JP2998697B2 - Reference time setting method in satellite communication and wide area wireless paging system using the method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paging system via a satellite line, and more particularly, to a plurality of radio frequency carriers of the same frequency, each of which is synchronously modulated by the same digital selective paging (paging) signal, and is arranged apart from each other. And a reference time setting method in wide area wireless paging transmitted from a plurality of transmitting stations.

[0002]

2. Description of the Related Art In a radio paging system, a plurality of transmitting stations are arranged at predetermined intervals in order to enable a wider service area, and modulated by the same digital paging signal from the transmitting stations. A plurality of radio frequency carriers having the same frequency are transmitted simultaneously. In such a radio paging system, it is necessary to suppress the phase difference between two received carriers in an area where radio frequency carriers from two adjacent transmitting stations can be received, that is, in an interference area, to a certain value or less. A paging system in which a transmitting station has a GPS receiver is described in JP-A-6-291713. In the following description, the technology described in this publication will be referred to as a first conventional technology.

[0003] A first prior art paging system is:
This is a wide area wireless paging system in which a plurality of transmitting stations are arranged at predetermined intervals, and a radio frequency carrier of the same frequency modulated by the same digital paging signal is simultaneously transmitted from each of the plurality of transmitting stations. In this wireless paging system, a central office is located between a plurality of transmitting stations and a telephone switching network receiving a call for a paging request,
The central office is provided with a paging control device for converting the data of the paging request from the calling subscriber into a predetermined signal format.

The paging controller has a GPS receiver, and the GPS receiver generates a high-accuracy time signal based on a reference signal from a GPS satellite. Also,
The paging control device holds maximum delay time information required for signal transmission from the central station to each transmitting station and signal processing at the transmitting station. When receiving a call from the telephone exchange network, the paging control device generates a paging request signal,
A time later than the maximum delay time is added to the paging request signal as designated transmission start time information and transmitted to each transmitting station.

On the other hand, each transmitting station has a GPS receiver, and the GPS receiver generates a high-precision time signal based on a reference signal from a GPS satellite and a bit-wise clock signal of a modulation signal. Each transmitting station converts the format of the paging request signal into a digital paging signal and, at the time specified by the transmission start specified time information received from the central office, synchronizes with the carrier signal in synchronization with the bit-unit clock signal of the digital paging signal. Is modulated and transmitted.

In this way, even if the delay time required for signal transmission from the central station to each transmitting station and the signal processing at each transmitting station differs for each transmitting station, regardless of the delay time,
Modulation synchronization accuracy can be improved.

In order to further expand the service area, it is necessary that ground stations in the area have a common time. As a time synchronization method for the entire communication system,
There is a method in which the current time is broadcast from one station having a standard time to all other ground stations, and all the ground stations synchronize with the standard time. In order to measure the transmission delay time between two ground stations performing satellite communication, Japanese Patent Laid-Open No. Hei 6-152482 proposes a method in which a reference station and each ground station have a clock (real-time clock). This technique is referred to as a second conventional technique.

In this method, one of the ground stations is used as a reference station, and a packet to which transmission time information based on the real-time clock of the reference station is added is transmitted from the reference station via the satellite communication system at regular intervals. The ground station other than the reference station separates the transmission time from the received packet and sets a constant Dn set for each ground station at the transmission time.
And the added time is set as the time of the real-time clock of the ground station. The constant Dn is calculated from the latitude and longitude of the earth distance between the reference station and the ground station,
The physical length of a communication line set via a satellite between the reference station and the ground station is determined, and the time for radio waves to propagate to the physical length.

[0009]

In the above-mentioned first prior art, it is effective to have a GPS receiver to suppress the phase difference between a plurality of transmitting stations to a certain value or less. Since it is equipped with a GPS receiver, it cannot be said that the system is inexpensive. In systems that use satellite communications for wireless paging systems, NAVSTAR / GP
S (Navigation Satellite Time And Ranging Global Pos
itioning System) If the phase difference between radio frequency carriers transmitted from multiple transmitting stations can be suppressed to a certain value or less without using satellites or GPS receivers, an inexpensive system can be constructed. At the moment, no such system exists.

In the second prior art system, since the reference station and each ground station must have a clock (real-time clock), the system is inexpensive as well as having a GPS receiver. I can not say. Without using a reference clock (real-time clock), the transmission delay time between the central station and the transmitting station is determined, and the phase difference between radio frequency carriers transmitted from a plurality of transmitting stations can be suppressed to a certain value or less. If possible, an inexpensive system can be built, but again, there is no such system at present.

[0011] It is an object of the present invention to enable a reference time when a transmitting station transmits a digital paging signal to be accurately set in real time, and that each satellite communication earth station and transmitting station use a GPS receiver and a real-time clock. It is therefore an object of the present invention to provide a reference time setting system which does not need to be provided and can be constructed at low cost.

[0012]

According to the present invention, there is provided a method for setting a reference time in satellite communication, comprising: a control station for generating a paging request signal in response to a paging call received from a general public network subscriber through the telephone network; A plurality of transmitting stations connected to the control station by satellite communication, each of which modulates and transmits a radio frequency carrier having the same frequency by a digital paging signal corresponding to the paging request signal, and a service area of the transmitting station. Is applied to a wide area wireless paging system that provides a paging service to a number of paging receivers distributed in a wide area.

[0013] To achieve the above object, a reference time setting method according to the present invention comprises a first time value equal to a minimum value of a required transmission time for satellite communication between a control station and a plurality of transmitting stations. And a second time value equal to the maximum value of the required transmission time in satellite communication, and a third time value required for each of the transmitting stations from the reception of the paging request signal to the generation of a digital paging signal. Store in memory in advance,
The time from the sum of the first time value and the third time value to the time of the sum of the second time value and the third time value is equal to or less than a predetermined phase difference required in the system. Dividing, the set of divided times is defined as a reference time which is used as a reference of timing at which each of the transmitting stations transmits the digital paging signal, and the transmitting station performs satellite communication between the control station and the own station. Is selected from the reference time, and a digital paging signal is transmitted using the selected reference signal as a transmission timing reference.

[0014] In the wide area wireless paging system of the present invention, the control station includes delay time storage means, time reference means, time identification means, and multiplexing means. The delay time storage means stores a first time value equal to a minimum value among required transmission times for satellite communication between the control station and the plurality of transmitting stations, and a maximum value among required transmission times in the satellite communication. An equal second time value and a third time value required by each of the transmitting stations from receipt of the paging request signal to generation of a digital paging signal are stored in advance. The time reference means generates a reference time signal serving as a reference for timing when each of the transmitting stations transmits the digital paging signal. Time discriminating means, as a reference time represented by the reference time signal, from a time of the sum of the first time value and the third time value to a time of the sum of the second time value and the third time value Is decomposed below a predetermined phase difference required in the system to generate a time identification signal. The multiplexing unit multiplexes the time identification signal and the paging request signal.

Each of the transmitting stations includes transmission time recognizing means, receiving means, separating means, transmitting timing recognizing means, and transmitting means. The transmission time recognizing means calculates the distance from the control station to the own station from the position of the control station, the position of the own station, and the satellite used, and knows the transmission time of the radio wave from the control station to the own station. The receiving means receives the multiplexed time identification signal and the paging request signal. The separating unit separates the signal received by the receiving unit into the time identification signal and the paging request signal. Transmission timing recognition means,
From the required transmission time recognized by the transmission time recognition means and the time identification signal separated by the separation means, the own station recognizes the timing of transmitting the digital paging signal. The transmitting means transmits the digital paging signal to the paging receivers distributed in the service area of the own station at the timing recognized by the transmission timing recognizing means.

[0016]

As described above, the system requires a time from the sum of the first time value and the third time value to the time of the sum of the second time value and the third time value. , And a set of the divided times is defined as a reference time that is used as a reference of timing at which each of the transmitting stations transmits the digital paging signal. Since the time corresponding to the sum of the required transmission time for the satellite communication between the stations and the third time value required by the own station is selected from the reference time, the transmission timings recognized by the respective transmitting stations are different from each other. , And the transmission timing taking into account the transmission delay time and the third time. Therefore, each transmitting station compensates for a transmission timing shift that may be caused by the transmission delay time and the third time within the range of the predetermined phase difference, and transmits the digital paging signal at a mutually synchronized transmission timing. be able to.

[0017]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a configuration diagram of an embodiment of a wide area wireless paging system according to the present invention, and FIG. 2 is a configuration diagram of a paging control device. The wide area wireless paging system according to the present embodiment includes a control station 1, an artificial satellite 50, and a plurality of transmitting stations 60,.
The control station 1 includes a paging control device 10, a satellite communication device 2,
0 public antenna (PSTN)
40, and receives a paging call signal from the general telephone terminal 41.

The paging control device 10 includes a PSTN connection unit 11, a central control unit (CPU) 13, a satellite communication device connection unit 14, and a subscriber data file 12. P
The STTN connection unit 11 controls connection with the PSTN 40 and receives the paging call acceptance signal 101 generated by the PSTN 40 in response to the paging call signal. The central control unit (CPU) 13 receives the paging call acceptance signal 10
1 in response to a paging request signal 103. The satellite communication device connection unit 14 transmits the paging request signal 103 to the satellite communication device 20. Subscriber data file 1
Reference numeral 2 holds registered / unregistered information for each subscriber number of the paging receiver.

FIG. 3 is a block diagram of the satellite communication device 20 of the present embodiment. The satellite communication device 20 includes a storage unit (memory)
21, a time reference pattern generation unit 22, and a multiplexing unit (MU)
X) 23, a modulator (MOD) 24, and a high-power amplifier (HP)
A) 25. The memory 21 stores a time value t1 equal to the minimum value of the required transmission time in the satellite communication between the control station 1 and the plurality of transmitting stations, and a time value t2 equal to the maximum value of the required transmission time in the satellite communication. , A time value t3 required for each of the transmitting stations to receive the paging request signal and to generate a digital paging signal is stored in advance as a transmission delay signal 201. The time reference pattern generation unit 22 calculates (t1 + t3) and (t2
+ T3) is divided below the phase difference required in the system and an identification code is given to the time generated by the division, thereby providing a reference for the timing at which each of the transmitting stations transmits the digital paging signal 203. A time identification signal 202 is generated. A multiplexing unit (MUX) 23 transmits the time identification signal 202 and the paging control device 10
Is multiplexed with the digital paging signal 203 sent from. The modulator 24 modulates the multiplexed signal. A high power amplifier (HPA) 25 amplifies the modulated signal. The signal 204 amplified by the HPA 25 is
Is transmitted to the satellite.

The transmitting station 60 includes an antenna 61, a satellite communication device 62, and a transceiver 63 (see FIG. 1). FIG. 4 is a block diagram of the satellite communication device 62 of the present embodiment. The satellite communication device 62 has an outdoor unit (ODU) 62-1.
, A demodulation unit (DEM) 62-2, and a separation unit (DEMU)
X) 62-3, a central control unit (CPU) 62-5, a time reference pattern detection unit 62-4, and a time reference pattern setting unit 62-6.

The outdoor unit (ODU) 62-1 has a satellite line L
101, a signal received through the antenna 61 is level-converted and frequency-converted. The demodulation unit (DEM) 62-2 demodulates the signal converted by the outdoor unit (ODU) 62-1. The separation unit (DEMUX) 62-3 is a demodulation unit (DEM) 62-
2 separates the demodulated signal into a time identification signal 602 and a paging request signal 601. Central control unit (CPU) 6
2-5 calculates the distance from the control station to the own station from the position of the control station, the position of the own station, and the satellite to be used, and knows the required transmission time t1 of the radio wave. Time reference pattern detector 62-
Reference numeral 4 denotes a required transmission time t1 recognized by the central control unit (CPU) 62-5 and a time t3 required from reception of a paging request signal to generation of a digital paging signal.
And the time identification signal 6 separated by the DEMUX 62-3
02, the timing at which the own station transmits a digital paging signal is detected. Time reference pattern setting section 62-6
Notifies the transceiver 63 of the timing detected by the time reference pattern detection unit 62-4. The transceiver 63 transmits a digital paging signal to a paging receiver distributed in its own service area at the timing set by the time reference pattern setting unit 62-6. The transmitting station 60 and the transmitting station 70 have the same configuration.

Next, the operation of this embodiment will be described. FIG.
FIG. 6 is a diagram showing a reference time setting procedure of the present embodiment. The control station 1 determines the shortest required transmission path 101 in the satellite communication between the control station 1 and a plurality of transmitting stations from the position of the control station, the position of each transmitting station with which the control station communicates, and the position of the satellite to be used. A required transmission time t1, a required transmission time t2 of the longest required transmission path 102, and a time value t3 required for each of the transmitting stations from the reception of the paging request signal to the generation of the digital paging signal are stored in a storage unit (memory). ) 21. As shown in FIG. 5, the time reference pattern generation section 22 divides (t1 + t3) and (t2 + t3) into a predetermined phase difference ΔT or less necessary for the system and makes the identification (identification signals UW ₁ , UW _2). , ... UW _m ),
Each of the transmitting stations transmits the digital paging signal 203
Time identification signal 202 serving as a reference for the timing of transmitting
Cause. This time identification signal 202 is output to the multiplexing unit (M
(UX) 23 and multiplexed with a digital paging signal 203 sent from the paging control device 10.

In each transmitting station, based on the position of the control station, the position of the own station, and the position of the satellite to be used, the required transmission time t of the transmission path used in the satellite communication between the control station 1 and the own station, The time value t3 required from the reception of the paging request signal to the generation of the digital paging signal is stored in the central control unit (CPU) 62-5 in advance. CPU62-5 in order to detect when the own station transmits a digital paging signal, time identification signal separated by _{DEMUX62-3 (UW 1, UW 2,} ··· UW m) from 602,
The number of the UW to be detected is calculated and transmitted to the time reference pattern detection unit 62-4. Time reference pattern detection unit 62
The UW of the own station detected at -4 is the time reference pattern setting unit 6
The timing set by 2-6 is transmitted to the transceiver 6
3 is converted to a connection condition to be transmitted. Transceiver 63
Transmits a digital paging signal to a paging receiver distributed in the service area of the own station at the timing set by the time reference pattern setting unit 62-6.

[0024]

According to the reference time setting method of the present invention,
With a simple function, the reference time for sending,
Since the satellite communication earth station and the transmission station do not need to have a GPS receiver or a clock (real-time clock), an inexpensive system can be constructed.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an embodiment of a wide area wireless paging system using a reference time setting method of the present invention.

FIG. 2 is a configuration diagram of a paging control device of a control station using the reference time setting method of the present invention.

FIG. 3 is a configuration diagram of a satellite communication device of a control station using the reference time setting method of the present invention.

FIG. 4 is a configuration diagram of a satellite communication device of a transmitting station using the reference time setting method of the present invention.

FIG. 5 is a diagram showing a reference time setting procedure according to the present invention.

[Explanation of symbols]

 Reference Signs List 1 control station 10 paging control device 11 PSTN connection unit 12 central control unit (CPU) 13 subscriber data file 14 satellite communication device connection unit 20 satellite communication device 21 storage unit (memory) 22 time reference pattern generation unit 23 multiplexing unit ( MUX) 24 Modulation unit (MOD) 25 High power amplification unit (HPA) 30 Antenna 40 General public telephone network 41 Telephone terminal 50 Satellite communication device 60 Transmitting station 61 Antenna 62 Satellite communication device 62-1 Outdoor unit (ODU) 62-2 Demodulation unit (DEM) 62-3 Separation unit (DEMUX) 62-4 Time reference pattern detection unit 62-5 Central control unit (CPU) 62-6 Time reference timing setting unit 63 Transceiver 70 Transmitting station 71 Antenna 72 Satellite communication Device 73 Transceiver 101 Paging call request signal 102 Subscriber data 1 03 Paging request signal 104 Digital paging signal 201 Transmission delay signal 202 Time identification signal 203 Digital paging signal 204 Satellite communication signal 601 Digital paging signal 602 Time identification signal 603 Position data of own station, data of satellite used 604 Time identification signal of own station 605 Transmission timing detection signal of own station 606 Transmission timing signal of own station 607 Transmission timing signal t1 Shortest required transmission time t2 Longest required transmission time ΔT Time corresponding to required phase difference m Division number

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ identification code FI H04Q 7/36 (58) Investigated field (Int.Cl. ⁷ , DB name) H04B 7/14-7/26 102 H04Q 7 / 00-7/38

Claims (3)

(57) [Claims] 1. A control station for generating a paging request signal in response to a paging call received from a subscriber of a general public network through a telephone network, and each of the paging requests connected to the control station by satellite communication. A plurality of transmitting stations for modulating and transmitting a radio frequency carrier of the same frequency with a digital paging signal corresponding to a signal, and providing a paging service to a large number of paging receivers distributed in a service area of the transmitting station. In the reference time setting method in the paging system, a first time value equal to a minimum value among required transmission times for satellite communication between the control station and the plurality of transmitting stations, A second time value equal to the largest value, and wherein each of the transmitting stations has a digital value from receipt of the paging request signal. A third time value required to generate a paging signal is stored in a memory in advance, and the second time value and the third time value are calculated from the sum of the first time value and the third time value. Is divided by a time width equal to or less than a predetermined phase difference required in the system, and the set of divided times is defined as a timing at which each of the transmitting stations transmits the digital paging signal. The transmitting station sets a time corresponding to the sum of a required transmission time for satellite communication between the control station and the own station and a third time value required by the own station as the reference time. And transmitting a digital paging signal using the selected reference signal as a transmission timing reference. 2. The system according to claim 1, wherein the predetermined phase difference required in the system is such that in the interference area of two adjacent transmitting stations,
The method according to claim 1, wherein the radio frequency carrier transmitted from the transmitting station is a phase difference necessary to prevent interference from causing interference. 3. A paging control for generating a paging request signal including a subscriber number unique to a called paging receiver corresponding to the call in response to a paging call received from a public network subscriber through the telephone network. A plurality of transmissions, each of which is connected to the paging control device of the control station by satellite communication and each of which generates a radio frequency carrier having the same frequency by a digital paging signal corresponding to the paging request signal, through a satellite communication; A wide area paging system for providing paging services to a number of paging receivers distributed in a service area of the transmitting station, the control station comprising: A first time value equal to the minimum value of the required transmission time of the Delay time storage in which a second time value equal to the maximum value of the transmission time and a third time value required for each of the transmitting stations from the reception of the paging request signal to the generation of a digital paging signal are stored in advance. Means, time reference means for generating a reference time signal which is a reference of the timing at which each of the transmitting stations transmits the digital paging signal; and the first time value and the third as a reference time represented by the reference time signal. A time discrimination signal is generated which divides the time between the time of the sum of the time values and the time of the sum of the second time value and the third time value into less than a predetermined phase difference required in the system and discriminates. Multiplexing means for multiplexing the time identification signal and the paging request signal, wherein each of the transmitting stations uses the position of the control station and the position of its own station. Transmission time recognizing means for calculating the distance from the control station to the own station from the satellite and determining the transmission time of radio waves from the control station to the own station; and receiving the multiplexed time identification signal and the paging request signal. Receiving means, a separating means for separating the signal received by the receiving means into the time identification signal and the paging request signal, a required transmission time recognized by the transmission time recognizing means and the time separated by the separating means. Transmission timing recognizing means for recognizing the timing at which the own station transmits the digital paging signal from the identification signal; and transmitting the digital paging signal to a paging receiver distributed in the service area of the own station at the timing recognized by the transmission timing recognizing means. A reference time setting method, comprising: