JP3426401B2 - Wireless LAN system and wireless terminal device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless LAN system for performing mutual communication using a spread spectrum system and its wireless terminal device, and more specifically, to any one of a plurality of wireless terminal devices in a cell, The present invention relates to a wireless LAN system and a wireless terminal device that are determined as a main wireless terminal device that issues a carrier frequency synchronization instruction, and that prevent an adverse effect such as a system down due to the absence of the main wireless terminal device.

[0002]

2. Description of the Related Art Conventionally, there is a wireless LAN system for performing mutual communication using a spread spectrum method. In this wireless LAN system, a carrier frequency of a wireless line for transmitting and receiving data between a plurality of wireless terminal devices is sequentially transited at a predetermined cycle (hopping cycle) in accordance with a predetermined frequency transition series (hopping series). Data is transmitted and received between wireless terminal devices by modulating and demodulating data at a carrier frequency.

In such a wireless LAN system, any one of the wireless terminals is used for sequentially shifting the carrier frequencies of the wireless terminal devices in the cell (service area) in synchronization with each other, that is, for hopping. It is necessary to select a device as a master wireless terminal device and transmit a synchronization control frame for instructing hopping to another slave wireless terminal device from this master wireless terminal device.

Conventionally, the main wireless terminal device in the cell is selected by the system administrator, and the function of the main wireless terminal device is manually set by the system administrator.

[0005]

However, in the above-mentioned prior art, when the power supply of the master wireless terminal device is suddenly cut off without the consent of the slave wireless terminal device, the master wireless terminal device transmitting the synchronization control frame is As a result, the sub-radio terminals located in the cell of the main radio terminal equipment will not be able to synchronize the carrier frequency, and the communication between the sub-radio terminal equipments will be impossible, resulting in a system down state. .

This occurs for the same reason when the radio propagation environment of the main radio terminal device is shielded by an obstacle.

In such a case, one of the secondary wireless terminal devices
It is possible to restore the system-down state to the normal state by newly selecting one as the main wireless terminal device and setting the function therefor by the system administrator.

However, since it is necessary for the system administrator to set the function as the main wireless terminal device, there is a problem that it takes time to restore the normal state and the reliability of the system is impaired.

An object of the present invention is to automatically determine any one of the sub wireless terminal devices as the main wireless terminal device when the absence of the main wireless terminal device occurs due to a power cut or the like, and the system goes down. It is an object of the present invention to provide a wireless LAN system and its wireless terminal device that can quickly restore the state to a normal state.

[0010]

In order to achieve the above object, the present invention basically monitors the arrival of a synchronization control frame in each wireless terminal device within a predetermined first period, If the synchronization control frame is received, first means for setting the function of the device as a slave wireless terminal device, and if the synchronization control frame or the advance notice control frame is not received within the first period, a predetermined first Second means for transmitting an advance notice control frame for announcing that the own device will become the main wireless terminal device within the period of 2, and after transmitting the advance notice control frame, a synchronization control frame and an advance notice control from another wireless terminal device. If the arrival of the frame is monitored and the synchronization control frame and the advance notice control frame are not received within the second period, the synchronization control frame is set after the device itself is set to function as the main wireless terminal device. And a fourth means for setting a function of the device itself as a slave wireless terminal device when a synchronization control frame is received within the second period, and a notice within the second period. If only the control frame is received, the fifth transition to the first period is performed.
And means.

[0011]

According to the present invention, when the power is turned on, each wireless terminal device is in a state of monitoring the arrival of the synchronization control frame within the predetermined first period.

Therefore, if the synchronization control frame is received within the first period, another master wireless terminal device already exists, so that the device itself is set to function as a slave wireless terminal device.

However, if the synchronization control frame or the advance notice control frame is not received within the first period, it can be considered that the main wireless terminal device does not exist within the coverage area of the own device. A notice control frame for notifying that the device itself will be the main wireless terminal device is transmitted within the period.

After the advance notice control frame is transmitted, the arrival of the synchronization control frame and the advance notice control frame from another wireless terminal device is monitored, and the synchronization control frame and the advance notice control frame must be received within the second period. Since it can be concluded that there is no other slave wireless terminal device that can be the master wireless terminal device, the synchronization control frame is transmitted after the function of the device itself is set as the master wireless terminal device.

However, if the synchronization control frame is received within the second period, it means that there is a slave wireless terminal device whose function has been set in the main wireless terminal device earlier than the own device. Set the function as a device.

Further, if only the notice control frame is received within the second period, it can be considered that the slave wireless terminals running for the master wireless terminal device are in a conflicting state. The period is changed to 1 and the same process as above is repeated.

As a result, the slave terminal device that has transmitted the synchronization control frame earliest is set to function as the master wireless terminal device.

Such operations are performed (1) when the absence of the primary wireless terminal device occurs due to the power-off of the primary wireless terminal device, (2) when the secondary wireless terminal device is powered on, (3) When the main wireless terminal device is substantially absent due to the shielding of the radio wave propagation environment of the main wireless terminal device,
(4) Performed when the main wireless terminal device and the slave wireless terminal device are separated from each other by a distance over which radio waves can propagate and the absence of the master wireless terminal device occurs, and any one of the slave wireless terminal devices By automatically deciding on the main wireless terminal device, the system down state can be quickly restored to the normal state,
The reliability of the system can be improved.

[0019]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is an overall configuration diagram showing an embodiment of a wireless LAN system according to the present invention.

The wireless LAN system of this embodiment has a main wireless terminal device 100a and slave wireless terminal devices 200a, 200.
b. 6a is the main wireless terminal device 100
The cell which is a management area of a is shown.

The primary wireless terminal device 100a and the secondary wireless terminal devices 200a and 200b in the cell 6a are configured to communicate with each other using the spread spectrum method.
The communication between the master wireless terminal device 100a and the slave wireless terminal device 200a in the cell 6a uses the route a or the route b, and the communication between the slave wireless terminal device 200a and the slave wireless terminal device 200b in the same cell 6a is performed. It is configured to use the route m or the route n.

FIG. 2 is a diagram showing allocation of carrier frequencies used in this wireless LAN system. Here, 2471 to 2497 MHz are used for spread spectrum.
An ISM band (industrial science medical band) 8 having a bandwidth of 26 MHz is assigned. This ISM band 8 is, for example, 13 sub-channels 7a to 7 each having a width of 2 MHz.
When divided into m, the center frequency of each carrier frequency is fi =
2472 + 2i (i = 0, ..., 12) MHz, but the primary wireless terminal device 100a and the secondary wireless terminal device 20
0a and 200b periodically change the carrier frequency used, that is, hop.

FIG. 3 shows an example of the frequency hopping pattern. In this embodiment, the hopping period is 100 ms, the number of hopping is 13, and the carrier frequency 90a to 90m is repeated according to the frequency hopping pattern. Each subchannel is made to hop.

FIG. 4 is a block diagram showing the configurations of the main wireless terminal device 100a and the slave wireless terminal devices 200a and 200b.

The main wireless terminal device 100a and the slave wireless terminal devices 200a and 200b include an antenna 201, a main storage device 202, a transmission / reception control unit 203, a CPU bus 204, a wireless reception buffer 205, a wireless transmission buffer 206, a hopping control unit 207, and Radio modulator / demodulator 208, timer (T
a) 209, (Tb) 210, (Tc) 211, (T
d) 212 and synchronization control frame unreceived counter (Q) 213.

The hopping control unit 207 controls transmission / reception of a wireless transmission line, and the transmission / reception control unit 203 controls transmission / reception such as frame identification. Communication between the transmission / reception control unit 203 and the hopping control unit 207, for example, exchange of transmission / reception frames is performed via the CPU bus 204. Also, the wireless modem unit 208
Then, the frame transmitted from the hopping control unit 207 is subjected to modulation processing and frequency conversion processing into the 2.4 GHz band, transmitted from the antenna 201, and the antenna 20.
The hopping control unit 20 performs frequency conversion processing to baseband and demodulation processing on the frame received from
It is to be sent to 7.

The main radio terminal unit 100a in the cell 6a does not transmit the synchronization control frame due to power-off or the like,
When the master wireless terminal device 100a is absent, it is necessary to set the function of one of the slave wireless terminal devices 200a and 200b as the master wireless terminal device. Then, the master-slave relationship is functionally set for the hopping control unit 207.

Timers (Ta) 209, (Tb) 210,
The (Tc) 211 and the synchronization control frame unreceived counter (Q) 213 are used to determine the master-slave relationship, and the timer (Ta) 209 is used for synchronization control frames and advance notice control frames from other wireless terminal devices. The listening period (first period) for monitoring arrival is determined.

Further, the timer (Tb) 210 defines a master negotiation period (second period) for determining the master-slave relationship based on the monitoring result in the listening period.

The timer (Tc) 211 is a random number timer for transmitting the advance notice control frame at different timings for each wireless terminal device. Note that the random wireless timer does not have to be a random timer, and the point is that the slave wireless terminal device transmits the advance notice control frame at different timings, so that a timer with low time accuracy can be used, for example.

Synchronous control frame unreceived counter (Q) 2
Reference numeral 13 is for counting the number of unreceived synchronization control frames due to the absence of the main wireless terminal device 100a, and the transmission / reception control unit 203 performs synchronization control for each hopping cycle (100 ms) defined by the hopping timer Td. The reception and non-reception of the frame are monitored, and when not received, the count value is updated by "1".

Here, the advance notice control frame means a frame for giving advance notice that the own device will be the main wireless terminal device.

FIG. 5 shows a frame format used in a wireless transmission path, and an area P51 is a dummy area for giving time to the physical layer for establishing and maintaining synchronization in the physical layer. The area F52 is arranged following the area P51 and indicates the substantial beginning of the valid information in this frame. The area FC53 is a frame control area and holds identification information of the user frame, the advance notice control frame, and the synchronization control frame. The sub wireless terminal devices 200a, 20 under the control of the main wireless terminal device 100a
When notifying hopping information to 0b, hopping control information is set in this area FC53 to perform communication.

Area DA54 is the destination address, area SA5
Reference numeral 5 indicates a source address. Area I56 is an information section. The area FCS57 is a frame check sequence and uses the CRC code which is an error detection code to make an area P5.
Used to detect errors in whole frames except ones.

FIG. 6 shows the contents transmitted and received within the hopping period of the carrier frequency 60a used in the wireless transmission path. The carrier frequency 60a has a hopping cycle of 100 ms, and includes a user frame area RU61, a non-transmission area RN62, a synchronization control frame area RC63, and a dummy area RD64.

In the user frame area RU61, the user frame having the structure shown in FIG. 5 in which the user data is stored and the notice control frame are transmitted and received. The non-transmission area RN62 includes the user frame and the advance notice control frame transmitted in the user frame area RU61 and the next synchronization control frame area RC.
The area is provided in order to avoid the collision with the synchronization control frame transmitted at 63, and the user frame and the notice control frame are not transmitted between the non-transmission areas RN62.

The synchronization control frame area RC63 is an area for transmitting a synchronization control frame carrying information necessary for hopping control, and the main radio terminal unit 100a sends the synchronization control frame to the cell 6a in the synchronization control frame area RC63.
It transmits to the sub wireless terminal devices 200a and 200b in the inside to control hopping. The dummy area RD64 is an area for securing a time required for frequency switching of the synthesizer that generates a carrier signal, and the carrier frequency switching operation is performed during this area.

In the above configuration, the main wireless terminal device 10
0a and the slave wireless terminal devices 200a and 200b, the reception process, the transmission process, and the master-slave determination process will be described.

1. Reception processing Communication on the wireless transmission path is performed in the frame format shown in FIG. First, the frame received by the antenna 201 is temporarily stored in the wireless reception buffer 205 via the wireless modulation / demodulation unit 208 and the hopping control unit 207.

When the user frame and the advance notice control frame are received, the hopping control section 207 stores the received frame in the radio reception buffer 205 and then notifies the transmission / reception control section 203 of that fact.

Here, the hopping control unit 207 identifies the user frame, the advance notice control frame and the synchronization control frame based on the identification information of the area FC53 in the received frame.

When the received frame is the user frame and the advance notice control frame, the transmission / reception control unit 203 reads out the user frame and the advance notice control frame from the wireless reception buffer 205, and the main storage device 202 via the CPU bus 204.
To store. The user frame and the advance notice control frame stored in the main storage device 202 are used by higher-level software of the wireless terminal device.

When the received frame is a synchronous control frame,
The hopping control unit 207 extracts necessary information from the synchronization control frame and then discards it. If neither of the cases applies, the hopping control unit 207 discards the frame.

2. Transmission process When transmitting a user frame and a notice control frame,
The upper software generates the user frame and the advance notice control frame stored in the main storage device 202 via the CPU bus 204 in the wireless transmission buffer 206 in the frame format on the wireless transmission path shown in FIG. The user frame and the advance notice control frame in the transmission buffer 206 are passed from the wireless transmission buffer 206 to the wireless modulation / demodulation unit 208 via the hopping control unit 207 according to the transmission instruction of the transmission / reception control unit 203, where the 2.4 GHz band signal is transmitted. And is transmitted to the wireless transmission path via the antenna 201.

When transmitting the synchronization control frame, the hopping control unit 207 stores the synchronization control frame in the frame format on the wireless transmission path shown in FIG. 5, and when the synchronization control frame area shown in FIG. In response to a transmission instruction from the unit 207, the data is transmitted to the wireless transmission path via the wireless modulation / demodulation unit 208 and the antenna 201.

3. When the master wireless terminal device 100a in the master-slave determination processing cell 6a does not transmit the synchronization control frame due to power-off or the like, and the master wireless terminal device 100a becomes absent, either of the slave wireless terminal devices 200a and 200b It is necessary to set one as a main wireless terminal device. The process for this is the master-slave determination process, which is executed by the transmission / reception control unit 203 and sets the master-slave relationship for the hopping control unit 207.

FIG. 7 shows the slave radio terminal units 200a and 200.
It is a figure which shows the structure of the process period which b uses for setting a master-slave relationship function, and is comprised from the listening period LSN71 and the main radio | wireless terminal apparatus negotiation period MDP72.

The listening period LSN71 is a period during which the slave wireless terminal devices 200a and 200b receive the synchronization control frame or the advance notice control frame of the slave wireless terminal devices other than itself, and is defined by the timer (Ta) 209.

The master wireless terminal device negotiation period MDP72 is the slave wireless terminal device 200 which could not receive the synchronization control frame or the notice control frame during the listening period LSN71.
a, 200b is the sub wireless terminal device 200a, 200
This is a period in which any one of b is determined as the main wireless terminal device, and is defined by the timer (Tb) 210.

FIG. 8 is a flow chart showing the processing in the listening period LSN71, and FIG. 9 is a flow chart showing the processing in the main wireless terminal device negotiation period (hereinafter abbreviated as the negotiation period) MDP72.

The master-slave determination process shown in FIGS. 8 and 9 is as follows.
Basically, the arrival of the synchronization control frame is monitored in the listening period LSN71, and if the synchronization control frame is received, the main wireless terminal device already exists. Therefore, the device itself is set as a slave wireless terminal device. If the synchronization control frame or the notice control frame is not received in the listening period LSN71, it can be considered that the main wireless terminal device does not exist in the cell 6a. Therefore, in the negotiation period MDP72, the own device is the main wireless terminal device. A notice control frame for notifying that the synchronization control frame and notice control frame from other slave wireless terminal devices are received, and the synchronization control frame and notice control frame are transmitted. Negotiation period MDP
If it is not received before the expiration of 72, it can be concluded that there is no other slave wireless terminal device that can be the master wireless terminal device, so the device itself is set as the master wireless terminal device, and a synchronization control frame is transmitted. The carrier frequency of another slave wireless terminal device is synchronized. On the contrary, if the synchronization control frame is received in the negotiation period MDP72, the device itself is set to function as the slave wireless terminal device, and if only the notice control frame is received in the negotiation period MDP72, the candidate becomes the master wireless terminal device. Since it can be considered that the subordinate wireless terminal devices that are listening to each other compete with each other, the listening period LS
It is designed to transition to N71.

The slave radio terminal units 200a and 200b in the listening period LSN71 prohibit the frame transmission in order to prevent the frame from being received correctly due to the collision of the transmission frame and the reception frame. There is.

The processes of FIGS. 8 and 9 are as follows: (1) When the absence of the main wireless terminal device occurs due to the power-off of the main wireless terminal device, (2) the power of the slave wireless terminal device is turned on. (3) When the absence of the main wireless terminal device occurs due to the shielding of the radio propagation environment of the main wireless terminal device, (4) The radio wave propagation between the main wireless terminal device and the slave wireless terminal device. It is activated when the main wireless terminal is substantially absent due to the distance exceeding the possible distance.

3.1 Processing of Listening Period LSN 71 First, when the main wireless terminal device 100a exists in a normal state, for example, when the power of the slave wireless terminal device 200a is turned on, the transmission / reception control section 203 causes the transmission / reception control unit 203 to perform the listening period. LSN7
The listening period timer (Ta) 209 which determines 1 is started (step 811).

Next, it is judged whether or not the sync control frame is received based on the received frame identification result of the hopping control section 207 (step 812). If the sync control frame has been received, the main radio has already been received. Since the terminal device exists, the listening period timer (Ta) 2
09 is reset (step 819), and synchronization processing is performed (step 820).

This synchronization processing is processing for synchronizing the frequency switching timing of the synthesizer of the hopping control unit 207 in accordance with the received synchronization control frame. More specifically, the frequency of the synthesizer is changed after a certain period of time has elapsed since the synchronization control frame was received. Switch to the carrier frequency instructed by the synchronization control frame.

On the other hand, if the synchronization control frame has not been received, it is determined whether or not the advance notice control frame has been received (step 813).

If the advance notice control frame has been received, the arrival of the synchronous control frame is continuously monitored until the listening period timer (Ta) 209 expires (step 81).
4,815). When the synchronization control frame is received during this period, the main wireless terminal device already exists, so the listening period timer (Ta) 209 is reset (step 819) and the synchronization process is performed (step 820). .

However, the listening period timer (Ta) 2
If the synchronization control frame is not received until 09 has expired, the listening period timer (Ta) 209 is reset (step 816) and the negotiation period MDP72 of FIG.
Transition to processing of.

Further, the listening period timer (Ta) 20
If neither the synchronization control frame nor the advance notice control frame is received until 9 expires, it is determined whether the listening period timer (Ta) 209 has expired (step 817), and if not expired. Step 8
Returning to the initial state of No. 11, the arrival of the synchronous control frame and the advance notice control frame is continuously monitored.

As a result, the listening period timer (Ta)
If neither the synchronous control frame nor the advance notice control frame is received before the expiration of 209, the listening period timer (Ta) 209 is reset (step 818) and the process proceeds to the negotiation period MDP 72 process of FIG. 9. To do.

Here, there are two routes for transitioning to the processing of the negotiation period MDP72, that is, when both the synchronous control frame and the advance notice control frame are not received, and when only the advance notice control frame is received. The reason for making a distinction is that when only the advance notice control frame is received, the advance notice control frame is intentionally not transmitted in order to prevent the master-slave determination processing from competing among a plurality of slave wireless terminal devices. .

3.2 Processing of Negotiation Period MDP72 When only the advance notice control frame is received in the listening period LSN71 and the transition is made to the negotiation period MDP72, first, the master negotiation period timer (Tb) 210 is started (step 925). Until the timer (Tb) 210 expires, the reception of the synchronization control frame is continuously monitored (steps 926 and 927).

As a result, when the synchronization control frame is received, the timer (Tb) 210 is reset (step 920) and the synchronization processing is performed (step 921).

However, without receiving the synchronization control frame,
When the timer (Tb) 210 has expired, the process returns to the listening period LSN71.

On the other hand, when transitioning to the negotiation period MDP72 without receiving both the synchronous control frame and the advance notice control frame in the listening period LSN71, first, the master negotiation period timer (Tb) 210 is activated (step 9).
11), a random number timer (Tc) for transmitting the advance notice control frame
211 is activated (step 912).

Thereafter, it is determined whether or not the timer (Tb) 210 has expired (step 913), and if not, it is determined whether or not the synchronization control frame has been received (step 917).

If no synchronization control frame is received,
Next, it is determined whether or not the notice control frame has been received (step 929), and if the notice control frame has not been received, it is determined that there is no other slave wireless terminal device that is about to become the master wireless terminal device. Since it is possible, wait for the expiration of the random number timer (Tc) 211,
When the time 211 has expired, the advance control frame is transmitted from the hopping control unit 207 (steps 930, 93).
1). While waiting for the random number timer (Tc) 211 to expire, the process returns to step 912 and continues to monitor the reception of the synchronization control frame.

Here, the random number timer (Tc) 211 is set to a different timer value for each slave wireless terminal device. Therefore, the phenomenon that a plurality of slave wireless terminal devices simultaneously transmit the advance notice control frame does not occur, and destruction due to frame collision is prevented.

In this way, when both the synchronization control frame and the advance notice control frame are not received, the advance notice control frame is transmitted from each slave wireless terminal device at different timings. In this case, the advance notice control frame is the random number timer (Tc) until the timer (Tb) 210 expires.
It is transmitted multiple times at a set time interval of 211.

After the advance control frame is transmitted, the timer (T
b) If 210 has expired (step 913), reset the random number timer (Tc) 211 (step 914),
Next, a synchronization control frame is transmitted (step 915),
Further, the hopping control unit 207 is set with a function indicating that it has become the main wireless terminal device (step 916).

As a result, one of the slave wireless terminal devices that has transmitted the advance notice control frame and the synchronization control frame earliest becomes the master wireless terminal device, and the carrier frequency synchronization instruction of the other slave wireless terminal devices in the cell 6a is issued. become.

On the other hand, when the notice control frame is received from another slave wireless terminal device while waiting for the timer (Tb) 210 to expire by transmitting the notice control frame (step 929), the notice control frame is received. Is stopped (step 932), the random number timer (Tc) 211 is reset (step 933), the reception of the synchronous control frame is continuously monitored (steps 926 and 927), and the timer (T
b) When the synchronization control frame is received before the expiration of 210, the timer (Tb) 210 is reset (step 920) and the synchronization processing is performed (step 921).

However, when the timer (Tb) 210 has expired without receiving the synchronous control frame, the process returns to the listening period LSN 71 and continues to monitor the reception of the synchronous control frame and the advance notice control frame.

As described above, one of the slave wireless terminal devices that has transmitted the advance notice control frame and the synchronization control frame earliest becomes the master wireless terminal device, and the carrier frequency synchronization instruction for the other slave wireless terminal devices in the cell 6a is issued. Will come to do. In this case, even if the notice control frame is sent,
When the advance notice control frame is received from another person within the negotiation period MDP72, the transmission of the advance notice control frame is stopped, and the master-slave relationship is determined earlier. Therefore, the absence state of the main wireless terminal device is resolved in a short time. can do.

By the way, since the slave wireless terminal device 200a and the master wireless terminal device 100a move to the next carrier frequency in the same hopping cycle, the initial carrier frequency of the slave wireless terminal device 200a is 90 in the listening period LSN71.
If the initial carrier frequency of the primary wireless terminal device 100a is 90b to 90m, the secondary wireless terminal device 200a and the primary wireless terminal device 100a will not have the same frequency, and the secondary wireless terminal device 200a cannot receive the synchronization control frame of the main wireless terminal device 100a.

Therefore, the listening period LSN71 in which the synchronization control frame of the main radio terminal unit 100a is not received.
The sub wireless terminal device 200a therein has a fixed carrier wave frequency. In addition, the length of the listening period LSN71 sets the value of the product of the hopping period of the main wireless terminal device 100a and the number of hoppings to the minimum value.

As a result, in the worst case, the slave wireless terminal device 200a and the master wireless terminal device 100a have 1300 ms (1
After 00 ms × 13), the frequency becomes the same, and the synchronization control frame of the main wireless terminal device 100a can be received.

Next, the operation of the sub wireless terminal devices 200a and 200b when the main wireless terminal device 100a is in the absent state due to the power off or the like will be described.

When the power of the master wireless terminal device 100a is suddenly turned off when the slave wireless terminal devices 200a and 200b and the master wireless terminal device 100a are all powered on, the slave wireless terminal device 200a in the cell 6a is , 200b
Cannot receive the synchronization control frame, and falls into the system down state.

Therefore, the sub wireless terminal devices 200a, 200
The transmission / reception control unit 203 of b monitors whether or not the synchronization control frame can be received every hopping cycle, and if the synchronization control frame is not received n times (n ≧ 2) continuously, the absence state of the main wireless terminal device It is determined that this has occurred, and the master-slave relationship determination processing of FIGS. 8 and 9 is activated.

FIG. 10 is a flow chart showing the monitoring processing of the synchronization control frame. First, the synchronization control frame unreceived counter (Q) 213 is cleared (step 100
1) Next, the hopping timer (Td) 212 is reset (step 1002).

Next, the hopping timer (Td) 212 having a timer value of 100 ms is started (step 1003),
Until this hopping timer (Td) 212 expires,
Continue to monitor for the arrival of synchronization control frames (step 10
04, 1005).

As a result, the hopping timer (Td) 21
If the synchronization control frame has not been received even when 2 has expired, "+1" is added to the count value of the synchronization control frame unreceived counter (Q) 213 (step 1006).

Next, the count value of the synchronization control frame unreceived counter (Q) 213 is compared with the set value n (step 1006), and if the count value ≧ n,
It is determined that the synchronization control frame cannot be received n times in succession and the absence state of the main wireless terminal device 100a has occurred, and the master-slave relationship determination processing of FIGS. 8 and 9 is activated.

However, the hopping timer (Td) 212
When the synchronous control frame is received before the time expires, the process returns to step 1001, the count value of the synchronous control frame unreceived counter (Q) 213 is cleared, and the next hopping cycle is monitored.

By performing the processing of FIG. 10, (1) when the absence of the main wireless terminal device occurs due to a cause such as power-off of the main wireless terminal device, (2) When the main wireless terminal device is substantially absent due to the shielding of the radio wave propagation environment, (3) the main wireless terminal device and the sub wireless terminal device are separated by a distance longer than the radio wave propagating distance, which is substantially the main wireless terminal device. When the absence of the wireless terminal device occurs,
In addition, the absence state of the main wireless terminal device can be promptly resolved without human intervention.

As described above, according to this embodiment, the absence state of the main wireless terminal device 100a can be promptly resolved without human intervention, and the system down state can be quickly restored to the normal state. Reliability can be improved.

Also, since the random number timer (Tc) transmits the advance notice control frame at different timings for each slave wireless terminal device, a phenomenon occurs in which a plurality of slave wireless terminal devices simultaneously transmit the advance notice control frame. Disappeared
Damage caused by collision of the frame is prevented.

Further, in order to prohibit the transmission of the advance notice control frame when the advance notice control frame is received during either the listening period or the negotiation period (specifically, when the advance notice control frame is received during the listening period, the advance notice control frame is prohibited, and during the negotiation period, it is received). When it does, the transmission is stopped), so that it is possible to avoid conflict in the determination process of the master-slave relationship.

Further, during the listening period, since the slave wireless terminal device stands by at a fixed frequency, it is possible to receive the synchronization control frame from the master wireless terminal device without fail and synchronize with the hopping frequency of the master wireless terminal device. it can.

Needless to say, the present invention is not limited to the above-mentioned embodiments, and various modifications can be made without departing from the scope of the invention.

[0094]

As described above, according to the present invention, the arrival of the synchronization control frame is monitored in the listening period, and if the synchronization control frame is received, the main wireless terminal device already exists, so If the main wireless terminal device is not present in the cell unless the synchronization control frame or the advance notice control frame is received during the listening period when the function is set as the slave wireless terminal device, the own device in the negotiation period A notice control frame for notifying that it will become the master wireless terminal device is transmitted, and after the notice control frame is transmitted, the arrival of the synchronization control frame and the notice control frame from another slave wireless terminal device is monitored, and the synchronization control frame and If there is no other secondary wireless terminal device that can be the primary wireless terminal device unless the advance notice control frame is received before the negotiation period expires Since the user can recognize, set function own apparatus as the main wireless terminal device transmits a synchronization control frame,
The carrier frequency of another slave wireless terminal device is synchronized. Conversely, if a synchronization control frame is received during the negotiation period,
If the own device is set to function as a slave wireless terminal device, and if only the notice control frame is received during the negotiation period,
Since it can be considered that the slave wireless terminal device running for the master wireless terminal device is in a conflicting state, the transition to the listening period was made. When a state occurs, any one of the slave wireless terminal devices can be automatically determined as the master wireless terminal device, the system down state can be quickly restored to the normal state, and the system reliability can be improved.

[Brief description of drawings]

FIG. 1 is an overall configuration diagram showing an embodiment of a wireless LAN system according to the present invention.

FIG. 2 is a diagram illustrating allocation of carrier frequencies.

FIG. 3 is a diagram showing an example of a frequency hopping pattern.

FIG. 4 is a configuration diagram of a wireless terminal device.

FIG. 5 is a diagram illustrating a frame format on a wireless transmission path.

FIG. 6 is a diagram illustrating the contents of carrier frequency.

FIG. 7 is a diagram illustrating a period for determining one main wireless terminal.

FIG. 8 is a flowchart showing a process in a listening period for determining one main wireless terminal device.

FIG. 9 is a flowchart showing a process in a main wireless terminal device negotiation period for determining one main wireless terminal device.

FIG. 10 is a flowchart showing a monitoring process of a synchronization control frame for detecting that the main wireless terminal device has become absent.

[Explanation of symbols]

6a ... Cell, 90a-90m ... Carrier frequency, 100a
... main wireless terminal device, 200a, 200b ... secondary wireless terminal device, 203 ... transmission / reception control unit, 205 ... wireless reception buffer, 206 ... wireless transmission buffer, 207 ... hopping control unit, 208 ... wireless modulation / demodulation unit, 209 ... listening period Timer, 210 ... Master negotiation period timer, 211 ... Random number timer, 212 ... Hopping timer, 213 ... Synchronous control frame unreceived counter.

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Kenichiro Oda 810 Shimoimaizumi, Ebina City, Kanagawa Prefecture Office Systems Division, Hitachi, Ltd. (56) Reference JP 61-208329 (JP, A) JP 60 -70832 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) H04L 12/28 300 H04L 12/28 303

Claims (10)

(57) [Claims] 1. A wireless terminal device of a wireless LAN system comprising a plurality of wireless terminal devices that perform mutual communication using a spread spectrum method, wherein the carrier frequencies of the wireless terminal devices are changed in synchronization with each other. A first means for monitoring the arrival of the synchronization control frame within a predetermined first period and setting the function of the device itself as a slave wireless terminal device when the synchronization control frame is received; and within the first period. If the synchronization control frame or the advance notice control frame is not received in, the second means for transmitting the advance notice control frame for giving an advance notice that the own device will become the main wireless terminal device within the predetermined second period, and the advance notice control After transmitting the frame, the arrival of the synchronization control frame and the advance notice control frame from another wireless terminal device is monitored, and the synchronization control frame and the advance notice control frame are monitored. If the system does not receive the synchronization control frame within the second period, the third device for transmitting the synchronization control frame after setting the function of the device itself as the main wireless terminal device and the synchronization control frame for the second period. A fourth means for setting the function of the device itself as a slave wireless terminal device if received, and a fifth means for making a transition to the first period if only a notice control frame is received within the second period. And a wireless terminal device. 2. When the power is turned on or the synchronization control frame from the main wireless terminal device is not continuously received a predetermined number of times, each means of the first period and the second period is activated. The wireless terminal device according to claim 1, wherein the wireless terminal device is a wireless terminal device. 3. The wireless terminal device according to claim 1, wherein the notice control frame is transmitted at a different timing for each wireless terminal device. 4. The wireless terminal device according to claim 1, wherein the first means waits for a synchronization control frame to arrive at a fixed frequency. 5. A sixth means for prohibiting transmission of the notice control frame in the second period when the notice control frame is received within the first and second periods. The wireless terminal device according to claim 1. 6. A wireless LAN system including a plurality of wireless terminal devices that perform mutual communication using a spread spectrum method, wherein each wireless terminal device transits carrier frequencies of each wireless terminal device in synchronization with each other. For monitoring the arrival of a synchronization control frame within a predetermined first period, and if the synchronization control frame is received, first means for setting the function of the device itself as a slave wireless terminal device; Second means for transmitting an advance notice control frame for giving an advance notice that the own device will become the main wireless terminal device within a predetermined second period, if the synchronization control frame or the advance notice control frame is not received within the predetermined period; After the advance notice control frame is transmitted, the arrival of the synchronization control frame and the advance notice control frame from another wireless terminal device is monitored to check the synchronization control frame and the advance notice system. If the frame is not received within the second period, the device itself functions as the main wireless terminal device, and then third means for transmitting the synchronization control frame, and the synchronization control frame is received within the second period. If so, a fourth means for setting the function of the own device as a slave wireless terminal device, and a fifth means for transitioning to the first period if only the advance notice control frame is received within the second period. A wireless LAN system comprising: 7. When the power is turned on or when the synchronization control frame from the main wireless terminal device is not received a predetermined number of times in succession, each means of the first period and the second period is activated. The wireless LAN system according to claim 6, which is characterized in that. 8. The wireless LAN system according to claim 6, wherein the advance notice control frame is transmitted at a different timing for each wireless terminal device. 9. The wireless LAN system according to claim 6, wherein the first means waits for a synchronization control frame to arrive at a fixed frequency. 10. A sixth means is further provided for prohibiting the transmission of the notice control frame in the second period when the notice control frame is received within the first and second periods. The wireless LAN system according to claim 6.