JPH01103329A - Paging system - Google Patents

Abstract

PURPOSE:To attain sure transmission of information by allowing a pager receiver to generate a signal as sound and a radio base station to detect the sound signal from the pager receiver. CONSTITUTION:In calling an information center from a pager receiver 1, a call button 31 is depressed and a call signal is generated as sound from a speaker 21. When the signal reaches a base station 11, the station adds the base station number and sends information and it is sent to an operation console 52 through a line concentrator 51. In recognizing the signal from the receiver 1 to be the call signal, the base station 11 returns an acknowledge signal in radio wave to the receiver 1 to light a confirmation lamp 106 of the receiver 1 for a prescribed time. Then the information center can recognize which receiver calls which area and the possessor of the receiver can recognize the signal tone from the receiver possessed by itself to surely reach the base station.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a local paging system comprising a plurality of base stations with low transmission power and a plurality of pager-receivers that receive signals from the respective base stations.

[Conventional technology]

The conventional base station system receives signals from a base station and sends them to pager receiver owners.

Although it has the function of producing a ring tone and displaying the contents of the signal, it does not have the function of transmitting information from the pager-receiver signal to the base station.

Margin below [Problems to be Solved by the Invention] Therefore, the conventional paging system has the following drawbacks.

(1) A response signal indicating that the signal sent from the base station has definitely reached the pager receiver cannot be sent from the pager receiver to the base station. In other words, there are limits to the reliability of information transmission.

(2) Pager - Information cannot be transmitted from the receiver to other stations.

(3) It is not possible to obtain location information of the pager-receiver, such as in which base station service area the He-Sawyer receiver is present. This severely limits the services provided by the paging system.

Therefore, it is conceivable to mount a wireless transmitter on the Pesoyer receiver to enable transmission. However, this has the following drawbacks.

(1) The price of the radio transmitter is high and it is not economical.

(2) By installing a wireless transmitter, the size of the Bözeyer receiver is approximately twice as large as that of a conventional receiver that only functions for reception, and it also weighs 9 times more. In terms of weight, it greatly reduces usability and power.

(3) Transmitting as a radio requires more power, which shortens battery life.

SUMMARY OF THE INVENTION An object of the present invention is to eliminate the above-mentioned drawbacks and to enable the pager receiver to send a response signal to the base station indicating that the signal sent from the base station has definitely reached the pager receiver. It is an object of the present invention to provide a paging system having a pager-receiver that is inexpensive, compact, lightweight, and consumes little power.

[Means for solving problems]

According to the present invention, a plurality of base stations and a plurality of pagers
a receiver, and a plurality of pagers from the plurality of base stations.
In a local paging system in which some or all of the receivers are paged by radio, the pager-receiver has a sound wave generating means for generating a signal as sound, and the wireless base station has a.

A paging system is obtained, characterized in that it comprises means for detecting a sound signal generated from the pager-receiver.

Further according to the present invention.

A paging system is obtained in which the sound wave generation means of the Bezoyer receiver outputs the sound signal for a certain period of time when the pager receiver is called by the base station.

According to the present invention, the pager receiver has a call button for transmission, and the sound wave generating means of the pager receiver generates the sound signal when the call button is pressed. , a paging system is obtained which provides output for a certain period of time.

〔Example〕

Next, nine aspects of the present invention will be described with reference to the drawings.

FIG. 1 shows an embodiment of the present invention.

1.2. ~． 10 is a pager-receiver of similar structure; 11. ~． 20 is a base station having a similar structure. Also, 61, 62. ~． 70 is the service area of each base station.

Pager receiver 1, 2. ~． 10 each has 21,
22. ~． The pager receiver, which is equipped with a speaker as shown at 30 and is called by the base station by radio, generates a response signal in the form of sound.

In addition, each pager receiver has a angle of 31.32°...
As shown at 40, each pager has a call button, and when this button is pressed, the pager-receiver generates a call signal as a sound.

Furthermore, each pager receiver is equipped with a confirmation lamp as shown at 105, 106°..., 114. This means that when each pager receiver generates a ringing signal as a sound, This is to indicate whether or not the base station receives this signal.When the base station receives a paging signal, it returns a response signal to the pager receiver using radio waves, and the confirmation lamp on the pager receiver lights up at a certain level. The lights are on for hours.

The base stations each have 41.42. ~． As shown at 50, a highly sensitive microphone is attached, which receives sound generated from the speaker of the pager receiver and converts it into an electrical signal.

Each base station 11, 12. . . . , 30 are connected through a line concentrator 51 to an operation console 52 in the information center.

When calling the pager receiver owner from the information center, the setting switch 55 in the setting section 53 is set to the identification number of the pager receiver to be called, and the calling button 56t is turned on. This number is.

through the concentrator to the base stations 11.12. ~, 20, and emitted as radio waves from each base station.

Therefore, the pager receiver having the number set by the setting switch 55 generates a response signal (including the identification signal of the pager receiver) as a sound from the speaker, and the base station that detects this responds to the response signal (including the identification signal of the pager receiver). The number is added to the response signal and sent to the line concentrator. This signal is further sent to the control console,
The identification number of the pager receiver is displayed at 57, and the base station number at this time is displayed at 58.

As a result of the above, the information center can know which base station area the pager receiver of the called party is located in.Furthermore, it is possible to ensure that the pager receiver called from the information center is the same based on the display of the identification number of the pager receiver. Know that you have responded.

Next, if the user wishes to make a call to the information center from the pager receiver, the user presses a call button on each pager receiver.

For example, when calling the information center from the pager receiver 2, when the call button 32 is pressed, a call signal (including the identification signal of the pager receiver) is generated as a sound from the speaker 22.

When this signal reaches the base station 12, it further adds a base station number and transmits the information, and the line concentrator 51t-
and sends it to the operation console 52.

On the console, the identification signal of the pager/receiver and the current base station number are displayed as 57.58, respectively, and the call lander 59 is lit.

The speaker 60 generates a ringing tone.

Furthermore, when the base station 12 learns that the signal from the pager receiver 2 is a paging signal, it returns a response signal to the pager receiver 2 via radio waves, and sends a confirmation rande 106 in the pager receiver 2 to a certain level. Turn on the time.

With the above, the information center can know which pager/receiver is calling in which area, and
Pager receiver owners know that the signal sound from their pager receiver is definitely reaching the base station.

In order to realize the system shown in FIG. 1, a new means of transmitting information from the pager-receiver to the base station is required in addition to the conventional wireless information transmission from the base station to the pager receiver.

The present invention proposes a method using "sound" for this purpose.

FIGS. 2 and 3 are examples of the base station 11 and pager receiver 10 used in FIG. 1 of the present invention, respectively.

When the base station 11 calls the pager-receiver 1, the process is as follows.

In the base station 11, the microcomputer 73 receives information from the line concentrator, and further transmits this information (TDATA 1
) is emitted as a radio wave from a radio transmitter 76 through a modulator 75. On the other hand, in the pager receiver 1, a radio receiver 83 receives a signal from the base station 11, and a demodulator 84 receives the signal from the base station 11.
demodulates the signal and sends it to the microcomputer 86. The microcomputer 86 uses the identification signal (pager number) of the pager receiver stored in the memory 85 and the signal sent from the demodulator 84 (which includes the identification signal of the pager receiver to be called). ), and when it is determined that the own station has been called, the pager-receiver l is then controlled to generate a response signal in the form of a sound.

A sound wave generating means 88 is used for this purpose. 88 is.

an oscillator 89 with a center frequency fo and an electronic switch 90;
Amplifier 91. It consists of a speaker 92.

The electronic switch 90 switches to 0N10 by the signal TDATA 2 output from the microcomputer 86.
FF t, te. The contents of TDATA 2 are stored in memory 8.
Contains the pager-receiver identification signal at 5.

The signal waveform at this time is shown in FIG. TDATA 2 is an NRZ signal, which causes the center frequency foO wave of the output of the 9 oscillator fo.

The output of amplifier 91 shows an intermittent sine wave waveform.

Now, if this signal X91 is emitted as a sound from the speaker 92, in order to detect it.

In the base station 11, a detection means 72 is used.

The detection means 72 includes a high-sensitivity microphone 77, an amplifier 78° center station, and a filter 79 with a wave number fo. It consists of a level detector 80° and a comparator 81, the output of which is connected to a microcomputer 73.

As shown in FIG. 4, the detection means 72 detects the level of the sine wave X91 at a certain time. That is +1g. The period in which is rising indicates when there is a sine wave in x, 1, and by comparing p xso with the comparator 81, received data RDATA 2 is obtained. If there is no noise on the transmission path, TDATA 2 and RDATA 2
The information contents of are consistent.

RDATA 2 contains an identification signal for the pager-receiver 1. Therefore, the microcomputer 7
3 is the base station identification signal (
Base station number) i Add to RDATA 2 and transfer the information to the line concentrator.

Next, when calling the information center from the pager receiver, the procedure is as follows.

When you press the call button 87, the microcomputer 86
Upon receiving this, it sends out a paging signal from the pager receiver including the identification signal of the memory 85.

At this time, the calling signal is transmitted using the sound wave generating means 88 and the detecting means 72, and is sent to the microcomputer 73.

When the microcomputer 73 learns that the signal received by the detection means 72 is a calling signal, the microcomputer 73 stores this signal in the memory 7.
4 is added to the base station identification signal and sent to the line concentrator. On the other hand,
The microcomputer 73 receives a pager from the base station 11.
A response signal to the receiver 1 is transmitted using a modulator 75 and a wireless transmitter 76.

In the 4-jar receiver 1, a response signal from the base station is received using a radio receiver 83 and a demodulator 84, and when the microcomputer 86 receives this signal, the confirmation lamp 115 is turned on for a certain period of time.

The sound signal transmission means used in Figures 3 and 2 (
Sound wave generating means 88. Although the detection means 72) is the simplest example, it basically uses an amplitude modulation method and is susceptible to noise.

Therefore, an example of a method that is more resistant to noise is shown below.

5 and 6 show other examples of the sound wave generating means and the detecting means, respectively, 88 in FIG. 3 and 72 in FIG.
It can be used as

The sound wave generating means shown in FIG. 5 will be explained.

Waves with center frequencies fh and fB are oscillated by two oscillators 93 and 94, respectively, and an electronic switch 95 selects either the output X93 of 93 or the output X94 of 94 according to the signal (TDATA 2 ) to be transmitted. do. The output of electronic switch 95 is connected to amplifier 96.
After being amplified by the speaker 97, the signal is output as sound.

This operation is shown in FIG. In FIG.

X93 is selected for the section where TDATA 2 is rising.

A frequency fhO wave appears in xsa. Also.

In the section where TDATA 2 is falling, X94 is selected.

A frequency fsO wave appears in xsa. Therefore.

This means that frequency shift keying (FSK) waves are emitted as sound.

Next, the detection means shown in FIG. 6 will be explained.

After a sound signal is received by a high-sensitivity microphone 98, it is amplified by an amplifier 99, and the output is sent in parallel to a filter 100 (a Pantonoyas filter with a center frequency fh) and a filter 101 (a bandpass filter with a center frequency fB). Pass. The output of each filter is detected by level detectors 102 and 103, respectively, and compared by a comparator 104.
Receive data RDATA 2' is obtained. Repeat this action in the seventh
This can be explained using a diagram as follows.

A waveform X1oz (solid line) obtained by level detection of the 1-frequency fhO wave and a waveform X103 (broken line) obtained by level detection of the frequency fB wave are input to the comparator 104. By comparing these, received data RDATA Z is obtained. xl. 2
and X103 are in such a relationship that when one is rising, the other is falling. Therefore, even if there is noise to the extent that the value of 1, for example, l x 102 is half of the normal value.

xl. If 3 falls sufficiently, the signal can be received correctly.

As explained above, the method shown in FIG. 6 is an FSK method, and can be said to be resistant to transmission line noise.

〔Effect of the invention〕

As described above, the present invention provides, in addition to the conventional in-house paging system, a means for easily transmitting information from an e-jer receiver to an information center.

The present invention has a function of checking by means of a response signal whether information has been correctly transmitted between the pager-receiver and the base station.

In the case of the present invention, since the signal sent from the base station to the pager receiver uses radio, the response signal from the easy receiver reaches the pager receiver inaudibly. The aircraft owner can hear it. This response signal, on the one hand.

Although it is used as a confirmation response to the base station (information center), it is originally intended to alert owners of 4-jar receivers to calls. Also.

By having the information center catch the fact that this sound is emitted, the information center will be able to diagnose whether the pager is working properly or not.

Furthermore, since the system of the present invention uses a sound wave generating means, 1) it is very economical, and 2) it can be implemented in a compact size compared to, for example, a pager-radio transmitter. Furthermore, (2) there is no need for a significant increase in power during transmission, and it can be operated with the same power as a conventional (-ger).

The paging system shown in Figure 1 can be used at hotels, train stations, etc. where employees are provided with pagers, or at hospitals.
It would be a very convenient system if patients and nurses were provided with pager receivers so that they could make calls to and from the information center when necessary. This is especially true when it is necessary to urgently locate the owner of the pager receiver, or when there is an emergency call from the owner of the pager receiver.

It has a very large effect.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a paging system according to one embodiment of the present invention. 1.2. ~． 10... pager receiver, 11,1
2°~, 20... base station, 21.22. ~． 30...
・Speaker built into easy receiver, 31.
32°~, 40...Call button for calling the information center from the pager receiver, 41, 42. ~,50
...High sensitivity microphone built into the base station, 51... Line concentrator, 52... Operation console, 53... Setting section, 54...
Display section, 55... Setting switch, 56... A call from the information center to call the owner of the pager-receiver is pressed, 57... The identification number of the pager-receiver sent Display section for displaying, 58...Display section for displaying the sent base station identification number, 59...Call lamp for calling the information center from the K-jar receiver, 60...Eatsya- Calling speaker when calling the information center from the receiver, 61, 62°-, 70-・
・Service area of each base station, 105°106, ---
, 114... Confirmation lamp attached to the pager receiver. FIG. 2 is a block diagram of one base station of the base song system of FIG. 1. 72... Detection means for detecting a sound signal, 73...
- Microcomputer, 74...Memory (stores identification signal), 75...Modulator, 76...Radio transmitter, 77...High sensitivity microphone, 78...Amplifier. 79...Band pass filter, 80...Level detection i. 81... Comparator. FIG. 3 is a block diagram of one Bezeyer receiver of the paging system of FIG. 1. 83... Radio receiver, 84... Demodulator, 85...
Memory (memorizes the identification number), 86... Microcomputer, 87... Pager - call button for calling the Yosu Information Center, 88... Sound wave generator, 89... Oscillator (center frequency f0), 9°...
・Electronic switch, 91...Amplifier, 92...Speaker p FIG. 4 is a time chart for explaining the operations of the base station of FIG. 2 and the pager-receiver of FIG. 3. FIG. 5 is a block diagram of another example of the sound wave generating means used in the present invention. 93... Oscillator (center frequency fA), 94... Oscillator (center frequency fB), 95... Electronic switch, 96
...Amplifier, 97...Speaker. FIG. 6 is used in the present invention. FIG. 3 is a block diagram of another example of a detection means for detecting a sound signal. 98...High sensitivity microphone, 99...Amplifier, 100...
... Pantone 4 filter (center frequency fh),
101...Band pass filter (center frequency fB)
-102. 103...Level detector, 104...Comparator. FIG. 7 is a time chart for explaining the operations of the sound wave generating means of FIG. 5 and the detecting means of FIG. 6. Figure 3

Claims (1)

[Claims] 1. A local paging system having a plurality of base stations and a plurality of pager receivers, and in which some or all of the plurality of pager receivers are called by radio from the plurality of base stations. A paging system, wherein the pager receiver has a sound wave generating means for generating a signal as sound, and the wireless base station has means for detecting a signal due to the sound generated from the pager receiver. 2. Claim 1, wherein the sound wave generating means of the pager receiver outputs the sound signal for a certain period of time when the pager receiver is called by the base station. paging system. 3. The pager receiver has a call button for transmission, and the sound wave generating means of the pager receiver generates the sound signal when the call button is pressed.
Claim 1, which is output for a certain period of time
Paging system as described in section.