JP3194316B2 - Mobile communication system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a centralized control station in which modems and frequency converters are centrally arranged, and a mobile station that transmits and receives data via a radio line and is connected to the centralized control station via a transmission line. The present invention relates to a mobile communication system provided with a base station, wherein a central control station dynamically switches a connection with a wireless base station.

[0002]

2. Description of the Related Art Among mobile communication systems, a centralized control base station system connects a centralized control station, in which a modem and a frequency converter are centrally arranged, to each radio base station by a transmission line, and connects the radio base station to the radio base station. In this method, a modulated output signal transmitted / received to / from each mobile station in the zone of the wireless base station is transmitted from the central control station to the wireless base station via a transmission line, or received from the wireless base station.

FIG. 6 is a system configuration diagram showing a configuration of a transmission system (a system in which a signal goes from a central control station to a mobile station) of a conventional mobile communication system using a centralized control base station system. As shown in the figure, the central control station 300 is connected to each radio base station 310 via each transmission line 4. The central control station 300 includes a plurality of modulators 1 for modulating a transmission signal from an exchange or the like, a frequency converter 2 for converting a modulated output signal from each modulator to a radio frequency, and a frequency converter 2 An electro-optical converter 3 for converting the output of the above into an optical signal is arranged. Here, the transmission path 4 is assumed to be an optical transmission path.

Each radio base station 310 includes an optical-to-electrical converter 5 for converting an optical signal from the transmission path 4 into an electric signal, a transmission amplifier 7 for amplifying the output of the optical-to-electrical converter 5, and a transmission amplifier 7 , An antenna 9 for introducing one output of the branch circuit 8, and a level detector 10 for detecting a transmission level from the other output of the branch circuit 8.
And a control circuit 6 for controlling the gain of the transmission amplifier 7 based on the detection output of the level detector 10.

Next, the operation will be described. Central control station 3
At 00, the modulated output signal of the modulator 1 is converted by the corresponding frequency converter 2 into any of the radio frequencies F1 to Fn.
The modulated wave from the frequency converter 2 is converted to the electric-optical converter 3 and then transmitted to the wireless base station 310 via the transmission line 4. In the radio base station 310, the modulated wave is converted into an electric signal by the optical-electrical converter 5, and then amplified by the transmission amplifier 7 to a required transmission power. Then, the amplified signal is transmitted from the antenna 9 to each mobile station in the zone.

Here, the level detector 10 includes a branch circuit 8
The control circuit 6 controls the gain of the transmission amplifier 7 so that the transmission level of the divided transmission signal is maintained at a predetermined constant value. Therefore, the transmission power of the multiplex of the plurality of modulated output signals is controlled to be constant.

[0007] The signal transmitted from the mobile station is transmitted to the antenna 9.
, Is amplified by a receiving amplifier (not shown) of the radio base station 310, is converted into an optical signal by an electric-optical converter (not shown), and is transmitted to the central control station 300 by the uplink of the transmission line 4. Transmitted.

[0008]

Since the conventional mobile communication system is configured as described above, the radio base station 310 refers to the output level of the transmission amplifier 7 to generate a plurality of multiplexed transmission signals. Is controlled so that the transmission power of the transmission amplifier 7 becomes constant. Therefore, when the number of modulated output signals to be transmitted is a fixed number, that is, when a plurality of fixed number of modulated output signals are commonly amplified, there is not much problem. However, there is a problem in the case where the central control station 300 uses a system in which the modem output is dynamically switched and connected to an arbitrary wireless base station 310. In such a system, the number of modulated output signals amplified by the transmission amplifier 7 of the wireless base station 310 changes, so that the transmission power per wave changes. Therefore, when using the control circuit 6 for controlling the transmission power of the multiplexed signal to be constant, in order to keep the transmission power of each modulated output signal constant, the level detection is performed according to the change in the number of signals. There is a problem that the sensitivity of the device 10 must be adjusted, and transmission power control becomes complicated.

Therefore, the present invention realizes transmission power control in a radio base station independent of the number of modulation output signals, and enables a centralized control station to dynamically switch a modem output to connect to an arbitrary radio base station. It is another object of the present invention to provide a mobile communication system that can easily control transmission power. Furthermore, a mobile communication system capable of accurately detecting a reception level of a signal from a mobile station without being affected by a loss in a transmission path between a radio base station and a central control station is provided. With the goal.

[0010]

According to the mobile communication system according to the present invention, a signal for each line from a switching network is individually transmitted.
Modulating and demodulating and converting to different radio frequencies
Modulation that the frequency converter is centrally located, the frequency-converted
Distributes the signal to any radio base station and sends it to each radio base station.
A central control station having a distributing / combining means for combining one or more modulated signals, and transmitting / receiving to / from each mobile station in the zone, and transmitting / receiving signals to / from each mobile station via a transmission path. A mobile communication system comprising: each radio base station transmitting to and from a centralized control station, wherein the centralized control station comprises :
The pilot signal generated response therewith modulation after dividing and combining
Pi to output a synthesized signal obtained by synthesizing the signal to the radio base station
A wireless base station that extracts a pilot signal from a combined signal input via a transmission line and detects the level of the pilot signal; And control means for controlling the gain of the transmission amplifier for amplifying the signal to the station.

In the mobile communication system according to the second aspect of the invention, the radio base station extracts a radio frequency signal of a control channel in a TDMA frame from a signal from a central control station input via a transmission line. And a control means for controlling the gain of a transmission amplifier for amplifying a signal to the mobile station according to the level detected by the level detection means.

In the mobile communication system according to the third aspect of the present invention, the radio base station generates a pilot signal and combines the pilot signal with signals received from one or more mobile stations. A central control station that extracts a pilot signal from the composite signal input via the transmission line and detects the level of the pilot signal; and Amplitude adjusting means for adjusting the amplitude of the received signal, and receiving level detecting means for detecting a received signal level of the received signal whose amplitude has been adjusted by the amplitude adjusting means.

[0013]

In the mobile communication system according to the first or second aspect of the present invention, when controlling the transmission power of the transmission signal, the radio base station uses the amplified transmission signal based on the amplified level. Rather than controlling, control is performed based on the level of one pilot signal combined with the combined transmission signal or one wave of the control channel. That is, the transmission power of the multiplexed transmission signal is controlled by keeping the level of a certain wave constant, so that even if the number of multiplexed modulation output signals fluctuates, the transmission per modulation output signal is always performed. Acts to keep the power constant.

Further, in the mobile communication system according to the third aspect of the present invention, the central control station adjusts the amplitude of a signal received from the mobile station based on the level of the pilot signal generated by the radio base station. A reception signal in which a loss in a transmission path between the control station and the central control station is compensated is supplied to a reception level detection unit.

[0015]

FIG. 1 is a system configuration diagram showing a configuration of a transmission system of a mobile communication system according to a first embodiment of the present invention. As shown in the figure, in this system, a central control station 30 includes a 1-input / n-output switch 19 for selecting a frequency-converted modulated wave and a combiner for combining the modulated waves from each 1-input / n-output switch 19. 20 is provided.

The central control station 30 has an amplitude adjuster 15 for adjusting the amplitude of the signal of the frequency fi (i = 1 / n) output from the signal generator 14, and an amplitude adjuster 15 for the output of the synthesizer 20.
And a combiner 16 for frequency-multiplexing the output of the above to output to the electro-optical converter 3.

The radio base station 31 is provided with a filter 18 for passing a pilot signal between the branch circuit 8 and the level detector 10, and a pilot signal between the branch circuit 8 and the antenna 9. Filter 17 for removal
Is provided.

Here, the synthesizing means for generating a pilot signal, synthesizing the pilot signal with the modulated output signal and outputting a synthesized signal is composed of a signal generator 14, an amplitude adjuster 15 and a synthesizer 16. The level detecting means for extracting the pilot signal from the synthesized signal and detecting the level thereof includes a filter 18 and a level detector 10.
The control means includes a control circuit 6.

Next, the operation will be described. Central control station 3
At 0, the modulated output signal of the modulator 1 is converted by the corresponding frequency converter 2 into any of the radio frequencies F1 to Fn. Then, the 1-input / n-output switch 19 switches the modulated wave from each frequency converter 2. Distribution control by each one-input n-output switch 19 is performed by a distribution control circuit 52. The combiner 20 combines the modulated waves that have been switched and input.

The output of the synthesizer 20 is frequency-multiplexed by the synthesizer 16 with the output of the amplitude adjuster 16. The amplitude adjuster 16 adjusts the amplitude of the signal output from the signal generator 14 to a predetermined constant value, and outputs the same as a pilot signal. Then, the output of the combiner 16 is converted into an optical signal by the electro-optical converter 3, and then transmitted to the wireless base station 31 via the transmission line 4.

In the radio base station 31, a combined signal of the modulated wave and the pilot signal, which has been converted into an electric signal by the optical-electrical converter 5, is amplified by the transmission amplifier 7 and then input to the branch circuit 8. One output of the branch circuit 8 is input to the filter 17. The filter 17 extracts only the component of the modulated wave and supplies it to the antenna 9.

The other output of the branch circuit 8 is connected to a filter 18
To enter. The filter 18 extracts only the component of the pilot signal and supplies it to the level detector 10. Therefore, the level detector 10 detects the level of the pilot signal transmitted through the transmission line 4 amplified by the transmission amplifier 7. Then, the control circuit 6 controls the gain of the transmission amplifier 7 so that the level detected by the level detector 10 becomes constant. As described above, in this case, unlike the conventional case, the transmission power control is not performed based on the level of a specific pilot signal, but based on the level of the entire transmission signal output from the transmission amplifier 7. It is carried out.

FIG. 2 is a system configuration diagram showing a configuration of a mobile communication system according to a second embodiment of the present invention. In this embodiment, the configuration of the central control station 30 is the same as the configuration shown in FIG. In the wireless base station 31, the combined signal of the modulated wave and the pilot signal, which have been converted into electric signals in the optical-electrical converter 5, is first input to the branch circuit 8. One output of the branch circuit 8 is input to the filter 17. Filter 17
Extracts only the component of the modulated wave and supplies it to the transmission amplifier 7. The transmission signal amplified by the transmission amplifier 7 is supplied to the antenna 9.

The other output of the branch circuit 8 is connected to a filter 18
To enter. The filter 18 extracts only the component of the pilot signal and supplies it to the level detector 10. Therefore, the level detector 10 detects the level of the pilot signal transmitted through the transmission path 4. That is, in this case, unlike the first embodiment, the level detector 10
Detects the level of the pilot signal transmitted through the transmission path 4 as it is (without passing through the transmission amplifier 7).
Therefore, the loss in the transmission path 4 can be detected. Then, the control circuit 6 controls the gain of the transmission amplifier 7 so that the level detected by the level detector 10 becomes constant.

FIG. 3 is a system configuration diagram showing a configuration of a mobile communication system according to a third embodiment of the present invention. In the case of TDMA mobile communication, as shown in FIG. 4, a frame includes a control channel and a communication channel. The control channel of the radio frequency f ₀ is one of the bursts.
And control a plurality of mobile stations. The signal of the traffic channel may be a plurality of signals simultaneously being frequency-multiplexed is transmitted, in the control channel, only one wave radio frequency f ₀ is transmitted. Therefore, a signal of the control channel can be used as a pilot signal.

When the control channel signal is used as a pilot signal, as shown in FIG.
In the above, the signal generator 14, the amplitude adjuster 15, and the combiner 16 for the pilot signal are not required. In this case, in the wireless base station 31, a holding circuit 25 is added between the filter 18 and the level detector 10 in the configuration shown in FIG. Therefore, in this case, the level detecting means for extracting the radio frequency signal of the control channel and detecting the level is composed of the filter 18, the holding circuit 25 and the level detector 10.

The holding circuit 25 outputs the output of the filter 18
It samples at the control channel transmission timing and holds it. The level detector 10 detects the output of the holding circuit 25, that is, the level of the control channel signal. And
The control circuit 6 controls the gain of the transmission amplifier 7 so that the level detected by the level detector 10 becomes constant. As described above, also when the level of the control channel is used as the level of the pilot signal, as in the case of the first embodiment,
With one specific wave, transmission power control can be performed when the transmission amplifier 7 commonly amplifies a plurality of modulated waves.

FIG. 5 is a system configuration diagram showing a configuration of a mobile communication system receiving system (a system in which a signal travels from a mobile station to a central control station) according to a fourth embodiment of the present invention. In the receiving system,
In the centralized control station 30, a reception distribution switch 51, a frequency converter 2 for frequency-converting a reception signal from the reception distribution switch 51, and a demodulator 24 for demodulating an output of the frequency converter 2 are arranged.

In this case, a signal generator 14 and an amplitude adjuster 15 for generating a pilot signal, and a synthesizer 16 for synthesizing the received signal amplified by the receiving amplifier 21 and the pilot signal are provided to the radio base station 31. Are provided. The central control station 30 includes, between the optical-electrical converter 5 and the reception distribution switch 51, a branch circuit 8 and a filter 17 for extracting a reception signal from the mobile station from one output of the branch circuit 8. , An amplitude adjuster 26 for adjusting the amplitude of the output of the filter 17, a filter 18 for extracting a pilot signal from the other output of the branch circuit 8, a level detector 10 for detecting the level of the pilot signal, and a level detector 10. And a control circuit 6 for controlling the gain of the amplitude adjuster 26 on the basis of the detected output of the control circuit 6.

Next, the operation will be described. Wireless base station 3
1, the receiving amplifier 21 received by the antenna 9
The received signal amplified in is input to the combiner 16. Also,
The pilot signal is output from an amplitude adjuster 15 that adjusts the amplitude of the signal generated by the signal generator 14. Synthesizer 16
Combines the received signal from the receiving amplifier 21 and the pilot signal. The combined signal from the combiner 16 is converted into an optical signal by the electro-optical converter 3 and then transmitted to the central control station 30 via the transmission line 4.

In the central control station 30, the combined signal converted into an electric signal by the optical-electrical converter 5 is branched by the branch circuit 8. One of the branches is supplied to the filter 17. The filter 17 extracts a component of the received signal and outputs it to the amplitude adjuster 26. On the other hand, the other of the branches branched by the branch circuit 8 is supplied to the filter 18. The filter 18 extracts a component of the pilot signal and outputs it to the level detector 10. The level detector 10 detects the level and outputs it to the control circuit 6.

The control circuit 6 controls the gain of the amplitude adjuster 26 so that the level detected by the level detector 10 becomes a predetermined constant value. That is, the amplitude adjuster 26 adjusts the amplitude of the received signal according to the instruction of the control circuit 6, and outputs the adjusted signal to the reception distribution switch 51. Receive distribution switch 51
Performs switching under the control of the distribution control circuit 52, and supplies the received signal whose amplitude has been adjusted to the frequency converter 2. The frequency converter 2 converts a received signal of a radio frequency into a signal of an original frequency band, and the demodulator 24 performs a demodulation process on the frequency-converted signal. Further, the reception level detector 27 measures the level of the signal transmitted by the mobile station from the signal input to the demodulator 24.

As described above, since the level of the received signal is adjusted based on the level of the pilot signal generated by the radio base station 31 and combined with the received signal and passed through the transmission path 4, the transmission path of the received signal is Losses in the system can be compensated. Therefore, the accuracy of the signal level measurement by the reception level detector 27 is improved.

It should be noted that the pilot signal extraction system and the received signal level adjustment system in the central control station 30 may be arranged after the reception distribution switch 51. In that case, it is possible to compensate for the loss in the transmission path system and the reception distribution switch 51.

[0035]

As described above, according to the first aspect of the present invention, a mobile communication system is used in a radio base station based on the level of one multiplexed transmission signal and one pilot signal combined. Since the transmission power of the signal transmitted to the mobile station is controlled, the transmission power per modulated output signal is always constant even when the number of multiplexed modulated output signals changes dynamically. There is an effect that can provide what can be kept.

According to the second aspect of the present invention, the mobile communication system has a configuration in which the radio base station controls the transmission power of a signal transmitted to the mobile station based on the level of one wave of the control channel. Therefore, the present invention has the effect of the invention of claim 1 and has the effect of simplifying the configuration of the central control station as compared with the configuration of the invention of claim 1.

According to the third aspect of the present invention, in the mobile communication system, the centralized control station adjusts the amplitude of the signal received from the mobile station based on the level of the pilot signal generated by the radio base station. Therefore, it is possible to supply the reception level detecting means with a received signal in which the loss of the transmission path between the radio base station and the central control station is compensated, and it does not depend on the transmission path loss or the transmission path loss and the distribution switch. There is an effect that it is possible to provide a device capable of measuring the reception level.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram showing a configuration of a mobile communication system according to a first embodiment of the present invention.

FIG. 2 is a system configuration diagram showing a configuration of a mobile communication system according to a second embodiment of the present invention.

FIG. 3 is a system configuration diagram showing a configuration of a mobile communication system according to a third embodiment of the present invention.

FIG. 4 is an explanatory diagram showing a frame configuration of a TDMA communication system.

FIG. 5 is a system configuration diagram showing a configuration of a mobile communication system according to a fourth embodiment of the present invention.

FIG. 6 is a system configuration diagram showing a configuration of a conventional mobile communication system.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Modulator 2 Frequency converter 4 Transmission line 6 Control circuit 7 Transmission amplifier 10 Level detector 14 Signal generator 15 Amplitude adjuster 16 Synthesizer 17 Filter 18 Filter 24 Demodulator 25 Holding circuit 26 Amplitude adjuster 27 Receive level detector

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04B ^7/ 24-7/26 102 H04Q 7/00-7/38 H04B 10/00-10/28

Claims (3)

(57) [Claims] 1. A signal for each line from a switching network is modulated.
And frequency converters for converting to different radio frequencies are centrally arranged, and the frequency-converted modulation is performed.
Distributes the signal to any radio base station,
Has distribution combining means for combining one or more modulated signals to the station
A mobile station comprising: a centralized control station that transmits and receives signals to and from each mobile station in the zone, and transmits and receives signals to and from each mobile station to and from the centralized control station via a transmission path. in the communication system, the centralized control station, the pilot signal generated to the corresponding respective radio base stations, therewith to output a synthesized signal obtained by synthesizing the modulated signal after the dividing and combining to the radio base station pilot
Signal synthesizing means , wherein the radio base station extracts the pilot signal from the synthesized signal input via the transmission path and detects a level of the pilot signal, and according to a level detected by the level detecting means Control means for controlling a gain of a transmission amplifier for amplifying a signal to the mobile station. 2. Modulation of each signal from a switching network for each line.
And frequency converters for converting to different radio frequencies are centrally arranged, and the frequency-converted modulation is performed.
Distributes the signal to any radio base station,
Has distribution combining means for combining one or more modulated signals to the station
A centralized control station and the mobile stations in the zone and the control channel used for call control are
TDMA communication assigned to a fixed slot in a frame
While performing transmission and reception using a system, in a mobile communication system including each radio base station that transmits a transmission signal between each mobile station and the central control station by a transmission path, the radio base station, A level detecting means for extracting a radio frequency signal of a control channel in a TDMA frame from a signal from the central control station input via the transmission line and detecting the level, and according to a level detected by the level detecting means. Control means for controlling a gain of a transmission amplifier for amplifying a signal to the mobile station. 3. A centralized control station in which modems and frequency converters are centrally arranged, and transmits / receives to / from each mobile station in a zone, and transmits / receives a signal to / from each mobile station via a transmission line. in the mobile communication system and a respective radio base station for transmitting to and from the radio base station generates a pilot signal, therewith 1
The central control station extracts the pilot signal from the combined signal input via the transmission line, and combines the received signal with the received signal from the mobile station to output a combined signal. Level detecting means for detecting the level of the received signal, amplitude adjusting means for adjusting the amplitude of the received signal according to the level detected by the level detecting means, and receiving level for detecting the received signal level of the received signal whose amplitude has been adjusted by the amplitude adjusting means. A mobile communication system comprising: a detection unit.