JP4356158B2 - transceiver - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention performs wireless communication using a plurality of channels.transceiverIn particular, it relates to the operation at the time of reception.
[0002]
[Prior art]
When battery-powered radios communicate with each other, the “asynchronous communication method” is often used to reduce current consumption. In this method, the radio does not always check for the presence of radio waves from the other party, but checks for the presence of radio waves for a predetermined time. This is called “intermittent driving method”, and a predetermined time is called “intermittent time”. In this system, a radio that transmits radio waves needs to transmit radio waves that are longer than the “intermittent time” of the counterpart radio.
[0003]
On the other hand, in radio communication, “a plurality of channels are often used in consideration of radio wave interference, radio wave interference, noise, etc. In other words, the radio on the receiving side has radio waves of multiple channels every“ intermittent time ”. Therefore, the transmitting-side radio transmits a radio wave having a length longer than the “intermittent time” through a channel without interference. An example of such a system is shown in FIG.
[0004]
FIG. 4 is a block diagram of a “gas automatic meter reading system” that remotely collects meter reading values of a gas meter or the like using wireless communication. In FIG. 4, 7 is a gas meter in each household. Reference numeral 8 denotes a wireless slave unit. Reference numeral 9 denotes a wireless master device that performs wireless communication with the wireless slave device 8. Reference numeral 10 denotes a telephone network control device. 11 is the center of the gas company. The telephone network control device 10 and the center 11 communicate via a public telephone line. The wireless slave unit 8 and the wireless master unit 9 are battery-driven, and the “intermittent drive method” is performed for wireless communication. The wireless slave unit 8 and the wireless master unit 9 perform wireless communication using two predetermined channels.
[0005]
In other words, the wireless slave unit 8 and the wireless master unit 9 normally confirm the presence / absence of radio waves of two predetermined channels for each predetermined “intermittent time”. Checking the presence or absence of radio waves is called “carrier sense”. Further, when it is necessary to transmit radio waves in response to a command from the gas meter 7 or the gas company center 11, the wireless slave unit 8 or the wireless master unit 9 is longer than the “intermittent time” of the counterpart wireless unit. Send radio waves.
[0006]
Here, radio waves longer than the “intermittent time” are divided into predetermined “specific patterns” and necessary “communication data”. The predetermined telegram length of the “specific pattern” is determined to be equal to or longer than the “intermittent time” time of the counterpart wireless device. In other words, the receiving side can catch one of the repetitions of a predetermined “specific pattern” sent from the transmitting side radio device by carrier sense of two channels for each “intermittent time”, and the subsequent necessity Such “communication data” can be received. This timing diagram is shown in FIG.
[0007]
Here, a specific method of the two-channel “carrier sense” of the receiving-side radio will be described. When the receiving-side radio performs carrier sensing of two channels every “intermittent time”, first, “carrier sensing” is performed on the first channel. Therefore, when it is determined that “there is a carrier”, the process proceeds to the reception operation of “specific pattern”. Therefore, when the “specific pattern” can be received, the operation proceeds to the “communication data” reception operation, and the operation proceeds to the “communication data” reception operation. Here, a predetermined “timeout” is provided until reception of “communication data” is completed. This “timeout” is as long as the “intermittent time”. This is because when the reception side succeeds in receiving the "specific pattern" in the first part of the actual transmission radio wave "specific pattern" repetition, the "specific pattern" is repeated for a certain period of time. This is because the actual “communication data” is sent later, and the search for “communication data” must be continued during that time.
[0008]
Thereafter, if the “communication data” cannot be received even after the “timeout”, the process does not shift to the “carrier sense” operation of the second channel, but waits for the next intermittent carrier sense timing. This is due to the following reason. That is, if the transmitting side radio actually transmits radio waves on the first channel, radio waves cannot be transmitted on the second channel at the same time. There is no point in performing “carrier sense” on the second channel when reception of “communication data” fails within the “timeout” time on the channel.
[0009]
In addition, although the transmitting side radio device originally transmits radio waves on the second channel, the receiving side radio device radio device erroneously determines that there is a carrier in the “carrier sense” of the first channel. If the reception of the “specific pattern” is successful for some reason, the receiving radio will continue to search for “communication data” until the “timeout” time, so the transmitting radio actually transmits the radio wave. It is not possible to shift to the “carrier sense” operation of the second channel.
[0010]
On the other hand, even if it is determined that “no carrier” is determined in the “carrier sense” operation of the first channel, and “with carrier” is determined in the “carrier sense” operation of the first channel, If the “specific pattern” cannot be received, the process proceeds to the “carrier sense” operation of the second channel. Here, when it is determined that “there is a carrier” in the second channel, the process proceeds to the reception operation of the “specific pattern”. Therefore, when the “specific pattern” can be received, the operation proceeds to the “communication data” receiving operation. On the other hand, even if it is determined that “no carrier” is determined in the “carrier sense” operation of the second channel, and “with carrier” is determined in the “carrier sense” operation of the second channel, When the “specific pattern” cannot be received, the subsequent “carrier sense” operation is stopped and the “carrier sense operation is not performed until the next intermittent carrier sense timing.
[0011]
[Problems to be solved by the invention]
However, in the above-described conventional wireless communication system, in the two-channel “carrier sense”, the radio wave from the transmission-side radio is originally transmitted on the second channel (the channel on which the reception-side radio performs “carrier sense” second). In this case, the receiving side radio device erroneously determines that there is a carrier on the first channel (the first channel on which “carrier sense” is performed), and has successfully received a “specific pattern” for some reason. If this happens, the “communication data” sent after that will not be received. However, as described above, the “carrier sense” operation of the second channel is not performed, so that the original radio wave is normally received. There was a problem of being unable to.
[0012]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention is configured such that carrier sense means B performs carrier sense again after a lapse of a fixed time after carrier sense means A determines that “carrier is present”.
[0013]
According to the above invention, even when the carrier sense means A erroneously determines that “there is a carrier” and the wireless reception means receives the “specific pattern”, the carrier sense means B performs carrier sense again. Thus, communication failure at the intermittent reception timing can be prevented.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
  Radio device according to the first inventionIsChecks whether radio waves exist in multiple channels at predetermined time intervals T in a wireless device that performs radio communication using a method for checking the presence / absence of radio waves in multiple channels at predetermined intervals. When the carrier sense unit A and the carrier sense unit A confirm the presence of radio waves on the first channel, the first channel is a radio signal composed of a plurality of specific patterns and subsequent communication data. The wireless reception means for receiving wireless signals whose transmission times of the plurality of specific patterns are longer than the time T and the carrier sensing means A start measuring a predetermined time when the presence of radio waves is confirmed. The timer means and the presence of radio waves on the same channel as the channel on which the carrier sense means A has confirmed the presence of radio waves when the timer means completes the measurement. The carrier sense means B to be confirmed and the carrier sense means B have determined that the presence of the radio wave of the first channel has not been confirmed, and the wireless reception means has succeeded in receiving the specific pattern. A reception determination unit that cancels radio reception on the first channel when the reception of communication data is not completed, and the reception determination unit stops radio reception on the first channel; The carrier sense means A confirms the presence / absence of radio waves of a second channel different from the first channel, and when the carrier sense means A confirms the presence of radio waves of the second channel, The receiving means receives a radio signal composed of the plurality of specific patterns and subsequent communication data on the second channel.
[0015]
  In particular, the second invention is the first invention,The carrier sense means B that does not reconfirm the presence of radio waves when the presence of radio waves in the last channel is confirmed in the presence of radio waves in a plurality of channels.
[0016]
  The third invention is particularly the first invention,Carrier sense means A has carrier sense means B that does not reconfirm the presence of radio waves when the channels are not adjacent to each other while the presence of radio waves of a plurality of channels is confirmed.
[0018]
  The fourth invention is particularly the first invention,Carrier sense means A is provided for checking whether or not radio waves are present in a plurality of channels at predetermined intervals and changing the radio wave presence confirmation order of the plurality of channels.
[0019]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
[0020]
Example 1
FIG. 1 is a block diagram of the inside of a radio in the “radio communication system” according to the first embodiment of the present invention. In FIG. 1, reference numeral 1 denotes a radio main body. Reference numeral 2 denotes carrier sense means A. 3 is a wireless receiving means. Reference numeral 4 denotes timer means. Reference numeral 5 denotes carrier sense means B. Reference numeral 6 denotes reception determination means.
[0021]
In FIG. 1, the radio main unit 1 performs intermittent reception every predetermined time. Here, FIG. 2 shows a timing diagram of the intermittent period of the wireless device body 1 and communication data from the counterpart wireless device. That is, the wireless device main body 1 performs “carrier sense” of two channels “CH1” and “CH2” every predetermined interval: T2. On the other hand, the radio wave transmitted from the transmission side is a repetition of “specific pattern” and “communication data” during a predetermined time: T1. Next, by setting “T1> T2”, the receiving-side radio device (radio device main body 1) can perform “carrier sense” at a timing at which specific data from the transmitting side can be surely captured. Here, the detailed operation at the time of “carrier sense” for each T2 will be described. The radio main unit 1 activates the carrier sense means A2 when a predetermined time T2 has elapsed, and first performs “carrier sense” for the first channel. Here, when it is determined that “there is a carrier” in the first channel, the carrier sense means A2 outputs that fact to the radio reception means 3 and the timer means 4.
[0022]
The wireless receiving means 3 receives the output that the carrier sense means A2 has determined that “there is a carrier”, shifts to a “specific pattern” receiving operation, and receives “communication data” when receiving the “specific pattern”. Move to operation. If the wireless reception unit 3 cannot receive the “specific pattern” within a predetermined time, the wireless reception unit 3 outputs a message to that effect to the carrier sense unit A2. When the carrier sense unit A2 receives the output indicating that the “specific pattern” has not been received from the radio reception unit 3, if it is in the first channel, the “carrier sense” operation of the second channel is performed next. Migrate to If the wireless reception unit 3 has successfully received the “specific pattern”, the wireless reception unit 3 then proceeds to a “communication data” reception operation.
[0023]
If “communication data” cannot be received within a predetermined time, the intermittent reception operation at the timing ends, and the wireless device body 1 does not perform the reception operation until the next intermittent reception timing. When the carrier sense means A2 determines “no carrier” in the first channel, and when the wireless reception means 3 receives an output indicating that reception of the “specific pattern” has failed in the first channel, the carrier sense means A2 performs the “carrier sense” operation in the second channel and stops the measurement of the timer means 4.
[0024]
When the carrier sense means A2 determines that “there is a carrier” in the second channel, the carrier sense means A2 outputs that fact to the wireless reception means 3 and the timer means 4. The wireless receiving means 3 receives the output that the carrier sense means A2 has determined that “there is a carrier”, shifts to a “specific pattern” receiving operation, and receives “communication data” when receiving the “specific pattern”. Move to operation. If the wireless reception unit 3 cannot receive the “specific pattern” within a predetermined time, the wireless reception unit 3 outputs a message to that effect to the carrier sense unit A2. When the carrier sense unit A2 receives the output indicating that the “specific pattern” has not been received from the wireless reception unit 3, if it is in the second channel, the carrier sense unit A2 ends the intermittent reception operation at the timing, The machine body 1 does not perform the reception operation until the next intermittent reception timing.
[0025]
If the wireless reception unit 3 has successfully received the “specific pattern”, the wireless reception unit 3 then proceeds to a “communication data” reception operation. If “communication data” cannot be received within a predetermined time, the intermittent reception operation at the timing ends, and the wireless device body 1 does not perform the reception operation until the next intermittent reception timing. When the carrier sense means A2 determines that “no carrier” in the second channel, and when the wireless reception means 3 receives an output indicating that the reception of the “specific pattern” has failed in the second channel, the timer means 4 Is stopped, the intermittent reception operation at the timing is terminated, and the radio main unit 1 does not perform the reception operation until the next intermittent reception timing.
[0026]
On the other hand, when the timer means 4 receives an output to the effect that “there is a carrier” in the first channel or the second channel from the carrier sense means A2, the timer means 4 starts measuring a predetermined time. Then, when the measurement is completed, the fact is output to the carrier sense means B5. When the carrier sense unit B5 receives a signal indicating that the measurement is completed from the timer unit 4, the channel (when the timer unit 4 determines that “there is a carrier” in the first channel from the carrier sense unit A2 and starts measurement) In the case of the first channel, when the timer means 4 determines that “there is a carrier” in the second channel from the carrier sense means A2, and starts measurement, the carrier sense of the second channel) is performed.
[0027]
Here, when the carrier sense means B5 determines that “no carrier”, the carrier sense means B5 outputs the fact to the reception determination means 6. When the reception determination unit 6 receives an output indicating “no carrier” from the carrier sense unit B5, the reception determination unit stops the reception operation of the “specific pattern” or “communication data” of the wireless reception unit 3. When the wireless reception unit 3 receives a signal indicating “reception stop” from the reception determination unit 6, the wireless reception unit 3 stops receiving the “specific pattern” or “communication data”, and outputs the message to the carrier sense unit A2. The carrier sensing means A2 receives the stop instruction from the reception determining means 6 when the wireless receiving means 3 receives a signal indicating that the reception is stopped, and processing when the wireless receiving means 3 fails to receive the “specific pattern”. The same processing is performed.
[0028]
That is, when the first channel is being received, the operation shifts to the carrier sense operation of the second channel, and when the second channel is being received, the intermittent reception operation at the timing is terminated, The reception operation is not performed until the intermittent reception timing. When the carrier sense unit B5 determines that “there is a carrier”, the carrier sense unit B5 does not output to the reception determination unit 6. Therefore, the wireless reception unit 3 continues the reception process of “specific pattern” and “communication data”.
[0029]
Through the series of operations described above, even if the carrier sense means A2 erroneously determines the presence or absence of radio waves on the channel as “carrier present” and receives the “specific pattern”, the carrier sense means B5 Since the presence / absence is reconfirmed, the carrier sense operation in the other channel can be performed.
[0030]
(Example 2)
FIG. 1 is a block diagram of the inside of a wireless device in a “wireless communication system” according to a second embodiment of the present invention. In FIG. 1, reference numeral 1 denotes a radio main body. Reference numeral 2 denotes carrier sense means A. 3 is a wireless receiving means. Reference numeral 4 denotes timer means. Reference numeral 5 denotes carrier sense means B. Reference numeral 6 denotes reception determination means.
[0031]
In FIG. 1, the operation of the intermittent reception of the radio main unit 1 and the communication data of the other party, as well as the carrier sense means A2, the radio reception means 3, the timer means 4 and the reception determination means 6 are the same as in the first embodiment. It is. Here, the operation of the carrier sense means B5 will be described. When the carrier sense means B5 receives a signal indicating that the measurement is completed from the timer means 4, the carrier sense means B5 performs carrier sense of the channel, but the timer means 4 determines from the carrier sense means A2 that “there is a carrier” in the second channel. When measurement is started, carrier sense of the second channel is not performed, and output to the reception determination unit 6 is not performed.
[0032]
Even if the carrier sense means A2 erroneously determines that “there is a carrier” during the carrier sense of the second channel and the wireless reception means 3 receives the “specific pattern”, This is because the original radio wave of the channel is not lost. This is a system in which the system of this embodiment performs wireless communication using two predetermined channels, and the order of carrier sense of the receiver is the order of “first channel” and “second channel”. This is because.
[0033]
That is, when carrier sense means A2 erroneously determines that “there is a carrier” at the time of carrier sense of “first channel” and the wireless reception means 3 has successfully received the “specific pattern”, Even if the “communication data” cannot be received even after the “timeout”, the operation does not shift to the “carrier sense” operation of the second channel, and a problem occurs because the next intermittent carrier sense timing is waited. The second intermittent carrier sense timing when the carrier sense means A2 erroneously determines that “there is a carrier” and the wireless reception means 3 has successfully received the “specific pattern” at the time of carrier sense of “channel 2”. Transition to the operation of waiting for the carrier sense means A2 in the second channel when the carrier sense means A2 determines “no carrier” or the carrier sense means A2 Rear also determines that "the radio reception means 3 is for the same processing as in the case of failure in the reception of the" specific pattern ".
[0034]
This is true even when the carrier sense order of the wireless device 1 is not based on a predetermined order. In carrier sense at the intermittent reception timing, the carrier sense of the last channel of a plurality of channels is performed. apply. That is, since this method is not performed for all channels, an increase in current consumption accompanying carrier sense is minimized.
[0035]
(Example 3)
FIG. 1 is a block diagram of the inside of a wireless device in a “wireless communication system” according to a third embodiment of the present invention. In FIG. 1, reference numeral 1 denotes a radio main body. Reference numeral 2 denotes carrier sense means A. 3 is a wireless receiving means. Reference numeral 4 denotes timer means. Reference numeral 5 denotes carrier sense means B. Reference numeral 6 denotes reception determination means.
[0036]
In FIG. 1, the operation of the intermittent reception of the radio main unit 1 and the communication data of the other party, as well as the carrier sense means A2, the radio reception means 3, the timer means 4 and the reception determination means 6 are the same as in the first embodiment. It is. Here, the operation of the carrier sense means B5 will be described. When the carrier sense unit B5 receives a signal indicating that the measurement is completed from the timer unit 4, the carrier sense unit B5 performs carrier sense of the channel, but a channel in which two predetermined channels on which the radio main unit 1 communicates are adjacent to each other The carrier sense of the channel is performed only when
[0037]
The carrier sense performed by the carrier sense means B5 is normal when the carrier sense means A2 erroneously determines that “there is a carrier” in the channel, and the radio reception means 3 also receives the “specific pattern” by mistake. This is in order to prevent the reception of radio waves on the channel from failing, but such a situation in which such a phenomenon is likely to occur is often seen when the channels used in the system are adjacent.
[0038]
This is because the transmitting side radio device is likely to emit spurious radio waves in the channel adjacent to the channel originally transmitted, or the receiving side radio device (radio device body 1 in this embodiment) accurately detects the carrier sense of the channel. This is because there is a possibility that the radio wave of the adjacent channel is judged as “having a carrier” and data is demodulated (received) for a certain time from the carrier sense.
[0039]
In such a case, there is a possibility that the carrier sense means A2 erroneously determines that “there is a carrier” and the wireless reception means 3 succeeds in receiving the “specific pattern”. In such a situation, the carrier sense means A2 erroneously determines that “there is a carrier” during the carrier sense of the “first channel”, and the radio reception means 3 succeeds in receiving the “specific pattern”. Even if the “communication data” cannot be received even after the “timeout”, the second channel “carrier sense” operation is not performed, and a normal radio wave is received to wait for the next intermittent carrier sense timing. It will be lost.
[0040]
On the other hand, if the two predetermined channels with which the wireless device main body 1 communicates are channels that are not adjacent to each other, the carrier sense means A2 erroneously determines that “there is a carrier” and the wireless reception means 3 “ The probability of receiving a “specific pattern” is reduced. Therefore, even if the carrier sense unit B5 receives the output of the timer unit 4, if the two predetermined channels with which the radio main unit 1 communicates are not adjacent to each other, the carrier sense is not performed again. Thus, it is possible to reduce the number of carrier senses of the carrier sense means B5.
[0041]
(Example 4)
FIG. 3 is a block diagram of the inside of the wireless device in the “wireless communication system” according to the fourth embodiment of the present invention. In FIG. 1, reference numeral 1 denotes a radio main body. Reference numeral 2 denotes carrier sense means A. 3 is a wireless receiving means. Reference numeral 4 denotes timer means.
[0042]
In FIG. 3, the contents of the intermittent reception of the wireless device main body 1 and the communication data of the other party are the same as those in the first embodiment. The wireless device body 1 activates the carrier sense means A2 when a predetermined time elapses, and first performs “carrier sense” for the first channel. Here, when it is determined that “there is a carrier” in the first channel, the carrier sense means A 2 outputs that fact to the timer means 4. When the timer means 4 receives an output indicating “there is a carrier” in the first channel from the carrier sense means A2, the timer means 4 starts measuring a predetermined time.
[0043]
Then, when the measurement is completed, the fact is output to the wireless receiving means 3. The radio receiving means 3 does not perform the “specific pattern” receiving operation until receiving the output from the timer means 4, and shifts to the “specific pattern” receiving operation from the time when the output of the timer 4 is received. If received, the operation proceeds to the “communication data” reception operation. If the wireless reception unit 3 cannot receive the “specific pattern” within a predetermined time, the wireless reception unit 3 outputs a message to that effect to the carrier sense unit A2. When the carrier sense unit A2 receives an output indicating that the “specific pattern” has not been received from the wireless reception unit 3, if it is in the first channel, the “carrier sense” operation of the second channel is performed next. Migrate to If the wireless reception unit 3 has successfully received the “specific pattern”, the wireless reception unit 3 then proceeds to a “communication data” reception operation.
[0044]
If “communication data” cannot be received within a predetermined time, the intermittent reception operation at the timing ends, and the wireless device body 1 does not perform the reception operation until the next intermittent reception timing. When the carrier sense means A2 determines “no carrier” in the first channel, and when the wireless reception means 3 receives an output indicating that reception of the “specific pattern” has failed in the first channel, the carrier sense means A2 performs the “carrier sense” operation in the second channel and stops the measurement of the timer means 4. When the carrier sense means A2 determines that “there is a carrier” in the second channel, the carrier sense means A2 outputs a message to that effect to the timer means 4. When the timer means 4 receives an output indicating “there is a carrier” in the second channel from the carrier sense means A2, the timer means 4 starts measuring a predetermined time.
[0045]
Then, when the measurement is completed, the fact is output to the wireless receiving means 3. The wireless receiving means 3 receives the output of the timer means 4 and shifts to a “specific pattern” receiving operation. When receiving the “specific pattern”, it shifts to a “communication data” receiving operation. If the wireless reception unit 3 cannot receive the “specific pattern” within a predetermined time, the wireless reception unit 3 outputs a message to that effect to the carrier sense unit A2. When the carrier sense means A2 receives the output indicating that the “specific pattern” could not be received from the wireless reception means 3, if it is in the second channel, the carrier sense means A2 ends the intermittent reception operation at the timing, The machine body 1 does not perform the reception operation until the next intermittent reception timing. If the wireless reception unit 3 has successfully received the “specific pattern”, the wireless reception unit 3 then proceeds to a “communication data” reception operation.
[0046]
If “communication data” cannot be received within a predetermined time, the intermittent reception operation at the timing ends, and the wireless device body 1 does not perform the reception operation until the next intermittent reception timing. When the carrier sense means A2 determines that “no carrier” in the second channel, and when the wireless reception means 3 receives an output indicating that the reception of the “specific pattern” has failed in the second channel, the timer means 4 Is stopped, the intermittent reception operation at the timing is terminated, and the radio main unit 1 does not perform the reception operation until the next intermittent reception timing.
[0047]
Through the series of operations as described above, even when the carrier sense means A2 erroneously determines that “there is a carrier” in the channel, the wireless reception means 3 keeps “specific pattern” until the timer means 4 finishes measuring for a certain time. Does not shift to receive operation.
[0048]
Here, the reason why the carrier sensing means A2 erroneously determines that “there is a carrier” in the channel is such that the spurious radio wave is likely to be emitted to the adjacent channel of the channel originally transmitted by the transmitting-side radio as in the third embodiment. Or it is difficult for the receiving side radio device (radio device main body 1 in this embodiment) to accurately perform carrier sense of the channel, and it is determined that the radio wave of the adjacent channel is “with carrier” and carrier sense This is because the data may be demodulated (received) for a certain period of time.
[0049]
Therefore, by not performing the reception operation of the “specific pattern” for a certain period of time, the radio reception unit 3 can prevent the above-described spurious radio wave and data demodulation of adjacent channels for a certain period.
[0050]
(Example 5)
FIG. 1 is a block diagram of the inside of a wireless device in a “wireless communication system” according to a fifth embodiment of the present invention. In FIG. 1, reference numeral 1 denotes a radio main body. Reference numeral 2 denotes carrier sense means A. 3 is a wireless receiving means. Reference numeral 4 denotes timer means. Reference numeral 5 denotes carrier sense means B. Reference numeral 6 denotes reception determination means.
[0051]
In FIG. 1, the intermittent reception of the wireless device main body 1 and the contents of communication data on the other side, as well as the operations of the carrier sense means B5, the wireless reception means 3, the timer means 4 and the reception determination means 6 are the same as in the first embodiment. It is. Here, the operation of the carrier sense means A2 will be described. The carrier sense means A2 shifts the wireless device main body 1 to the carrier sense operation every predetermined intermittent period. Then, carrier sense is performed for two predetermined channels, but the carrier sense order of the two channels is changed depending on the case.
[0052]
For example, when carrier sense is performed in the order of “channel 1” and “channel 2” at the previous intermittent cycle timing, carrier sense is performed in the order of “channel 2” and “channel 1” at the current intermittent cycle timing. This is effective when the radio wave transmitted by the counterparty radio device is transmitted several times, for example, through “channel 2”.
[0053]
That is, at the previous intermittent cycle timing, the carrier sense means A2 performs the carrier sense in the order of “channel 1” and “channel 2”, so that the radio wave transmitted from the counterpart wireless device on “channel 2” is transmitted to the first channel. In other words, if the carrier sense in “channel 1” is erroneously determined as “carrier present” and the wireless receiving means 3 has successfully received the “specific pattern”, the wireless receiving means 3 Even if “communication data” cannot be received after the “timeout”, the operation shifts to the “carrier sense” operation of the second channel, that is, “channel 2” in which the other radio is actually transmitting radio waves. However, even if there is a problem of communication failure due to waiting for the next intermittent carrier sense timing, “channel 2” will be To perform the first carrier sense as the channel, such a problem does not occur.
[0054]
That is, the probability of communication failure can be reduced to 1/2. It should be noted that the probability of communication failure can be considerably suppressed by utilizing this method together with the method for preventing communication failure by carrier sense of the carrier sense means B5 as in the embodiment.
[0055]
As described above, the communication systems using two channels have been described in the first to fifth embodiments, but the number of communication channels may be three or more. The carrier sense performed by the carrier sense means A2 and the carrier sense means B5 may be performed once or a plurality of times. Alternatively, continuous carrier sense for a fixed time may be used.
[0056]
【The invention's effect】
  As apparent from the above explanationRadio device described in this embodimentAccording to the following effects.
[0057]
  one,In a system that performs intermittent reception using multiple channels to receive data when receiving carrier sense when receiving data and receive carrier data and determine carrier presence again after a certain period of time. A decrease in the communication failure rate can be prevented.
[0058]
  Also,Since the carrier sense is not performed again after a certain period of time only for the channel that performs carrier sense last in the carrier sense order during intermittent carrier sense of multiple channels, the communication failure rate is reduced by a method that minimizes the increase in current consumption. Decline can be prevented.
[0059]
  Also,Only when multiple channels are adjacent to each other during intermittent carrier sensing of multiple channels, data is received when the carrier is present, and carrier sense is performed again after a certain period of time to determine the presence of carriers. It is possible to prevent a decrease in the communication failure rate with a method in which the increase is minimized.
[0060]
  Also,By stopping the reception of data for a certain period of time after determining that there is a carrier during intermittent carrier sensing of multiple channels, it is possible to prevent a decrease in the communication failure rate without changing the number of carrier senses. It is possible to prevent a decrease in the communication failure rate with a method that minimizes the increase.
[0061]
  Also,By changing the order of channels in which carrier sensing is performed during intermittent carrier sensing of a plurality of channels, it is possible to prevent a decrease in the communication failure rate by a method that minimizes an increase in current consumption due to carrier sensing. Further, by combining with a plurality of carrier sense techniques, there is a further effect due to a decrease in the communication failure rate.
[Brief description of the drawings]
FIG. 1 is a block diagram of a receiver side of a wireless communication system according to first, third, and fifth embodiments of the present invention.
FIG. 2A is a diagram showing transmission data in a wireless communication system.
(B) The figure which shows the intermittent reception timing of the receiving side in the system
FIG. 3 is a block diagram on the receiver side of a wireless communication system according to a fourth embodiment of the present invention.
FIG. 4 is a block diagram of a conventional automatic meter reading system using radio.
[Explanation of symbols]
1 Radio unit
2 Carrier sense means A
3 Radio reception means
4 Timer means
5 Carrier sense means B
6 Reception determination means

Claims (4)

In a wireless device that performs wireless communication using a method for confirming the presence or absence of radio waves of a plurality of channels at predetermined intervals ,
Carrier sense means A for confirming whether or not radio waves exist in a plurality of channels at predetermined time T ;
When the carrier sense means A confirms the presence of radio waves on the first channel, the first signal is a radio signal composed of a plurality of specific patterns and subsequent communication data on the first channel, and the plurality of specific patterns Wireless receiving means for receiving a wireless signal having a transmission time longer than the time T ;
Timer means for starting measurement of a predetermined time when the carrier sense means A confirms the presence of radio waves ;
Carrier sense means B for reconfirming the presence of radio waves on the same channel as the channel on which the carrier sense means A has confirmed the presence of radio waves when the timer means completes the measurement;
When the carrier sense means B determines that the presence of the radio wave of the first channel has not been confirmed , the wireless reception means has successfully received the specific pattern but has not yet completed reception of the communication data. Receiving determination means for canceling wireless reception on the first channel ,
When the reception determination means stops wireless reception on the first channel, the carrier sense means A confirms the presence or absence of radio waves on a second channel different from the first channel,
When the carrier sense means A confirms the presence of the radio wave of the second channel, the radio reception means receives a radio signal composed of the plurality of specific patterns and subsequent communication data on the second channel. Do
transceiver. The carrier sense means B does not reconfirm the presence of radio waves when the carrier sense means A confirms the presence of radio waves in the last channel while confirming the presence of radio waves of a plurality of channels. The listed radio. 2. The radio according to claim 1, wherein when the carrier sense means A confirms the presence of radio waves of a plurality of channels and the plurality of channels are not adjacent to each other, the carrier sense means B does not reconfirm the presence of the radio waves. Machine. 2. The radio set according to claim 1, further comprising carrier sense means A for checking whether or not radio waves exist in a plurality of channels at predetermined intervals and changing a radio wave presence check order of the plurality of channels .

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