receiving station sent, wherein the transmitting station for transmitting the first transmission signal a maximum usable transmission power is given. In accordance with the invention the transmitting station transmits transmission power information to the first one receiving station and the second receiving station, the removable is whether a limit of the transmission power has already been reached or by increasing the transmission power of the first transmission signal is exceeded.

In advantageous embodiments of the method for operating a sending Station leads the transmitting station those procedural steps, the sender side to carry out the method steps or process variants of the method according to the invention to operate a first receiving station are required.

The receiving according to the invention Station has all the features necessary for carrying out the method according to the invention needed become. In particular, you can appropriate means of implementation the individual process steps or process variants provided be.

The transmitting according to the invention Station has all the features necessary for carrying out the method according to the invention needed become. In particular, you can appropriate means of implementation the individual process steps or process variants provided be.

In the radio communication system according to the invention At least one inventive receiving station and a transmitting according to the invention Station operated.

The Invention will be described below with reference to one shown in the figure Embodiment explained in more detail.

A For example, the receiving station is a subscriber station of a Radio communication system.

A Subscriber station is, for example, a mobile station, in particular a mobile phone or even a portable or stationary device for transmission of image and / or Audio data, fax, short message service SMS, multimedia messaging Service MMS and / or email delivery and / or Internet access.

A Sending station is for example a base station.

A Base station is a network-side radio station that is provided by a subscriber station Receive user and / or signaling data and / or useful and / or Sends signaling data to the subscriber station. A base station is over Network-side devices connected to a core network via the Connections to other radio communication systems or to others Data networks take place. Under a data network is for example the Internet or a landline with, for example, circuit-switched or packet-switched compounds for e.g. Language and / or data to understand.

following becomes a receiving station as a receiving station and as a sending station Station considered a base station, but without expressing it to want to bring the invention to be limited thereto should.

The Invention may be advantageous in any radio communication systems be used. Among radio communication systems, systems are too understand in which a data transfer between Radio stations over an air interface takes place. The data transmission can be both bidirectional as well as unidirectional. Radio communication systems are In particular, any mobile radio systems, for example, after GSM (Global System for Mobile Communications) or the UMTS (Universal Mobile Telecommunications System) standard. Also future mobile systems, for example The fourth generation, as well as ad hoc networks are meant to be used under radio communication systems be understood. Radio communication systems are for example also wireless local area networks (WLANs: Wireless Local Area Networks) according to the standards IEEE (Institute of Electrical and Electronics Engineers) 802.11a-i, HiperLAN1 and HiperLAN2 (HiperLAN: high performance radio local area network) as well as Bluetooth networks and broadband networks with wireless Access for example according to IEEE 802.16.

in the The invention will be described below using the example of a radio communication system described by the UMTS standard, but without expressing it to want to bring the invention to be limited thereto should.

The figure shows schematically a radio communication system, of which by way of example a first base station BS1, a second base station BS2, a first subscriber station MS1 and a second subscriber station MS2 are shown. Further base stations and subscriber stations as well as the network-side components of the radio communication system known to those skilled in the art are known for reasons of Clarity not shown.

The Base stations BS1, BS2 and the subscriber stations MS1, MS2 have in each case a control device P1, P2, P3, P4, by means of which the Base stations and the subscriber stations their transmitting and receiving operation Taxes. In particular, the control devices also serve for coding of signals to be transmitted and for decoding of received signals.

The first base station BS1 supplies subscriber stations located in a first radio cell FZ1 are located. In the first radio cell FZ1 transmits the first Base station BS1 by means of broadcast data D of a service, the are modulated on a first transmission signal S1 and via a first multicast channel MTCH1 in the first radio cell FZ1 to all For this Service registered subscriber stations are sent. The data of the service are thus in a multicast operation by means of a point-to-multipoint transmission Posted. Such services are also called multicast services. Receive is the first transmission signal S1, which is the data D of the service comprises, from the first subscriber station MS1 and the second subscriber station MS2. The first subscriber station MS1 and the second subscriber station MS2 each decode the first transmission signal S1 and thus obtain the Data D of the service. In the first transmission signal S1 included (i.e. For example, at the receiving end known place in the data D of the service inserted) is a transmission power information SI, for example, in decibels relative to a maximum transmit power indicates which transmit power currently being used to transmit the first transmission signal S1. Of the first base station BS1 is a maximum usable transmission power for example, specified on the network side. For example, an operator stops of the radio communication system for Base stations, which transmit power a base station for in a Multicast operation by means of a point-to-multipoint transmission may use transmitted data of a service. The maximum usable Transmitting power can for each multicast service individually or for all multicast services receive the same value. An individual determination allows one Prioritization of certain multicast services, for example, depending on the type of transferred Dates. Of course The maximum usable transmit power can also be one by one Transmission device of the first base station BS1 maximum achievable Transmission power to be determined.

Of the first subscriber station MS1 and the second subscriber station MS2 In each case, a limit value of the transmission power for the first base station BS1 is known. The limit of the transmission power is, for example, the maximum usable transmission power of the first base station BS1 or a value, the exploitation of the maximum usable transmission power of For example, 90% corresponds.

The first subscriber station MS1 and the second subscriber station MS2 determine each for the received first transmission signal S1 a reception quality. In the reception quality is, for example, a respective signal-to-noise ratio or a respective bit error or frame error rate (BER: bit error rate or FER: frame error rate). Compare the established reception quality the first subscriber station MS1 and the second subscriber station MS2 each with a minimum value of the reception quality. The minimum values of respective reception quality can be the same as well as different. Is the reception quality under the respective minimum value of the reception quality, send the first subscriber station MS1 and the second subscriber station each have a control signal TPC, TPC ', for example, via a two Subscriber stations MS1, MS2 available for this purpose transmission channel the first base station BS1. The control signals TPC, TPC 'send the subscriber stations MS1, MS2 in each case only if based on the transmission power information SI could determine that the limit of the transmit power is still is not reached or that increasing the transmission power of the first base station BS1 due to the respective control signals TPC, TPC 'is not exceeded the limit value of the transmission power leads. The first base station BS1 increased after receiving a corresponding control signal TPC, TPC 'the transmission power, for example by a fixed predetermined increment. Maximum, however, until the maximum usable transmission power has been reached.

In the embodiment shown in the figure, in the course of the continuous reception of the first transmission signal S1, the first subscriber station MS1 determines that its reception quality is below a minimum value of the reception quality and that the transmission power information SI can simultaneously be deduced that the limit value of the transmission power is transmitted by transmission of a transmission power further control signal TPC will be exceeded. The first subscriber station MS1 has thus determined, for example, that a further increase in transmission power will exceed, for example, the limit value of 90% utilization of the first base station and that therefore further increase of the transmission power of the first base station BS1 will only be possible up to the maximum usable transmission power , Since the first subscriber station MS1 has determined a reception quality which is below a minimum value of the reception quality, and it is not apparent whether or not the maximum usable transmission power is reached then the reception quality available for decoding the data D of the Service will suffice, hears the first subscriber station MS1 multicast and / or broadcast channels of adjacent radio cells in particular a second radio cell FZ2, which is spanned by the second base station BS2 to determine whether there also the data D of the service are sent.

In this embodiment For example, the first subscriber station MS1 determines that the Data of the service D in the second radio cell FZ2 not yet sent become. Therefore, the first subscriber station MS1 sends a message NA to the first base station BS1 to request that the data D of the service also be sent in the second radio cell FZ2. Due to the message NA, the first base station BS1 sends to a network-side device, e.g. a radio network controller, or immediately to the second base station BS2 a service request, by the is caused, that subsequently the second base station BS2 via a second Multicast channel MTCH2 sends a second transmission signal S2, which also the data D of the service comprises. Contained in the second transmission signal S2 is also another transmission power information SI ', by means of which a Exploitation of for the second transmission signal S2 used transmission power in terms a maximum available Transmission power of the second base station BS2 is signaled. To this Way, the transmission power of the second transmission signal S2 in the second radio cell FZ2 are controlled in the same way as this before for the Transmission power of the first transmission signal in the first radio cell FZ2 has been described.

Of the first subscriber station is now either dedicated from the first Base station BS1 or the second base station BS2 informed that the data D of the service by means of the second transmission signal S2 in the second radio cell FZ2 are sent, or the subscriber station MS1 provides the transmission of the data D of the service by means of the second Transmitting signal S2 itself by listening of multicast channels the second radio cell FZ2 fixed. The first subscriber station MS1 receives below the data D of the service both by means of the first transmission signal S1 in the first radio cell FZ1 and by means of the second signal S2 in the second radio cell FZ2, combines the first and second Transmit signal S1, S2 and decodes the data D of the service based of the combined transmission signal. Leaves the transmission power of the first transmission signal S1 in the first Do not increase the radio cell further, the first subscriber station MS1 may have corresponding control signals TPC also in the second radio cell FZ2 to the second base station BS2 send, so that the transmission power of the second transmission signal S2 is increased.

The first subscriber station MS1 terminates the reception of the first transmission signal S1 in the first radio cell FZ2, for example, if a combination the first transmission signal S1 and the second transmission signal S2 with respect to one sole reception of the second transmission signal S2 in the second radio cell FZ2 no improvement of the reception quality or the error rate at the Decoding brings. In this case, the first subscriber station changes MS1 from the first radio cell FZ1 into the second radio cell FZ2 and receives the data D of the service only by means of the second transmission signal S2.

The Transmission power control of a base station may advantageously be formed such that a base station BS1, BS2 their transmission power successively for example, in fixed predetermined steps, as long as it does not receive control signals from subscriber stations that an increase in the Request transmission power. It can also be provided that the sending of data of a service by means of a transmission signal if over one given no period of time to increase the control signals Transmission power to be received.

Have the Base stations BS1, BS2 via directional antennas, can the data D of the service also targeted in the direction of the subscriber stations MS1, MS2 are radiated by the directions from which each Control signals TPC, TPC 'received Be used to the emission directions for sending of the first transmission signal S1 and the second transmission signal S2. Since it can happen that not all subscriber stations are continuous send appropriate control signals, it is beneficial if the beam shaping a base station changes slowly over time, i. it's an advantage a temporal averaging over to receive received control signals or their reception directions.

By using transmit power control in a point-to-multipoint Multicast operation during transmission of data of a service (multicast service) and by introducing a Limit, when it reaches or exceeds a subscriber station the alternative or additional Receiving data of a service received in the first radio cell in the second radio cell or first the transferring the data of the service in the second radio cell is requested achieved to receive data of a service in the second radio cell can be before there is an interruption of reception due to lack of reception quality comes in the first radio cell.

The use of point-to-point connections for transmitting data of a service, which are provided for a plurality of subscriber stations, is no longer necessary, as well as the radio communication system described here Point-to-multipoint operation with a minimum required transmit power gets along and a radio cell change is possible without interruption. Multicast services, which are intended for reception by a plurality of subscriber stations, can therefore be transported at the protocol level, in principle in an IP multicast mode (IP: Internet Protocol), for example, and processed in such a way that the data of the services is transmitted in point-to-point. Multipoint multicast operation can be broadcast. Multicast services thus occupy only one radio resource in such a radio communication system and the downlink transmission signals are identical for all subscriber stations.

Claims (13)

Method for operating a first receiving station (MS1) in a radio communication system in which a data (D) of a service comprises a first transmission signal (S1) from a transmitting station (BS1) in a first radio cell (FZ1) via an air interface simultaneously to the first receiving station (MS1) and at least one second receiving station (MS2) is sent, wherein the transmitting station (BS1) for transmitting the first transmission signal (S1) is given a maximum usable transmission power, characterized in that the first receiving station (MS1) from the transmitting station (BS1) receives a transmission power information (SI), which can be deduced whether a threshold value of the transmission power has already been reached or is exceeded by increasing the transmission power of the first transmission signal (S1). Method according to claim 1, characterized in that the first receiving station (MS1) of the transmitting station (BS1) signals (TPC) the for to increase the transmission power used in the first transmission signal (S1) if a reception quality of the first determined by the first receiving station (MS1) Transmission signal (S1) is less than a minimum value of the reception quality and if the limit value of the transmission power has not yet been reached or by increasing the transmission power is not exceeded becomes. Method according to claim 1 or 2, characterized that the first receiving station (MS1) checks whether in a second radio cell (FZ2) is a second comprehensive data (D) of the service Transmission signal (S2) is sent, if one of the first receiving station (MS1) determined reception quality of the first transmission signal (S1) is less than a minimum value of reception quality and if the limit value of the transmission power has been reached or by increasing exceeded the transmission power becomes. Method according to claim 3, characterized the first receiving station (MS1) sends a message (NA) to the radio communication system sends by means of which the transmission of the Data (D) of the service comprising the second transmission signal (S2) in the second radio cell (FZ2) is requested. Method according to one of claims 3 or 4, characterized the first receiving station (MS1) transmits the first transmission signal (S1) from the first radio cell (FZ1) and the second transmission signal (S2) the second radio cell (FZ2) receives and both transmit signals (S1, S2) before or after their decoding combined to detect the data (D) of the service. Method according to one of claims 3 or 4, characterized that the first receiving station (MS1) to receive the second Transmission signal (S2) from the first radio cell (FZ1) in the second radio cell (FZ2) changes, if or as soon as the second transmission signal (S2) in the second radio cell (FZ2) is sent. Method according to one of the preceding claims, characterized characterized in that the transmission power information (SI) is a current used transmission power and / or utilization of the transmission power removable with respect to the maximum usable transmission power are. Method according to one of the preceding claims, characterized in that the limit value of the transmission power is a limit value for one currently used transmit power or a limit of utilization the transmission power in terms of the maximum usable transmission power is used. Method according to one of the preceding claims, characterized characterized in that the first transmission signal (S1) additionally the Transmission power information (SI). Method for operating a transmitting station (BS1) in a radio communication system in which a data (D) of a service comprehensive first transmission signal (S1) from the transmitting station (BS1) via a Air interface in a first radio cell (FZ1) at the same time a first receiving station (MS1) and at least a second one Receiving Station (MS2) are sent, the sending station (BS1) for transmitting the first transmission signal (S1) a maximum usable Transmission power is given, characterized in that the sending Station (S1) transmission power information (SI) to the first receiving Station (MS1) and the second receiving station (MS2) that sends It can be deduced whether a limit value of the transmission power has already been reached was or by an increase the transmission power of the first transmission signal is exceeded. Receiving station (MS1) for a radio communication system, with means for performing the Method according to one of the claims 1 to 9. Transmitting station (BS1) for a radio communication system, with means for performing the method according to claim 10. Radio communication system with at least one receiving Station (MS1) and a transmitting station (BS1) according to claims 11 and 12.