JPH07110074B2 - Communication channel selection method - Google Patents

Description

TECHNICAL FIELD The present invention relates to a multi-channel access communication system, and more particularly to a communication channel selection system for a Yokouchi wireless station and a specific low power wireless station.

[Prior Art] Conventionally, in a wireless system in which a large number of wireless terminals share a limited number of channels, communication time is limited and communication is restarted on the same channel in order to give each wireless terminal an equal opportunity to communicate. The downtime is defined by the Radio Law. Therefore, in order to continue communication beyond the communication time limit, it is necessary to switch the communication channel to another channel during communication.

Conventionally, the communication channel selection method shown in FIG. 3 has been used for such communication channel switching.

This is N master stations (1), (2), for one master song.
(N) is provided, and the master station and each slave station communicate with each other in a 1: N time division system, in order from the slave stations (1) to (N) based on the polling signal from the master station. Data is transmitted to the master station according to each time slot assigned to the master station. Then, when the communication time limit approaches, the master station starts searching for a free channel (period shown by the shaded area in the figure), and when a free channel is found, it determines that channel as the next communication channel and issues a channel switching command to each slave station. Is transmitted, the channel is switched, and the communication is continued.

[Problems to be Solved by the Invention] However, in such a communication channel selection method, there is a problem that communication with a slave station is interrupted while the master station is searching for a free channel, and communication efficiency is reduced. It was

In addition, the first empty channel detected by the empty channel search is set as the next communication channel as it is, and the state of the adjacent channel is not grasped.Therefore, if the adjacent channel is used, the adjacent channel may cause interference after switching channels. There was a risk of communication failure.

Therefore, according to the present invention, a communication channel in which a slave station can perform a free channel search to notify the master station, and the master station can prevent a decrease in communication efficiency by selecting the next communication channel based on the free channel information from the slave station. It is intended to provide a selection method.

Further, the present invention provides a communication failure by preferentially setting an empty channel in which an adjacent channel is not used as the next communication channel when the parent station selects the next communication channel based on the empty channel information from the slave station. An object of the present invention is to provide a communication channel selection method capable of performing good channel selection with less risk of occurrence of.

[Means and Actions for Solving the Problems] The present invention provides a master station with a plurality of slave stations and uses one of a plurality of communication channels to perform communication in a time division manner. In wireless communication in which the communication channel is switched to another channel when the communication time limit is reached, each slave station searches the usage status of another communication channel that is not currently used by its own station, and obtains available channel information to the master station. The master station receives the free channel information from each slave station, stores it in the memory, and selects the next communication channel to be switched based on the free channel information.

Also, each slave station does not need to receive the signal from the master station. During the time slot, it is possible to search the usage status of other communication channels that are not currently used by the local station by randomly switching the receiving channel and obtaining empty channel information. Is transmitted to the master station, the master station receives the free channel information from each slave station, stores it in the memory, and selects the next communication channel to be switched based on the free channel information.

Furthermore, each slave station searches the usage status of other communication channels not currently used by itself and sends available channel information to the master station, and the master station receives the idle channel information from each slave station. This is to preferentially select empty channel information which is stored in the memory and is not used by adjacent channels before and after it from the empty channel information, and selects the next communication channel to be switched based on the selected empty channel information.

[Embodiment] An embodiment of the present invention will be described below with reference to the drawings.

As shown in FIG. 1, N (N ≧ 2) slave stations (1), (2), ... (N) are provided for one master station, and the master station is used in a 1: N time division system. And the respective slave stations (1), (2), ... (N) communicate with each other. Based on the polling signal from the master station, data is transmitted to the master station according to the time slots sequentially assigned from the slave stations (1) to (N).

Each of the slave stations (1), (2), ... (N) does not need to receive the signal from the master station during the time slot, that is, after the end of transmission until the next polling signal is transmitted from the master station. In the idle time (period shown by the ray in the figure), the receiving channel is randomly switched to search for an empty channel. The latest M (M ≧ 1) of the free channels detected by this search, that is, the M free channel numbers detected later are used as free channel information and data is added in the next transmission time slot. Then, the data is transmitted to the master station.

As for the slave station (N), the next polling signal starts to be transmitted from the master station immediately after the end of the transmission time slot of the self station, so that there is no free time, and therefore no free channel is searched.

As shown in FIG. 2, the master station has slave stations (1) to (N-).
When the free channel information from 1) is received, it is stored in the memory in order. When the reception of the empty channel information from all the slave stations (1) to (N-1) is completed, the adjacent channels before and after the unused channel are searched according to the contents of the memory. The free channel detected by this search is determined as the next communication channel, and a channel switching command is transmitted to each slave station (1) to (N). Further, in this case, when there is no empty channel in which the adjacent channel before and after is not used, an empty channel in which either adjacent channel before or after is not used is searched and determined as the next communication channel.

Each slave station switches the communication channel to the designated channel by the channel switching command, and the master station also switches at the same time to continue the communication.

In this embodiment having such a configuration, each slave station (1) to (N) sequentially transmits data to the master station in a time division manner in response to a polling signal from the master station. Then, the other slave stations (1) to (N-1) excluding the slave station (N) search for a free channel by using the free time after the end of data transmission until the next polling signal is transmitted from the master station. I do. This empty channel search is performed by randomly switching the receiving channels. Then, the latest M free channel numbers are added to the data to be transmitted next as free channel information and transmitted to the master station.

Thus, when the master station receives the free channel information from each slave station, it stores it in the memory. Then, the empty channel information stored in the memory is searched for an empty channel in which the adjacent channels before and after are not used, the empty channel is determined as the next communication channel, and each slave station (1)
A channel switching command is transmitted to (N).
Further, in this case, when there is no empty channel in which the adjacent channel before and after is not used, an empty channel in which either adjacent channel before or after is not used is searched and determined as the next communication channel.

Subsequent communication will be continued according to the communication channel thus determined.

In this way, the slave station searches for a free channel and informs the master station, and the master station selects the next communication channel based on the free channel information from each slave station. Does not need to interrupt the communication with the slave station and can prevent the deterioration of communication efficiency.

Further, since the slave station searches for a free channel by using a free time during which data communication with the master station is not performed, it is possible to more reliably prevent a decrease in communication efficiency.

Further, the slave station randomly switches the receiving channels to search for the empty channels, so that the empty channels can be surely searched for all the channels.

In addition, the master station preferentially selects an empty channel that is not used by the adjacent channels before and after it as the next communication channel based on the empty channel information from each slave station, so there is a risk of communication failure. Is extremely small.
Even if there is no empty channel in which the adjacent channel before and after is not used, the empty channel in which either adjacent channel before or after is not used is selected, so even in this case there is no risk of communication failure. small.

[Effects of the Invention] As described in detail above, according to the present invention, a slave station searches a free channel and notifies the master station, and the master station selects the next communication channel based on the free channel information from the slave station. Therefore, it is possible to provide a communication channel selection method capable of preventing a decrease in communication efficiency.

Further, according to the present invention, when the master station selects the next communication channel based on the idle channel information from the slave station, the idle channel in which the adjacent channel is not used is preferentially selected as the next communication channel. Therefore, it is possible to provide a communication channel selection method capable of performing good channel selection with less risk of communication failure.

[Brief description of drawings]

FIG. 1 is a timing diagram showing communication timings of a master station and slave stations showing an embodiment of the present invention, FIG. 2 is a flow chart showing communication channel selection processing of the master station in the embodiment, and FIG. 3 is a conventional master. It is a timing diagram which shows the communication timing of a station and a slave station.

Claims (3)

[Claims] 1. A plurality of slave stations are provided for one master station,
In wireless communication in which one of a plurality of communication channels is used for time-division communication and the communication channel is switched to another when the communication time limit is reached, each slave station is currently used by its own station. The available channel information obtained by retrieving the usage status of another communication channel which is not present is transmitted to the master station, and the master station receives the free channel information from each of the slave stations and stores it in the memory and stores it in the available channel information. A communication channel selection method characterized by selecting the next communication channel to be switched based on the above. 2. A plurality of slave stations are provided for one master station,
In wireless communication in which one of a plurality of communication channels is used for time division communication and the communication channel is switched to another when the communication time limit is reached, each of the slave stations transmits a signal from the master station. During a time slot that does not need to be received, the use status of other communication channels that are not currently used by the own station is randomly switched and the available channel information obtained by searching is sent to the master station, and the master station is transmitted. Is a communication channel selection system characterized in that it receives empty channel information from each slave station, stores it in a memory, and selects the next communication channel to be switched based on the empty channel information. 3. A plurality of slave stations are provided for one master station,
In wireless communication in which one of a plurality of communication channels is used for time-division communication and the communication channel is switched to another when the communication time limit is reached, each slave station is currently used by its own station. The available channel information obtained by searching the usage status of another communication channel which is not present is transmitted to the master station, and the master station receives the free channel information from each of the slave stations and stores it in the memory, and from the available channel information. A communication channel selection method characterized in that empty channel information in which adjacent channels before and after are not used is preferentially selected and the next communication channel to be switched is selected based on the selected empty channel information.