JP2001103545A - Optical wireless fusion transmission system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an optical wireless fusion transmission system that can surely prevent a sneak path of an RF signal between an uplink and a downlink so as to attain high quality communication. SOLUTION: In the case of an uplink from a mobile station D to a wireless base station A, an RF signal from a radio device 122 of the mobile station D is converted by a frequency converter 123 and sent from a transmission antenna 124. The transmitted radio wave is received by a reception antenna 109 of a local wireless station C, an amplifier 110 amplifies the received radio wave and the RF signal modulates an optical signal from an incident light source 111 at an electro/optic(E/O) converter 112, the RF signal is modulated by using the light for a carrier signal and the modulated signal is transmitted through an optical fiber 113 to the wireless base station A, where the RF signal is demodulated and a frequency converter 115 converts the frequency of the RF signal again so as to attain communication with a wireless unit 101.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for modulating light from a radio base station with a radio (RF) signal, transmitting the modulated light through an optical fiber, converting the light into radio waves at a local radio station, and communicating with a mobile station. The present invention relates to a combined optical-wireless transmission system.

[0002]

2. Description of the Related Art Conventionally, there have been the following techniques in such a field.

FIG. 3 is a configuration diagram of such a conventional optical-wireless fusion transmission system.

[0004] As shown in this figure, this optical / wireless integrated transmission system comprises a radio base station A, an optical fiber transmission line B, a local radio station (access point station: AP station) C, and a local radio station C. Mobile station D that performs the communication of.

The wireless base station A has a wireless device 1 such as a PHS, a circulator 2, a laser diode (LD) 3 as an incident light source, and an electric / optical device that directly modulates light from the wireless device 1 by a wireless (RF) signal. An (E / O) converter 4 and an optical / electrical (O / E) converter 16 are provided. The optical fiber transmission line B is composed of low-loss optical fibers 5 and 15.

The local radio station C includes an optical / electrical (O / E) converter 6, an amplifier 7, a transmitting antenna 8, a receiving antenna 11, an amplifier 12, and an incident light source (LD) connected to the optical fiber 5. ) 13 and an electric / optical (E / O) converter 14.

Further, the mobile station D has a receiving antenna 9A and a transmitting antenna 9B, and a radio 10 connected to these antennas.

Therefore, in the case of a downlink from the radio base station A to the mobile station D, an optical signal is modulated by an electric / optical (E / O) converter 4 by an RF signal from the radio 1. The optical signal is transmitted as a carrier signal through the optical fiber transmission line B, and the modulated optical signal is demodulated by the optical / electrical (O / E) converter 6 at the local wireless station C to become an RF signal. The signal is amplified by the amplifier 7 and received by the receiving antenna 9A of the mobile station D from the transmitting antenna 8 to enable communication with the wireless device 10.

On the other hand, in the case of the uplink from the mobile station D to the radio base station A, the RF from the radio 10 of the mobile station D
The signal is transmitted by the transmitting antenna 9B and transmitted to the local radio station C.
The optical signal from the incident light source 13 is modulated by an electric / optical (E / O) converter 14 using the RF signal, and the carrier signal is converted to a carrier signal. Is transmitted to the wireless base station A via the optical fiber 15, demodulated by the optical / electrical (O / E) converter 16, and can communicate with the wireless device 1.

[0010]

SUMMARY OF THE INVENTION However, PHS
In the optical-wireless fusion transmission system described above, in which the same frequency is switched between transmission and reception to transmit the signal of the radio device used, when the uplink and downlink frequencies are the same, the wraparound between the transmission and reception antennas There is a problem that the RF signal oscillates due to a leak or a circulator leak.

SUMMARY OF THE INVENTION It is an object of the present invention to eliminate the above-mentioned problems and to provide an optical-wireless integrated transmission system capable of performing high-quality communication by reliably preventing the sneaking of uplink and downlink RF signals. And

[0012]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides: [1] In a combined optical-wireless transmission system, transmission of a local radio station in a downlink from a radio base station to a mobile station. A frequency conversion means for making the transmission frequency from the trusted antenna different from the reception frequency from the receiving antenna of the local radio station in the uplink from the mobile station to the radio base station, so that bidirectional communication is performed. It was done.

[2] The local radio station upstream of the antenna of the local radio station when downlinking from the radio base station to the mobile station, and of the local radio station when uplinking from the mobile station to the radio base station. An antenna switching device disposed downstream of the antenna is provided, and a transmission / reception switching signal of a wireless device of a wireless base station is transmitted to a local wireless station, and the antenna switching device is operated in synchronization with the transmission signal. is there.

[3] In the optical-wireless fusion transmission system according to the above [2], the antenna is a transmitting / receiving antenna.

[0015]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a block diagram of an optical wireless transmission system showing a first embodiment of the present invention.

In this figure, this optical-wireless integrated transmission system communicates with a radio base station A, an optical fiber transmission line B, a local radio station (access point station: AP station) C, and this local radio station C. Mobile station D to perform.

The wireless base station A includes a wireless device 101 such as a PHS, a circulator 102, a laser diode (LD) 103 as an incident light source, and an electric / optical device for directly modulating light by a radio (RF) signal from the wireless device 101. Light (E
/ O) converter 104, optical / electrical (O / E) converter 11
4. A frequency converter 115 is provided.

The optical fiber transmission line B comprises low-loss optical fibers 105 and 113.

Further, the local radio station C is connected to the optical fiber 10
5, an optical / electrical (O / E) converter 106, an amplifier 107, a transmitting antenna 108, and a receiving antenna 10
9 is provided. Further, the amplifier 110 and the incident light source (L
D) 111 and an electrical / optical (E / O) converter 112.

In the downlink (downlink), the mobile station D has a receiving antenna 121 and a radio 12
In the uplink (uplink), a radio device 122, an RF signal frequency converter 123, and a transmission antenna 124 are provided.

Therefore, in the case of a downlink from the radio base station A to the mobile station D, the light incident from the LD (incident light source) 103 is converted into electric / optical (E / O) by the RF signal from the radio 101. The light is transmitted as a carrier signal through the optical fiber 105 by modulation by the converter 104, and the modulated optical signal is converted by the optical / electric (O / E) converter 106 at the local wireless station C. The signal is demodulated into an RF signal, amplified by the amplifier 107, and transmitted from the transmitting antenna 108. The transmitted radio wave is received by the receiving antenna 121 of the mobile station D, and communicates with the wireless device 122.

On the other hand, in the case of the uplink from the mobile station D to the radio base station A, the R from the radio 122 of the mobile station D
The F signal is converted by the frequency converter 123 and transmitted from the transmitting antenna 124. The transmitted radio wave is received by the receiving antenna 109 of the local radio station C,
0, and the electric / optical (E)
By modulating the optical signal from the incident light source 111 with the / O) converter 112, the light is transmitted as a carrier signal to the wireless base station A via the optical fiber 113, and is converted into an optical / electrical (O / E) converter 114. The frequency is converted again by the frequency converter 115,
01 can be communicated with.

As described above, according to this embodiment, since the frequency of the uplink / downlink is changed, it is possible to reliably prevent the sneak of the RF signal as in the related art.

According to the above embodiment, the frequency of the uplink is changed to change the frequency of the uplink / downlink.

However, it goes without saying that the frequency of the downlink or the frequency of both the uplink and the downlink may be changed.

Next, a second embodiment of the present invention will be described.

FIG. 2 is a block diagram of an optical-wireless fusion transmission system showing a second embodiment of the present invention.

In this figure, this optical-wireless integrated transmission system communicates with a wireless base station A, an optical fiber transmission line B, a local wireless station (access point station: AP station) C, and this local wireless station C. Mobile station D to perform.

The wireless base station A includes a wireless device 201 such as a PHS, a circulator 202, a laser diode (LD) 203 as an incident light source, and an electric / optical device that directly modulates light with a wireless (RF) signal from the wireless device 201. Optical (E / O) converter 204, optical / electrical (O / E) converter 2
14 is provided.

The optical fiber transmission line B comprises low-loss optical fibers 205 and 213.

Further, the local radio station C is connected to the optical fiber 20.
5, an optical / electrical (O / E) converter 206, an amplifier 207, an antenna switch 208, a transmitting / receiving antenna 2
A 09 amplifier 210, an incident light source (LD) 211, and an electric / optical (E / O) converter 212 are provided.

In the downlink (downlink), the mobile station D has a receiving antenna 221 and a radio 22
2, and in the uplink (uplink), a wireless device 222 and a transmitting antenna 223 are provided.

Therefore, in the case of a downlink from the wireless base station A to the mobile station D, an LD (incident light source) is transmitted by an RF signal from the wireless device 201 via the circulator 202.
The optical signal from 203 is converted into an electric / optical (E / O) converter 204
, The light is transmitted as a carrier signal through the optical fiber 205, and the modulated optical signal is converted into an optical / electrical (O / E) signal at the local wireless station C.
The signal is demodulated by the converter 206 to become an RF signal, and is amplified by the amplifier 207.
, And the transmitted radio wave is received by the receiving antenna 221 of the mobile station D, and communicates with the wireless device 222.

On the other hand, in the case of the uplink from the mobile station D to the radio base station A, the R from the radio 222 of the mobile station D
The F signal is transmitted from the transmitting antenna 223. The transmission radio wave is received by the transmission / reception antenna 209 of the local radio station C, amplified by the amplifier 210 via the antenna switch 28, and converted into an electric / optical (E / E) signal by the RF signal.
O) The optical signal from the incident light source 211 is modulated by the converter 212, the light is transmitted as a carrier signal to the wireless base station A via the optical fiber 213, and the optical / electrical (O / E) converter 214 The demodulated RF signal can communicate with the wireless device 201 via the circulator 202.

Here, the radio (PH) of the radio base station A
S) The transmission / reception switching signal of 201 is transmitted to the local wireless station C, and the antenna switching unit 208 is operated in synchronization with the transmission / reception switching signal.
The transmission / reception antenna 209 is switched.

As described above, according to this embodiment, the transmission / reception switching signal of the radio (PHS) 201 used by switching the same frequency for transmission / reception of the radio base station A is transmitted to the local radio station C. In this case, the uplink / downlink line is switched by the antenna switch 208 in synchronization with the above, so that it is possible to reliably prevent the RF signal from being wrapped around as in the related art.

In the second embodiment, since the transmitting / receiving antenna 209 is provided and the antenna switch 208 connected thereto is provided, the number of parts can be reduced and the cost can be reduced. be able to.

However, as shown in the first embodiment, the transmitting antenna and the receiving antenna are separately arranged, and switches are provided for each of the transmitting antenna and the receiving antenna. The switching may be performed in synchronization with the transmission / reception switching signal of the base station.

It should be noted that the present invention is not limited to the above embodiment, and various modifications can be made based on the spirit of the present invention, and these are not excluded from the scope of the present invention.

[0041]

As described above, according to the present invention, the following effects can be obtained.

(1) Since the frequency of the uplink / downlink is changed, it is possible to reliably prevent the sneak of the RF signal as in the related art, and to prevent the oscillation.

(2) The transmission / reception switching signal of the radio of the radio base station is transmitted to the local radio station, and the transmission / reception antenna of the local radio station is switched in synchronization with this signal. It is possible to surely prevent the sneak of the RF signal and to prevent the oscillation.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an optical wireless transmission system showing a first embodiment of the present invention.

FIG. 2 is a configuration diagram of an optical-wireless fusion transmission system showing a second embodiment of the present invention.

FIG. 3 is a configuration diagram of a conventional optical-wireless fusion transmission system.

[Explanation of symbols]

A Radio base station B Optical fiber transmission line C Local radio station (access point station: AP station) D Mobile station 101, 122, 201, 222 Radio (PHS) 102, 202 Circulator 103, 111, 203, 211 Incident light source ( Laser diode) 104, 112, 204, 212 Electric / optical (E /
O) Converter 105, 113, 205, 213 Optical fiber 106, 114, 206, 214 Optical / electrical (O /
E) Converters 107, 110, 207, 210 Amplifiers 108, 124, 223 Transmitting antennas 109, 121, 221 Receiving antennas 115, 123 Frequency converter 208 Antenna switch 209 Transmitting / receiving antennas

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Yoshikazu Hirao 1-7-12 Toranomon, Minato-ku, Tokyo Oki Electric Industry Co., Ltd. (72) Inventor Masayuki Fujise 3-4 Hikarinooka, Yokosuka City, Kanagawa Prefecture Hiroshi Harada (72) Inventor Hiroshi Harada 3-4 Hikarinooka, Yokosuka City, Kanagawa Prefecture F-term (Reference) 5C002 AA05 BA13 CA02 CA17 DA04 FA01 GA04 GA05 5K022 AA03 AA10 AA24 AA35 AA41 5K050 AA03 BB06 BB17 BB18 CC02 DD06 DD21 DD29 DD30 EE25 FF09 GG10 HH02 5K067 AA03 AA05 BB02 DD11 EE02 EE06 EE10 EE32 EE37 KK01

Claims (3)

[Claims] In an optical-wireless hybrid transmission system, a transmission frequency from a transmitting antenna of a local radio station when a downlink is transmitted from a radio base station to a mobile station, and an uplink frequency from the mobile station to the radio base station. An optical-wireless integrated transmission system, comprising: frequency conversion means for differentiating a reception frequency from a receiving antenna of a local wireless station at the time of performing bidirectional communication. 2. An antenna of a local radio station upstream of an antenna of a local radio station when downlinking from a radio base station to a mobile station, and at the time of uplink from a mobile station to a radio base station. An antenna switch disposed downstream of the base station, transmitting / receiving a transmission / reception switching signal of a radio of a radio base station to a local radio station, and operating the antenna switch in synchronization with the transmission / reception switching signal. Wireless fusion transmission system. 3. The optical wireless fusion transmission system according to claim 2, wherein said antenna is a transmission / reception antenna.