JPH0714237B2 - Transmission control method in wireless control system - Google Patents

Description

TECHNICAL FIELD The present invention relates to a transmission control method of transmission data which is preferably used in a wireless control system.

[Prior Art] There are wireless control systems using weak radio waves and those using optical signals. Particularly, an optical wireless control system using optical signals will be described as an example. The wireless control system is an optical wireless of a reception processing system configured by connecting a plurality of optical wireless transmitters (relay receivers) to a controller via a multiple signal line for an optical control signal transmitted by an optical wireless transmitter. The transmitter receives the signal, sends the received signal as transmission data to the controller side, decodes it at the controller side, and can remotely control the control load.

In such a control system, as shown in FIG.
When the control switch 1a of the optical wireless transmitter 1 is operated,
The same transmission data, which is an optical pulse, is transmitted continuously for a plurality of frames, and this transmission data is received by the plurality of relay receivers 2 connected to the controller 3 via the multiple signal line l, and received by the relay receivers. From the above, transmission data is transmitted to the controller 3, and ON / OFF control of the control load 4 such as a lighting fixture connected to the controller can be performed.

By the way, in such an optical wireless control system, for example, a method is conceivable in which a signal is transmitted to the controller side in parallel while the relay receiver is receiving the transmission data transmitted from the wireless transmitter. Although such a method has a high signal processing efficiency, it requires a high-speed processing operation for the microcomputer, which is the center of control, and therefore has a problem that the system configuration becomes complicated and the cost increases.

Further, the reception processing system of such a system is a relay receiver.
2, the control terminal unit 4 and the controller 3 are connected to the same multiplex signal line l, so that the transmission data from the wireless transmitter is transmitted continuously in a plurality of frames for each transmission operation. Therefore, the transmission data received by the relay receiver 2 side are successively transmitted by the multiplex signal line l.
Therefore, the transmission data from the relay receiver 2 occupies the multiplex signal line l, and as a result, the signal transmission to other load control devices is delayed and the control operation is delayed. there were.

[Problems to be Solved by the Invention] The present invention has been made in view of the above circumstances, and controls switching between the reception mode and the transmission mode of a relay receiver of a wireless control system according to the processing status of data in the system. Therefore, it is an object of the present invention to propose a transmission control method for a wireless control system in which the transmission efficiency of multiple signal lines is improved.

[Means for Solving the Problems] The present invention according to claim 1, which is proposed to achieve the above-mentioned object, comprises: receiving transmission data transmitted from a wireless transmitter by a wireless relay receiver; The transmitted transmission data is transmitted to the controller connected to the wireless relay receiver via the multiplex signal line, and is processed by the controller to control the control load connected to the multiplex signal line. In the wireless control system described above, the wireless transmitter is configured to continuously transmit the same transmission data of a plurality of frames for each transmission operation of one unit, and the wireless relay receiver transmits from the wireless transmitter. After confirming the reception of the transmission data, until the time to start receiving the transmission data of the next frame comes, Unless the acknowledge signal is received, the transmission mode is set, the multiplex transmission control that repeats the transmission of the received transmission data to the controller side is executed, and then at the time when the reception start time of the transmission data of the next frame is reached, , Switch the wireless relay receiver to the receiving mode, receive the transmission data from the wireless transmitter, and repeat the transmission mode and the receiving mode by the same method every time the transmission data is received from the wireless transmitter. It is characterized by doing so.

The present invention according to claim 2 provides a wireless relay receiver,
At least one bit length of the transmission data transmitted from the wireless transmitter from the time when the reception start time of the transmission data is reached when the reception mode is resumed after receiving the transmission data for at least one frame If the transmission data from the wireless transmitter has not been received and the transmission to the controller side has not been completed at the time of, the wireless relay receiver is switched to the transmission mode. hand,
The transmission data is transmitted to the controller side.

The present invention according to claim 3 is applied to the case where the transmission data transmitted from the wireless transmitter is an optical pulse signal, and the invention according to claim 4 is transmitted from the wireless transmitter. This applies to data whose transmission data is a radio signal.

[Operation] In the present invention as set forth in claim 1, the wireless transmitter continuously transmits the same transmission data of a plurality of frames by the transmission operation of one unit.

On the other hand, in the wireless relay receiver, in reception mode, every time one frame of transmission data is received, a frame check of the data is performed, and if the transmission data is abnormal, the data is ignored and the next frame is ignored. Prepare to receive the transmission data of.

The relay receiver checks the frame of the transmitted data,
If the transmission data is normal, validate the transmission data, switch to the transmission mode, start the transmission timer,
The transmission data received through the multiple signal line is transmitted to the controller.

After the transmission of the transmission data is completed, the relay receiver confirms the acknowledge signal from the controller, and if it receives the acknowledge signal, it switches to the reception mode when there is no other transmission data to transmit to the controller, and at the same time sets the transmission timer. Reset. However, if the acknowledge signal from the controller is not received, the transmission data is repeatedly transmitted until the remaining time until the transmission timer times out becomes shorter than the time required for one transmission of the transmission data. After that, the transmission of the transmission data to the controller is stopped, and when the transmission timer times out, the mode is switched to the reception mode. On the other hand, when the multiple signal lines are occupied by signal transmissions of other terminals and the like and transmission data cannot be transmitted to the controller, the remaining time until the transmission timer expires is 1
Waits for the transmission of the transmission data until it becomes shorter than the time required for one transmission, and after that, stops the transmission of the transmission data to the controller, and when the transmission timer times out, the relay receiver is switched to the reception mode. .

When the relay receiver is switched to the reception mode, the transmission data from the wireless transmitter is received again, and the above operation is repeated.

In the present invention according to claim 2, when the relay receiver is switched to the receiving mode again after receiving the transmission data for at least one frame, the time when the reception start time of the transmission data is reached. From the wireless transmitter, the presence or absence of the transmission data from the wireless transmitter is determined at the time when at least the one-bit length of the transmission data transmitted from the wireless transmitter has passed. The operation 1 is performed, but when there is no transmission data, if there is transmission data that has not been completely transmitted to the controller, the transmission mode is switched to transmission.

In the present invention according to claim 3, the transmission mode transmitted from the wireless transmitter is an optical pulse signal, and in the invention according to claim 4, the transmission mode transmitted from the wireless transmitter is a radio wave signal. Is.

[Embodiment] The transmission control method of the present invention according to claim 1 will be described below with reference to FIG.

In the figure, (a) is transmission data transmitted from the wireless transmitter, and shows an example in which one frame of data is continuously transmitted four times with a pause period by one transmission operation of the wireless transmitter. (B) is a transmission provided to the wireless relay receiver for obtaining timing for switching between a reception mode for receiving transmission data from the wireless transmitter and a transmission mode for transmitting the received transmission data to the controller. The operation state of the timer is shown, and further, (c) shows the state of signal transmission to the controller when the relay receiver is switched to the transmission mode.

Here, Tf is the time required to transmit one frame of transmission data from the wireless transmitter, Tk is a pause time provided between the frames of the transmission data to pause transmission and distinguish the frames, and Td is The frame check time required to perform a frame check to determine whether the transmission data is normal or abnormal after it is received by the relay receiver, Tp is the timer setting time of the transmission timer, and this transmission timer is , If the transmission data is determined to be normal by the frame check, it is activated immediately and the time is up after the set time Tp (set to Tp = Tf + Tk). Further, Th is the time required to transmit the received transmission data from the relay receiver to the controller.

The operation will be described below based on the time when the transmission of the transmission data from the wireless transmitter is started.

The wireless transmitter continuously transmits the same transmission data of the first to fourth frames by interposing the pause time Tk by one transmission operation.

In the wireless relay receiver, when receiving the first frame of the transmission data at time Tf in the reception mode, the frame check of the received data is performed for the time Td, and if the transmission data is abnormal, the data is ignored. And then the first
Prepare to receive the transmission data after the frame.

When the relay receiver checks the frame of the transmission data of the first frame and the transmission data is normal, the time T1
At (T1 = Tf + Td), the transmission data is validated, the transmission mode is immediately switched to, the transmission timer is started, and the received transmission data is transmitted to the controller through the multiple signal line.

After the transmission of this transmission data is completed, the relay receiver confirms the acknowledge signal from the controller, and if it receives the acknowledge signal, it switches to the reception mode at time (T1 + Th) if there is no other transmission data to transmit to the controller. At the same time, the transmission timer is reset.

However, when the acknowledge signal from the controller is not received for transmission of transmission data, transmission of transmission data is repeated until time TL when the remaining time until the transmission timer expires becomes shorter than time Tf. ,
After that, the transmission of the transmission data to the controller is stopped, and when the transmission timer times out at time T2, the mode is switched to the reception mode.

On the other hand, at time T1, when the multiple signal lines are occupied by the signal transmission of another terminal device or the like and transmission data cannot be transmitted to the controller, the remaining time until the transmission timer expires becomes shorter than Th. It waits for transmission of transmission data until time TL. If the multiple signal lines are occupied even after time TL, transmission of transmission data to the controller is stopped and the transmission timer times up at time T2. Then, the relay receiver is switched to the reception mode.

When the relay receiver is switched to reception mode at time T2,
The transmission data of the third frame is received again from the wireless transmitter, and the above operation is repeated.

Next, a transmission control method of the present invention according to claim 2 will be described.

The present invention is the control method in the case where the relay receiver enters the reception mode again after receiving the transmission data for at least one frame by the transmission control method according to claim 1, and starts the reception of the transmission data. The time from the time until the reception of at least one bit of the transmission data of one frame is completed is Tb.

In this control method, immediately after the transmission timer has timed out at time T2, the transmission timer is activated and time Ts (after the transmission timer is activated, (Tk-Td + Tb) time elapses)
Then, the presence / absence of transmission data from the wireless transmitter is determined. If there is transmission data, processing is performed according to the method described in claim 1, but if there is no transmission data, and transmission to the controller side is performed. If there is transmission data that has not been completed, the wireless relay receiver is switched to the transmission mode at time Ts, and control is performed to transmit the transmission data to the controller side.

Next, the present invention according to claim 3 is such that the transmission control is performed by receiving transmission data of an optical pulse signal transmitted from a wireless transmitter by a relay receiver. In the present invention described in (1), the transmission control is performed by receiving the transmission data of the radio wave signal transmitted from the wireless transmitter by the relay receiver.

[Advantages of the Invention] According to the present invention described in claims 1 and 2, since the operation mode of the relay receiver is switched and controlled according to the signal processing status of the system, the transmission efficiency of the multiple signal lines is improved. A transmission control method for a wireless control system can be realized.

According to the present invention described in claim 3, it is possible to realize an optical wireless control system capable of obtaining the same effects as the above.

Further, according to the present invention as set forth in claim 4, it is possible to realize a wireless control system by a radio wave signal that can obtain the same effect as the above.

[Brief description of drawings]

FIG. 1 is a diagram illustrating a transmission control method of the present invention, and FIG. 2 is a basic configuration diagram of a wireless control system. [Description of symbols] 1 ... Wireless transmitter 2 ... Wireless relay receiver 3 ... Controller 4 ... Control load l ... Multiple signal line

Claims (4)

[Claims] 1. A wireless relay receiver receives transmission data transmitted from a wireless transmitter, and the received transmission data is transmitted to a controller connected to the wireless relay receiver via a multiple signal line. In the wireless control system in which the control load connected via the multiple signal lines is controlled by processing by the controller, the wireless transmitter transmits the same number of frames for each unit of transmission operation. The wireless relay receiver starts receiving the transmission data of the next skipped frame after confirming the reception of the transmission data transmitted from the wireless transmission device. Until the time comes, unless the acknowledge signal from the controller side is received, the transmission mode is set and the signal is received. Then, the multiplex transmission control for repeating the transmission of the received data to the controller side is executed, and then, at the time when the reception start time of the transmission data of the next frame comes, the wireless relay receiver is switched to the reception mode, and Each time the transmission data from the wireless transmitter is received and processed, and thereafter the transmission data is received from the wireless transmitter,
A transmission control method in a wireless control system, characterized in that a transmission mode and a reception mode are repeatedly executed by a similar method. 2. The wireless relay receiver, when receiving the transmission data for at least one frame and then again in the reception mode, is transmitted from the wireless transmitter from the time when the reception start time of the transmission data is reached. If the transmission data from the wireless transmitter has not been received and there is transmission data that has not been transmitted to the controller side at the time when at least one bit length of the transmitted transmission data has passed, 2. The wireless control system according to claim 1, wherein the wireless relay receiver is switched to a transmission mode and multiplex transmission control is executed to transmit the received transmission data to the controller side. Transmission control method. 3. The transmission control method in the wireless control system according to claim 1, wherein the transmission data transmitted from the wireless transmitter is an optical pulse signal. 4. The transmission control method in the wireless control system according to claim 1, wherein the transmission data transmitted from the wireless transmitter is a radio wave signal.