JPH042514Y2 - - Google Patents

Description

[Detailed Description of the Invention] A. Field of Industrial Use The present invention relates to a wireless relay device that performs relaying when transmitting data.

B. Summary of the invention This invention is a wireless relay device that performs relaying when transmitting data. By replacing the identification code of the received data with the identification code of the own station mentioned above and transmitting on the same frequency as the receiving frequency,
Data transmission between each relay device is performed successfully in sequence,
Moreover, on the receiving side, reception is possible at the same frequency regardless of location.

C. Prior Art Currently, in the 400 MHz band, for example, so-called in-house paging is proposed for transmitting messages such as meeting start times and telephone requests.
In a one-way wireless transmission system such as this in-premises paging, there is usually a set of one transmitter (base unit or base station) and multiple receivers (slave units) corresponding to the transmitter. The transmitted radio waves, or data, are received by each receiver.

D Problems to be Solved by the Invention Incidentally, in such a wireless data transmission system, a relay device (so-called repeater) is required depending on the transmission distance and obstacles. Also,
When multiple relay devices are required, data must be transmitted between each relay device. FIG. 6 is an example in which transmission between each relay device 101, 102, 103 is performed by wire, and each relay device 101, 102, 103 is transmitted by wire.
Data transmitted from 102 and 103 at frequency ₁ is received by each receiver 104 to 108, respectively. However, this method of transmitting data between the relay devices 101, 102, and 103 by wire requires wiring work, which increases the effort and cost.

On the other hand, FIG. 7 shows each relay device 111, 112, 1
This is an example in which transmission between 13 and 13 is performed wirelessly. That is, data transmitted from the relay device 111 at frequency ₁ is frequency-converted by the relay device 112 and transmitted at frequency ₂ . Further, data transmitted from the relay device 112 at frequency ₂ is frequency-converted by the relay device 113 and transmitted at frequency ₃ . The data transmitted from these relay devices 111, 112, and 113 is received by each of the receivers 114 to 118, respectively. As described above, the method of transmitting data between the relay devices 111, 112, and 113 wirelessly is advantageous in that no construction work is required compared to the wired method, but each receiver 114 to 118 may be Therefore, the reception frequency must be changed.

Therefore, the present invention was proposed in view of the above-mentioned conventional problems, and is designed to ensure that data transmission between each relay device is performed successfully in sequence, and that there is no need to change the frequency depending on the location on the receiving side. The purpose of this invention is to provide a wireless relay device.

E. Means for Solving Problems In order to achieve the above-mentioned purpose, the wireless relay device of the present invention transmits and receives transmission data that includes at least identification data representing an identification code for identifying each device and message data. a storage means for storing message data in transmitted transmission data for a predetermined period of time; an identification code detection means for detecting an identification code from identification data in transmission data received at frequency ₁ ; and an identification code of the own station. identification code setting means for setting an identification code, identification code comparison means for comparing the identification code set by the identification code setting means and the identification code detected by the identification code detection means, data comparison means for comparing the received message data with the received message data; and the received transmission data when the comparison result by the identification code comparison means matches a predetermined value and the comparison result by the data comparison means does not match. and data forming means for forming new transmission data by replacing the identification data in the transmission data with the identification data based on the identification code set by the identification code setting means, and forming the transmission data formed by the data forming means. The transmission data is transmitted at the same frequency ₁ as the receiving frequency.

F Effect According to the present invention, data from a relay device whose identification code value is other than a predetermined value is not relayed. Therefore, interference etc. are prevented and good data transmission is performed.

G. Example Hereinafter, an example of the present invention will be described in detail using the drawings.

FIG. 1 is a block diagram showing a wireless relay device of this embodiment. The controller 10 controls the operation of the entire device, and includes a RAM (Random Access Memory) that stores data to be transmitted internally.
It has 11. In this embodiment, the controller 10 serves as identification code detection means, identification code comparison means, and data formation means. The output from the key input section 21 for inputting messages, etc. and the output from the bit switch 22, which is an identification code setting means for setting the ID code (identification code) of the own station, are respectively sent to the controller 10. Supplied. The key input section 21 is used when starting message transmission from the own station. Further, the display section 23 is made up of, for example, a cathode ray tube (CRT) or a liquid crystal display element, and is used to display the contents of the message from the key input section 21 and the contents of the message according to the demodulated output from the demodulation circuit 45, which will be described later. be.

Transmission data formed by controller 10
D _TR is supplied to a voltage controlled oscillation circuit (VCO) 32 via an amplifier circuit 31 and subjected to frequency modulation (FM). Here, as shown in FIG. 2, the transmission data _DTR is composed of synchronization data _DSY , ID data _DID , and message data _DME . ID data
D _ID is data representing an ID code set for each station. Further, the message data D _ME consists of, for example, data representing a message to be transmitted and data representing a caller designation code that designates the person to be called. The voltage controlled oscillation circuit 32
After the signal is amplified by a high frequency amplification circuit 33, it is supplied to an antenna 34 and transmitted. In addition,
The transmit frequency is equal to the receive frequency, which is ₁ .

On the other hand, antenna 3 received at frequency ₁
The signal from 4 is supplied to a mixer 42 via a high frequency amplification circuit 41. Further, the mixer 42 receives the received frequency ₁ from the voltage controlled oscillation circuit 43.
A signal with a frequency higher than that by an intermediate frequency (IF) is supplied. Then, an intermediate frequency signal is extracted by the mixer 42, and this signal is supplied to a demodulation circuit 45 via an intermediate frequency amplification circuit 44. The demodulated output from the demodulation circuit 45 is output from the controller 1.
0. The transmission data D _TR is formed based on the demodulated output or the output from the key input section 21 .

Next, the operation will be specifically explained with reference to the flowchart shown in FIG.

First, when the power is turned on, bit switch 2
ID code of own station set by 2 (=n)
is loaded (step). Next, the loop control variable m is incremented by 1 (step). Next, if the control variable m has reached a predetermined value at this point, the RAM 11 is cleared (step). Next, it is determined whether there is demodulated output, that is, input data (step). If NO in this step, proceed to the step described below, but if YES, proceed to step
It is determined whether the difference between the value of the ID code based on the ID data D' _ID in the input data and the value n of the ID data obtained by the bit switch 22 is a predetermined value (±1 in this embodiment). That is, this step is a step for determining whether or not the received data (input data) is from a predetermined partner station; if NO, the process returns to the step and no transmission is performed. On the other hand, if the answer is YES, the process advances to step and the message data D' _ME in the input data is
A determination is made as to whether the contents match the contents of the RAM 11 or not. If YES in this step, the process returns to the step, but in the case of NO, the process proceeds to the step to encode the message data and ID
A process is performed in which the data value is set to the own station's value n by the bit switch 22. Next, the message data
Loaded into RAM 11 (step). Then, transmission data is formed from the synchronization data, the ID data of value n, and the message data, and is transmitted (step). After the transmission is completed, the value of the control variable m is reset and the process returns to step.

Here, the loop formed by the above-mentioned steps is a loop for preventing the same message data from being re-relayed within a certain period of time.

On the other hand, in the case of NO in the step, the process advances to the step and it is determined whether or not there is a key input representing a message from the key input section 21. If NO in this step, return to the step; if YES, proceed to the step.

The wireless relay device as described above is, for example, a fourth
As shown in the figure, it is suitable for use within a building 50. In FIG. 4, relay devices 61, 62, and 63 are installed near the windows on the 1st, 3rd, and 5th floors of a building 50, respectively. The above relay devices 61, 62, 63
The ID codes are set to "01", "10", and "11", respectively. Although not shown, it is assumed that each person carries a receiver and that the receiver is distributed on each floor of the building 50.

Now, if the relay device 61 starts transmitting the transmission data D _TRA as shown in FIG. 5A, the transmission data D _TRA is relayed by the relay device 62 having the most different ID code. That is, in the relay device 62, the ID code is “01” to “10”.
, transmission data D _TRB as shown in FIG. 5B is formed and transmitted. Note that the transmission data D _TRA from the relay device 61 is transmitted to the relay device 63.
Even if it is received, it will not be relayed because the ID code is different.

Similarly, data D _TRB from the relay device 62
is relayed by the relay device 63. At this time,
Of course, the ID code is replaced from "10" to "11", and data D _TRC as shown in FIG. 5C is transmitted. Further, the data D _TRB from the relay device 62 is also received by the relay device 61, but is not re-relayed. This is because, as described above, the step-to-step loop in the flowchart of FIG. 3 prevents the same message from being re-relayed within a certain period of time. In this way, data is transmitted sequentially from each relay device 61, 62, 63, and information can be reliably transmitted no matter which floor of the building 50 the person to call is located.

Note that the transmission is performed by the relay device 62 or the relay device 6.
Of course, you can also start from 3.

In addition, in the above-described embodiment, as explained in the steps of the flowchart of _FIG . Although re-relay within a certain period of time is prevented, once a message has been transmitted, transmission may be unconditionally prohibited for a certain period of time. Furthermore, if the distance between the relay devices is long enough, there will be no problem in operation even if the same ID code is set.

H. Effects of the invention As is clear from the description of the embodiments described above, in the wireless relay device of the invention, the comparison result between the identification code of its own station and the identification code detected from the identification data in the received transmission data is determined by a predetermined value. When the value matches, the identification data in the received transmission data is replaced with the identification data based on the own station's identification code to form new transmission data, and this is transmitted at the same frequency as the reception frequency. There is. Therefore,
Data transmission between each relay device is performed successfully in sequence,
Moreover, on the receiving side, reception can be performed at the same frequency regardless of location. Further, the addition of relay devices can be easily performed.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a wireless relay device according to an embodiment of the present invention, FIG. 2 is a diagram showing the format of transmission data, and FIG. 3 is a flowchart for specifically explaining the operation of the wireless relay device. FIG. 4 is a diagram for explaining an example of use of the wireless relay device, and FIG. 5 is a diagram showing each transmission data transmitted from each relay device in FIG. 4. FIG. 6 is a diagram showing an example of a conventional wireless relay device, and FIG.
The figure similarly shows another example. 10...controller, 22...bit switch.

Claims (1)

[Claim for Utility Model Registration] Transmission data to be sent and received includes at least identification data representing an identification code for identifying each device and message data, and a memory for storing message data in the transmitted transmission data for a predetermined period of time. means, identification code detection means for detecting an identification code from identification data in transmission data received at frequency ₁ , identification code setting means for setting the identification code of the own station, and identification code setting means for setting the identification code of the own station; identification code comparison means for comparing the identification code with the identification code detected by the identification code detection means; data comparison means for comparing the message data stored in the storage means and the received message data; When the comparison result by the identification code comparison means matches a predetermined value and the comparison result by the data comparison means does not match, the identification data in the received transmission data is determined by the identification code set by the identification code setting means. 1. A wireless relay device comprising: data forming means for replacing identification data with new transmission data; and transmitting the transmission data formed by the data forming means at a frequency ₁ that is the same as a receiving frequency.