JP2011239076A5 - - Google Patents

Description

FIG. 2 is a block diagram of the wireless device 10. Other wireless devices have the same configuration as the wireless device 10. In FIG. 2 , a portion surrounded by a broken line is the wireless device 10, and the wireless device 10 includes a transmission unit 102, a reception unit 103, a communication control unit 104, a ROM (Read Only Memory) 105, a RAM (RAM: Random Access). Memory) 106, interface unit 107, and power supply unit 108. In addition, an antenna 101 and an input / output device 109 provided as necessary are provided outside the wireless device 10.

The contents stored for each of history 1 to history 4 are “original transmission source address”, “packet type”, “packet number”, and “remaining retransmission count”. These four are collectively referred to as the Earl E. Sea Bui eye NF O variable (RECVINFO variable).

If it is known in advance that there is only one packet type, it is not necessary to determine “packet type”. When the “packet type” is not determined, the information (history 5) included in the received message packet includes a plurality of (original history source addresses) stored in the ram 106 (history 4 to history 1) and If it does not match all of the “packet numbers” (in other words, (history 4 to history 1)), each “original source address” and “packet number” is compared with those of history 5 to history 5 and history 4 history 5 and history 3 history 5 and history 2, or, in the history 5 and history 1, all, at least one "original source address" and "packet number" does not match Control) to forward the received message packet.

“Carrier sense” starts from a certain time (starting from carrier sense time), waits for a predetermined time (carrier sense time), and recognizes that transmission (transfer) from other wireless devices is not performed within the predetermined time In this case, it means a technique in which the device itself does not transfer when it starts to transfer and recognizes that transmission (transfer) from another wireless device has been performed. Here, the carrier sense time is expressed by Equation 1 below.
Carrier sense time = random wait time + correction value (Formula 1)
The random wait time in Equation 1 takes a random value in the range of 0 to 2 ms, and is a maximum of 2 ms. Further, the correction value in Expression 1 is expressed by Expression 2.
Correction value = RANDOM_ADJ variable value × coefficient (Equation 2)
Here, the value of the RMMDJ variable (RANDOM_ADJ variable) is 0, 1, 2, 3 , 4, and 5, and the value of the coefficient is 3 ms. Also, the carrier sense time starting point is the time when transmission of the wireless device 10 (see FIG. 9) ends (in FIG. 9, time t ₁ , time t ₂ , time t ₃ , time t ₄ , time t ₅ ). .

As described above, the carrier sense time of each wireless device has a time of 1 ms and is separated and does not overlap. When setting the maximum value of the random wait time, in this way, whether or not another wireless device has started transferring with a time margin of at least 1 ms so that the carrier sense times of the wireless devices do not overlap. Can be judged. That is, the time of 1 ms is set on the assumption that the wireless device has a performance capable of detecting that another wireless device has started transmission within a processing time of 1 ms. This time of 1 ms corresponds to a coefficient— (maximum value of random wait time). Therefore, when the wireless device has a performance capable of determining the transfer from other wireless devices faster, the maximum value of the random weight time is set larger than 2 ms, and the distribution of the random wait time in the plurality of wireless devices is increased. The probability of transferring the same information from a plurality of wireless devices in an overlapping manner can be reduced. From the perspective of the transfer rate in the wireless mesh network system, the following can be said from the opposite viewpoint. When the carrier sense processing of the present embodiment is appropriate, there are many cases where the wireless device corresponding to the value of the RANDOM_ADJ variable is performing a transfer operation. In this case, the carrier sense time is random. It is equal to the wait time. Therefore, within the range allowed by the performance of the wireless device, the value of the maximum value of the random wait time can be set to a time shorter than the current 2 ms, for example, and the transfer rate of the wireless mesh network system can be increased (fastened).

FIG. 12 is a diagram illustrating a flowchart of proxy response. The proxy response process will be described with reference to FIG. In the process shown in the flowchart of FIG. 12, a history table similar to that shown in FIG. 7 used in the return process is used. However, unlike the history table shown in FIG. 7, the message packet is used as an acknowledgment signal (ACK signal). Only the history when applicable is stored in the history table. Therefore, although the message packet targeted for the history in the return processing and the message packet targeted for the history in the proxy response are different, the same term “history” is used. Further, the history table stores three histories of the reception confirmation signal. Further, the contents to be stored are “original source address”, “destination address”, and “packet number”. Therefore, as the capacity of the ram 106, 9 bytes are required to store three histories.

That is, the contents of the proxy response processing described above are summarized as follows. When the message packet received by the wireless device is a reception confirmation signal, control is performed so that the “original transmission source address”, “destination address”, and “packet number” included in the reception confirmation signal are stored in the ram. . When the received message packet is a data signal, the information included in the received message packet includes the “original transmission source address”, “destination address”, and “ When the packet number matches, the reception confirmation signal is controlled to be transmitted to the transmission source wireless device.

Claims (1)

The communication control unit
When the received message packet is a reception confirmation signal, control is performed to store the original transmission source address and the packet number included in the reception confirmation signal in the ram, and the received message packet is a data In the case of a signal , when the information included in the received message packet matches the original transmission source address and the packet number included in the reception confirmation signal stored in the ram, the reception confirmation signal To transmit to the transmitting wireless device,
The wireless mesh network system according to claim 1.