RU2122283C1 - Method for suppression of structural noise in receiver of base station in communication system with code channel separation and device which implements said method - Google Patents

Abstract

FIELD: radio communications. SUBSTANCE: method involves detection of structural noise in receiver of extraneous input signal by means of assessment of structural noise using detection of information signal in extraneous input, which is encoded if necessary, and modulation by this signal of reference wide-band signal of same receiver. Device for suppression of structural noise has two receivers: main receiver 5 and extraneous input receiver 7. First terminal of extraneous input receiver 7 controls commutator 4, which provides connection of main receiver 5 to device input either directly or through serial circuit of delay gate 6 and rejection unit 3. Second terminal of this unit is connected to terminal of extraneous input receiver 7; another one - to output of encoder 1. Input of encoder 1 is connected to terminal of extraneous input receiver 7. EFFECT: increased stability to noise. 2 dwg

Description

 The invention relates to techniques for radio communications and may find application in communication systems with broadband signals.

 Known methods of suppressing structural interference described in AS USSR N 1338078, patents N 2000664, 2000665, in which an interference estimate is formed by eliminating their input mixture of a useful signal with subsequent compensation by it for interference in the input mixture.

 The disadvantage of this method of suppressing structural interference is the small degree of suppression of interference, due to hardware limitations on the equalization of compensated interference in amplitude and phase in a wide frequency range.

 The closest in technical essence to the proposed is a method of suppressing structural interference, implemented in the patent of the Russian Federation N 2001525, H 04 B 1/10. This method is based on the detection and separation of powerful structural noise from the input mixture from the input mixture, its rejection using its pseudo-random sequence extracted from the input mixture as a reference from the input mixture by cutting a useful broadband signal from it, limiting the result of the rejection with its subsequent phase detection, when this input mixture is delayed for the time spent on the allocation of structural interference.

 The device (Fig. 1) contains a series-connected first multiplier 1, a notch filter 7, a second multiplier 8, a limiter 4, a phase detector 5, a receiving device 19. One output of the receiver 19 is connected to the second input of the first multiplier 1, the first input of which is connected to the input the entire device, through the delay element 9 with the second input of the second multiplier 8, and through the delay element 12 with the second input of the receiver 19. The input of the device through the delay element 10 is connected to the input of the notch unit 20, the second input of which is connected to the output the house of the phase detector 5. The output of the notch unit 20 is connected to the second input of the switch 16, the first input of which is connected to the input of the device, and the third to the output of the receiver 19. The output of the switch 16 is connected to one of the inputs of the receiver 19.

 The disadvantage of this method of suppressing structural interference is its low noise immunity when used to suppress structural interference in base station receivers of communication systems with code division multiplexing, which is caused by the use of a noisy reference signal extracted from the input mixture during rejection interference.

To eliminate this drawback in the method, which consists in detecting powerful structural interference, rejecting it using a reference signal, which is an estimate of the structural interference, delaying the input mixture by time τ, structural interference is detected in the receiver of the interfering signal of the base station, and to form an estimate of the structural interference an information signal is isolated by an interfering signal receiver, which is encoded if necessary, and a reference broadband signal of the same reception is modulated with this information signal Nick, time τ is chosen from the condition τ = τ _j + τ _o , where τ _j is the time spent on the selection of the information signal, τ _o is the time spent on the formation of the reference signal.

 And in the device containing the receiver, the input of which is connected to the output of the switch, the first input of which is connected to the input of the device directly, and the second through the delay element and the rejection unit connected in series, the interfering signal receiver, modulator and encoder are introduced, the first output of the interfering signal receiver connected to the third input of the switch, the second to the input of the modulator, the third to the input of the encoder, the output of the encoder connected to the second input of the modulator, the output of which is connected to the input of the notch block.

The structural diagram of a device for implementing the proposed method is presented in FIG. 2, where indicated:
1 - encoder
2 - modulator
3 - block rejection,
4 - switch
5 - receiver
6, 8 - delay elements,
7 - receiver interfering signal.

 The input of the device is connected directly to the first input of the switch 4, and the delay element 6 and the notch unit 3 are connected in series with the third input. The third input of the switch 4 is connected to the output of the interfering signal receiver 7. The output of the switch 4 is connected to the input of the receiver 5. One of the outputs of the receiver the interfering signal 7 through the delay element 8 is connected to the input of the modulator 2, the output of which is connected to the input of the notch unit 3. The second input of the modulator 2 is connected to the output of the encoder 1, the input of which is connected to the output of the interfering receiver Ignala 7.

 The device operates as follows.

 The input mixture enters the first input of the switch 4 directly, and at its second input through a series-connected delay element 6 and a notch unit 3. The signal from the output of the switch 4 is fed to the input of the receiver 5 of the base station (BS). The switch 4 is controlled by the command generated in the receiver of the interfering signal 7. The receiver 7 is a part of the BS and receives the signal from a subscriber station (AC) located close to the BS, so the signal it receives is interfering with the receiver 5. In the case when the signal level received by the receiver of the interfering signal 7 from the corresponding subscriber station exceeds the permissible value and has an interfering effect on the reception of the signal by the receiver 5 from its AS, the receiver of the interfering signal 7 sends a command to the switch 4, by Torah entry to main receiver 5 is connected a second input of the switch 4. In this case, the input mixture is fed to the input of the receiver 5 after the rejection of its powerful structural interference from the interfering AC.

 The notch is performed using the reference signal, which is a copy of the signal emitted by the interfering speaker. The reference signal for the notch unit 3 is formed as follows.

 The reference BAS of the interfering signal receiver 7 and the information signal allocated by it are supplied to the modulator 2, while the information signal is encoded in the encoder 1 in the same way as is done in the transmitter of the interfering speaker.

 The delay element 6 is selected so as to provide a delay of the input mixture for the time spent in the interfering signal receiver 7 to extract the information signal and to generate the reference signal in blocks 1 and 2. The delay element 8 is adjustable and is used, if necessary, to provide certain time ratios between the encoded information signal and the period of the SRP.

 Thus, the claimed method and device implementing it provide a rejection of structural interference using its copy, formed in the receiver of the interfering signal and cleared of interference. The use of a noisy copy of structural interference provides a more efficient rejection of it, which provides increased noise immunity of receiving signals at the base station from remote subscribers in the presence of powerful interfering signals from closely spaced speakers. Using the inventive method and device provides the opportunity to increase the dynamic range of a communication system with code division of channels due to the fact that signals from speakers located close to the base station are rejected at the inputs of receivers receiving signals from remote speakers.

Claims (2)

1. The method of suppressing structural interference in the receiver of the base station of the communication system with code division multiplexing, which consists in detecting a powerful structural interference, rejecting it using a reference signal, which is an estimate of the structural interference, the delay of the input mixture by time τ, characterized in that the structural interference detect in the receiver of the interfering signal of the base station, and to form an estimate of the structural interference, an information signal is allocated by the receiver of the interfering signal, which is encoded, and this information onnym shirokolosny signal modulated reference signal of the same receiver, the time τ is selected from the relation
τ = τ _j + τ _o ,
where τ _j is the time spent on the selection of the information signal in the receiver of the interfering signal;
τ _o - time spent on the formation of the reference signal.  2. A device for suppressing structural interference in a base station receiver with code division multiplexing, comprising a receiver, the input of which is connected to the output of the switch, the first input of which is connected to the input of the device directly, and the second through a series-connected delay element and a notch unit, characterized in that an interfering signal receiver, a modulator, an encoder and a second delay element, wherein the first output of the interfering signal receiver is connected to the third input of the switch, the second through the second delay element - with the first input of the modulator, the third with the input of the encoder, the output of the encoder is connected to the second input of the modulator, the output of which is connected to the input of the block.

Images