JP2013211929A5 - Wireless communication system, wireless signal data structure, receiver, and transmitter - Google Patents

Description

The present invention relates to a wireless communication system that performs wireless communication using a plurality of wireless channels, a data structure of a wireless signal, a receiver, and a transmitter .

The present invention has been made in view of the above-mentioned reasons, and the object of the present invention is to reduce the possibility of missing a preamble of a radio signal transmitted by a transmitter and to transmit and receive a radio signal in a short time. It is to provide a radio communication system , a radio signal data structure, a receiver, and a transmitter .

In order to achieve the above object, according to the first aspect of the present invention, one or a plurality of transmitters for selectively selecting a plurality of radio channels having different frequencies and transmitting a radio signal are transmitted from the transmitter. and a receiver for receiving a radio signal, the radio signal has a preamble in which a predetermined bit synchronization pattern is repeatedly arranged, and a data arranged subsequent to the preamble, the receiver, the an operation input unit for setting information about the transmitter, for each predetermined scan cycle, when scanned sequentially switching the radio channels to be scanned by the division, detecting the bit synchronization pattern for each of the radio channel a synchronous bit detection unit, when the bit synchronization pattern is detected, and a data reception unit for receiving the data following the preamble For example, the preamble is at least closed and bit length corresponding to one period of time of the scan cycle, the bit length corresponding to the sum and the bit length necessary for the detection of the bit synchronization pattern, the receiver, the An instruction signal for instructing change of the length of the preamble is transmitted to the transmitter according to information set by the operation input unit, and the transmitter changes the length of the preamble according to the received instruction signal. characterized in that it.

The invention of claim 2 is transmitted from one or more transmitters that selectively transmit a plurality of radio channels having different frequencies and transmits radio signals, and is transmitted and received between the receivers and the transmitters. The radio signal has a preamble in which a predetermined bit synchronization pattern is repeatedly arranged, and data arranged in succession to the preamble, and the preamble is received by the receiver. A bit length obtained by adding a bit length corresponding to a time corresponding to one period of a scan cycle in which the wireless channels to be scanned are sequentially switched by time division and a bit length necessary for detecting the bit synchronization pattern. And at least the preamble by the transmitter in response to an indication signal transmitted from the receiver in response to information about the transmitter Characterized in that it is a configuration in which the length of is changed.

The invention of claim 3 is a receiver that receives a radio signal transmitted from one or more transmitters that selectively transmit a radio signal by selecting a plurality of radio channels having different frequencies. The radio signal has a preamble in which a predetermined bit synchronization pattern is repeatedly arranged, and data arranged in succession to the preamble, and the receiver has an operation input unit for setting information on the transmitter; A synchronization bit detection unit that sequentially scans and scans the wireless channels to be scanned in a time-sharing manner for each predetermined scanning period, and detects the bit synchronization pattern for each wireless channel; and the bit synchronization pattern is detected. A data receiving unit that receives the data following the preamble, and the preamble includes the scan period. It has at least a bit length obtained by adding a bit length corresponding to the time of one cycle and a bit length necessary for detecting the bit synchronization pattern, and the length of the preamble according to the information set by the operation input unit An instruction signal instructing the change of the length is transmitted to the transmitter.

The invention of claim 4 is a transmitter that alternatively selects a plurality of radio channels having different frequencies and transmits a radio signal on the selected radio channel to a receiver, wherein the radio signal includes: A preamble having a predetermined bit synchronization pattern repeatedly arranged and data arranged following the preamble, and the preamble is scanned by the receiver sequentially switching the radio channels to be scanned by time division. And at least a bit length obtained by adding a bit length corresponding to a time corresponding to one scan period to be detected and a bit length necessary for detection of the bit synchronization pattern, and transmitted from the receiver. A setting means for changing the length of the preamble when receiving an instruction signal instructing a change in length; That.

As described above, in the present invention, there is a high possibility that the preamble of the radio signal transmitted from the transmitter is detected on the receiver side. Therefore, the radio communication in which the time required for transmitting and receiving the radio signal is shortened. Systems , wireless signal data structures, receivers, and transmitters may be provided.

The transmitter 20a ... 20d, together with the receiver 10 constitute a doorphone system, each transmitter 20a ... 20d are intercom slave unit for transmitting a call signal in response to the visitors of the operation, for example, a human body consists of a camera detection It is a human body detection sensor that transmits a signal or a lock that is attached to a door such as a front door and transmits a key opening / closing signal. The transmitters 20x... 20z constitute an illumination control system together with the receiver 10. Each transmitter 20x... 20z transmits a dimming signal in accordance with a user operation, and the lighting state of the light source. It is a lighting fixture that outputs a lighting signal, or an illuminance sensor that outputs an illuminance detection signal that is attached to a ceiling surface or the like and indicates the brightness of the illumination area.

Here, the bit length of the preamble PA is set to 160 bits, which is 96 bits corresponding to the scanning period (20 ms) in the receiver 10 and 64 bits necessary for detecting the preamble PA. In this way the child, the receiver 10 from the head between the 96-bit preamble PA is likely to detect the bit synchronization pattern, further thereafter, 64-bit required for the detection of at least the preamble PA Since the bit synchronization pattern continues, the receiver 10 can detect the preamble PA and receive a radio signal. Thereby, since the probability that the radio signal transmitted by the transmitter 20 is received by the receiver 10 is increased, the transmitter 20 is less required to retransmit the same radio signal, and the time required for transmission / reception can be reduced. it can.

In this embodiment, the example in which the wireless communication system is applied to a door phone system and a lighting control system has been described. However, remote meter reading is performed through a wide-area communication network, and maintenance and meter reading are performed by a maintenance terminal. It may be adapted to the system.
The wireless communication system includes one or more transmitters that selectively transmit a plurality of wireless channels having different frequencies and transmit wireless signals, and a receiver that receives the wireless signals transmitted from the transmitters. The radio signal has a preamble in which a predetermined bit synchronization pattern is repeatedly arranged and data arranged in succession to the preamble, and the receiver scans in a time division manner at every predetermined scanning period. The target wireless channel is sequentially switched and scanned, and a synchronization bit detection unit that detects the bit synchronization pattern for each wireless channel, and when the bit synchronization pattern is detected, receives the data following the preamble. A data receiving unit, wherein the preamble has a bit length corresponding to a time corresponding to one period of the scan period; Characterized in that it has at least a bit length corresponding to the sum and the bit length necessary for the detection of the serial bit synchronization pattern.
According to this wireless communication system, since the possibility that the receiver detects the bit synchronization pattern of the wireless signal transmitted by the transmitter is increased, the possibility of missing the preamble of the wireless signal transmitted by the transmitter is reduced and shortened. Wireless signals can be sent and received over time.
In this wireless communication system, the receiver includes channel setting means for setting a plurality of wireless channels to be scanned, and the transmitter is configured according to the number of wireless channels set by the channel setting means. It is characterized by changing the length of the preamble.
According to this radio communication system, the preamble length of the transmitter can be increased or decreased according to the number of scans of the radio channel set by the receiver, so that a more optimal preamble length can be selected. The radio signal can be transmitted and received in a shorter time while reducing the possibility of missing the preamble of the radio signal transmitted by the.
In this wireless communication system, the receiver includes a priority setting unit configured to set a priority for each radio channel to be scanned, and the synchronization bit detection unit is configured based on the priority for each radio channel. The number of scans of the wireless channel in the scan cycle is set.
According to this radio communication system, for example, a radio signal in a radio channel with a high priority is detected a plurality of times in one scan cycle, so that a radio signal from a transmitter with a high priority is detected more. The possibility of being increased.
In this wireless communication system, the receiver includes a priority setting unit configured to set a priority for each radio channel to be scanned, and the synchronization bit detection unit is configured based on the priority for each radio channel. A radio channel scan time in a scan cycle is set.
According to this wireless communication system, for example, in one scan cycle, the period for detecting a wireless signal in a wireless channel with a high priority becomes longer, so that a wireless signal from a transmitter with a higher priority is detected more. The possibility increases.
In this wireless communication system, the wireless signal includes a frame synchronization pattern composed of a bit pattern different from the bit synchronization pattern, arranged next to the bit synchronization pattern, and the receiver detects a signal strength of a wireless channel. An intensity detection unit; and a frame detection unit that detects the frame synchronization pattern, and after the signal intensity detection unit detects a signal intensity equal to or higher than a predetermined intensity, a predetermined time elapses. When the synchronization pattern is not detected, scanning of the wireless channel is started again.
According to this wireless communication system, when the frame synchronization pattern is not detected, the wireless signal is detected again, so that it is possible to avoid a situation in which another normal wireless signal cannot be received by an unauthorized wireless signal. it can.
In this wireless communication system, the receiver includes a signal strength detection unit that detects a signal strength of a wireless channel, and the signal strength detected by the signal strength detection unit when the data reception unit is receiving the data. Is lower than a predetermined intensity, the reception of the radio signal is interrupted and the scan of the radio channel is started again.
According to this wireless communication system, if the signal strength weakens during reception of a radio signal, the reception is interrupted and the radio signal is detected again, so that another normal radio signal is received by an unauthorized radio signal. The situation that cannot be done can be avoided.

Claims (4)

One or more transmitters that selectively select a plurality of radio channels having different frequencies and transmit radio signals;
A receiver for receiving a radio signal transmitted from the transmitter;
The radio signal has a preamble in which a predetermined bit synchronization pattern is repeatedly arranged, and a data arranged subsequent to the preamble,
The receiver, said transmitter operation input unit for setting information concerning, for each predetermined scan cycle, when scanned sequentially switching the radio channels to be scanned by the division, the for each of the radio channel a synchronous bit detection unit for detecting bit synchronization pattern, if the bit synchronization pattern is detected, and a data reception unit for receiving the data following the preamble,
The preamble, at least perforated with the bit length corresponding to one period of time of the scan cycle, the bit length corresponding to the sum and the bit length necessary for the detection of the bit synchronization pattern,
The receiver transmits to the transmitter an instruction signal instructing a change in the length of the preamble according to information set by the operation input unit, and the transmitter responds to the received instruction signal. A radio communication system characterized by changing a length of a preamble . A data structure of a radio signal transmitted from one or a plurality of transmitters that transmit a radio signal by selectively selecting a plurality of radio channels having different frequencies, and transmitted and received between the receiver and the transmitter There,
The radio signal has a preamble in which a predetermined bit synchronization pattern is repeatedly arranged, and data arranged in succession to the preamble,
The preamble includes a bit length corresponding to a time corresponding to one scan period in which the receiver sequentially scans the radio channels to be scanned by time division and a bit length necessary for detecting the bit synchronization pattern. And at least a bit length obtained by adding
A radio signal data structure, characterized in that the length of the preamble is changed by the transmitter in accordance with an instruction signal transmitted from the receiver in accordance with information on the transmitter. A receiver that receives radio signals transmitted from one or more transmitters that selectively select a plurality of radio channels having different frequencies and transmit radio signals,
The radio signal has a preamble in which a predetermined bit synchronization pattern is repeatedly arranged, and data arranged in succession to the preamble,
The receiver has an operation input unit for setting information on the transmitter, and scans the radio channel to be scanned sequentially by time division for each predetermined scan period, and scans the radio channel for each radio channel. A synchronization bit detection unit that detects a bit synchronization pattern; and a data reception unit that receives the data following the preamble when the bit synchronization pattern is detected,
The preamble has at least a bit length obtained by adding a bit length corresponding to a time corresponding to one period of the scan period and a bit length necessary for detection of the bit synchronization pattern;
A receiver configured to transmit, to the transmitter, an instruction signal instructing to change the length of the preamble according to information set by the operation input unit. A transmitter that selectively selects a plurality of radio channels having different frequencies and transmits a radio signal on the selected radio channel to a receiver,
The radio signal has a preamble in which a predetermined bit synchronization pattern is repeatedly arranged, and data arranged in succession to the preamble,
The preamble includes a bit length corresponding to a time corresponding to one scan period in which the receiver sequentially scans the radio channels to be scanned by time division and a bit length necessary for detecting the bit synchronization pattern. And at least a bit length obtained by adding
A transmitter comprising: setting means for changing a length of the preamble when receiving an instruction signal transmitted from the receiver and instructing the change of the length of the preamble.