JP2008311833A - Polling method, base station apparatus, and subscriber station apparatus in wireless communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a polling method for reducing the time required for each command process and for generating no delay in the other processes. <P>SOLUTION: The polling method includes the steps: for a base station apparatus to select a multiple level of modulation, based on a command to be transmitted to the subscriber station apparatus; for the base station apparatus to determine the multiple value through notification the multiple level selected for the subscriber station apparatus; and for the base station apparatus, to transmit the command to the subscriber station apparatus using a wireless signal modulated by the predetermined multiple level. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to polling performed by a base station apparatus for one or more subscriber station apparatuses.

  FIG. 12 is a system configuration diagram of a one-to-many wireless communication system. 12, the one-to-many wireless communication system includes one or more subscriber station apparatuses 1-1 to 1-N, a base station apparatus 2, a base station apparatus 2, and subscriber station apparatuses 1-1 to 1- And a control device 3 for controlling N. Usually, in a one-to-many wireless communication system, the base station apparatus 2 polls each subscriber station apparatus. That is, the base station apparatus 2 periodically transmits a command to each subscriber station apparatus, receives a response to the command from each subscriber station apparatus, and controls each subscriber station apparatus or each subscriber station. Recognize device status.

  The contents of control performed by polling are related to line connection control such as allocation and release of transmission slots, related to improvement of characteristics such as packet pull-in and automatic gain control, and related to maintenance operations such as line normality confirmation and test execution, etc. There is. Polling can be divided into periodic polling and aperiodic polling. Periodic polling is for the base station apparatus to periodically collect predetermined information such as authentication information and monitoring information from each subscriber station apparatus, and is periodically executed for each subscriber station apparatus. .

  FIG. 13 is a sequence diagram of periodic polling. After transmitting a command to the subscriber station apparatus 1-1, the base station apparatus 2 waits for a response from the subscriber station apparatus 1-1, and after a predetermined time called a polling interval elapses to the subscriber station apparatus 1-2. Send command. Thereafter, similarly, the command transmission is repeated, and after the command transmission to the subscriber station apparatus 1-N, the command transmission to the subscriber station apparatus 1-1 is performed again with the elapse of the polling interval. The time from when a command is transmitted to a certain subscriber station apparatus until the command is transmitted again to the same subscriber station apparatus, that is, the period represented by polling interval × number of subscriber station apparatuses is called a polling cycle.

  Aperiodic polling is for performing processing other than periodic polling for a specific subscriber station device. For example, the control device 3 issues a test control command for a specific subscriber station device. In this case, it refers to polling or the like performed by the base station apparatus 2 for the specific subscriber station apparatus. Specifically, the base station device 2 that has received a signal specifying the control content with the subscriber station device from the control device 3 or a maintenance person interrupts periodic polling, and specifies the specified control content. Performs aperiodic polling to notify the subscriber station device. The base station apparatus 2 receives the response from the subscriber station apparatus to grasp the progress of the aperiodic polling, and resumes the periodic polling by completing the control specified in the subscriber station apparatus. . FIG. 10 is a state transition diagram of the above-described polling method according to the prior art.

  FIG. 11 shows a radio frame when the base station apparatus 2 and each subscriber station apparatus communicate with each other using a time division duplex (TDD) method. The radio frame has a downlink region used for transmission from the base station device 2 toward the subscriber station device, and an uplink region used for transmission from the subscriber station device toward the base station device. The downstream area includes a downstream header area and a downstream user data area including a plurality of slots, and the upstream area includes an upstream header area and an upstream user data area including a plurality of slots.

  The downlink header area includes a preamble for carrier recovery and clock recovery, a base station number, a downlink maintenance operation area, and an error correction code. The downlink maintenance operation area includes a subscriber station number and command data related to maintenance operation. Yes. The uplink header area includes a preamble, an uplink maintenance operation area, and an error correction code. The uplink maintenance operation area includes a subscriber station number and response data related to maintenance operation. If the subscriber station number is included in the downlink maintenance operation area of the received radio frame, the subscriber station apparatus executes the process specified by the command data included in the downlink maintenance operation area. Then, a subscriber station number indicating its own apparatus and response data for processing are set in the uplink maintenance operation area and transmitted to the base station apparatus 2.

  As described above, the downlink and uplink maintenance operation areas of the radio frame are used for polling related to maintenance operations such as line normality confirmation and test execution, and these pieces of information are focused on reliably transmitting and receiving. Therefore, as described in Patent Document 1, the downlink and uplink maintenance operation areas are modulated with a low multi-value level in consideration of the influence of the radio section.

JP 2004-356808 A

  There is a large amount of data in the command transmitted from the base station apparatus to the subscriber station apparatus by polling and the response transmitted from the subscriber station apparatus to the base station apparatus, and such a command or response is transmitted. However, since the modulation in the maintenance operation area is low and multi-valued, the command / response exchange is not completed once, so that the time required for command processing increases. In addition, since a single command / response exchange is not completed, there is a problem that even if another highly urgent command needs to be transmitted, it cannot be transmitted immediately.

  Therefore, an object of the present invention is to provide a polling method capable of reducing the time required for each command processing and causing no delay in other processing as compared with the prior art, and a base station apparatus and a subscriber station apparatus for executing the method. And

According to the polling method of the present invention,
The base station device selects a modulation multi-level based on a command transmitted to the subscriber station device, and the base station device notifies the subscriber station device of the selected multi-level. The step of determining a multi-value level and the step of the base station device transmitting the command to the subscriber station device by a radio signal modulated with the determined multi-value level are characterized.

According to another embodiment of the polling method of the present invention,
It is also preferable to determine the multivalue level from the multivalue level below the selected multivalue level in accordance with the radio channel quality between the base station apparatus and the subscriber station apparatus.

According to another embodiment of the polling method of the present invention,
The step of determining the multi-value level includes a step in which the base station device notifies the selected multi-value level to the subscriber station device and a radio channel quality measured by the subscriber station device in the subscriber station device, or It is also preferable to include a step of notifying the base station device of the multivalue level that is equal to or less than the multivalue level selected by the base station and determined according to the radio channel quality measured by the subscriber station device.

Furthermore, according to another embodiment of the polling method of the present invention,
It is also preferable that the base station apparatus selects the modulation multi-level by referring to a database indicating the correspondence relationship between the command and the multi-level.

According to the base station apparatus of the present invention,
Means for selecting a multi-value level of modulation based on a command transmitted to the subscriber station device, means for notifying the selected multi-value level to the subscriber station device, and determining the multi-value level; Means for transmitting the command to the subscriber station apparatus by a radio signal modulated at the determined multi-level.

According to another embodiment of the base station apparatus of the present invention,
Preferably, the means for determining the multi-value degree also determines the multi-value degree included in the response from the subscriber station apparatus to the notification of the selected multi-value degree as the multi-value degree used for command transmission.

Further, according to another embodiment of the base station apparatus of the present invention,
Preferably, the means for determining the multi-value degree determines a multi-value degree equal to or less than the selected multi-value degree as a multi-value degree used for command transmission based on the radio channel quality measured by the subscriber station apparatus.

According to the subscriber station apparatus in the present invention,
A means for receiving a notification of the multi-level of modulation used for a command in polling from the base station apparatus and determining the multi-level to be used, and the determined multi-level included in the radio signal from the base station apparatus And a means for receiving a command modulated by.

According to another embodiment of the subscriber station apparatus of the present invention,
The means for determining the multi-value is a multi-value less than the notified multi-value, and uses the multi-value according to the radio channel quality measured in the subscriber station device for the command from the base station device. It is also preferable to determine the multilevel value and notify the determined multilevel value to the base station apparatus.

According to another embodiment of the subscriber station apparatus of the present invention,
The means for determining the multivalue level notifies the base station device of the radio channel quality measured at the subscriber station device in response to the notification of the multilevel value from the base station device, and determines the radio channel quality to the base station device. It is also preferable to determine the multivalue level notified from the base station apparatus in response to the notification as the multivalue level used for the command from the base station apparatus.

  By changing the multi-level of modulation according to the command, it is possible to reduce the processing time of polling with a large amount of data. In addition, by holding the relationship between the command type and the multivalue level as a database, it becomes possible to flexibly cope with future changes. Furthermore, stable polling processing and reduction in processing time can be realized by using the radio channel quality for determining the multi-value level.

  BEST MODE FOR CARRYING OUT THE INVENTION The best mode for carrying out the present invention will be described below in detail with reference to the drawings. FIG. 12 is a system configuration diagram of a wireless communication system including the base station device 2 and the subscriber station devices 1-1 to 1-1-N according to the present invention. Instructing the control of the subscriber station apparatus, the base station apparatus 2 interrupts the periodic polling according to the instruction of the control apparatus 3, and executes the aperiodic polling for the specific subscriber station apparatus specified by the control apparatus 3.

  FIG. 9 is a state transition diagram illustrating the polling method in the present embodiment. As shown in FIG. 9, there are two types of non-periodic polling, a state using a low multi-level modulation method and a state using a high multi-level modulation method. Each command is associated with one of the modulation methods. If the command for aperiodic polling received from the control device is associated with a low multilevel, the aperiodic due to the low multilevel If the transition is made to polling and is associated with a high multi-level, the transition is made to aperiodic polling based on the high multi-level. Thus, for example, by associating a command with a large amount of data, such as a change in firmware of a subscriber station device, with a high multi-value level, it is possible to shorten the period required for completion of the processing.

  In the following description, two types of modulation methods of low multi-level and high multi-level are selected and used. Of course, three or more multi-levels can be selected and used. It is.

  FIG. 11 shows radio frames used by the base station apparatus 2 and each subscriber station apparatus according to the present invention. Note that FIG. 11 shows a radio frame when the time division duplex (TDD) scheme is used, but the present invention can also be applied to a frequency division duplex (FDD) scheme. In FIG. 11, the radio frame has a downlink region used for transmission from the base station device 2 toward the subscriber station device, and an uplink region used for transmission from the subscriber station device to the base station device. The downlink area includes a downlink header area and a downlink user data area including a plurality of slots, and the uplink area includes an uplink header area and an uplink user data area including a plurality of slots.

  The downlink header area includes a preamble for carrier recovery and clock recovery, a base station number, a downlink maintenance operation area, and an error correction code. The downlink maintenance operation area includes a subscriber station number and command data related to maintenance operation. Yes. The uplink header area includes a preamble, an uplink maintenance operation area, and an error correction code. The uplink maintenance operation area includes a subscriber station number and response data related to maintenance operation. When the subscriber station device includes the subscriber station number of the own device in the downlink maintenance operation region of the received radio frame, the subscriber station device executes the process specified by the command data included in the downlink maintenance operation region, A radio frame including a subscriber station number indicating its own apparatus and response data for the executed processing is transmitted to the base station 2 in the uplink maintenance operation area.

  In the present invention, the multivalue level of modulation used for transmission in the uplink and downlink maintenance operation areas is variable, and as described above, it is controlled according to the command contents in aperiodic polling.

  FIG. 1 is a block diagram of a base station apparatus 2 according to the present invention. According to FIG. 1, the base station apparatus 2 includes a signal identification unit 201, an aperiodic polling reception unit 202, a command determination unit 203, a command database 204, a command / response processing unit 21, a command transmission unit 206, A wireless transmission / reception unit 207, a response reception unit 208, an aperiodic polling response unit 210, and a main signal processing unit 211 are provided. Further, the command / response processing unit 21 includes a command processing unit 205 and a response processing unit 209.

  The signal identification unit 201 determines whether the signal received from the network side is a control instruction to the subscriber station apparatus by the control apparatus 3 or a main signal to the subscriber station apparatus, and is a control instruction Is output to the non-periodic polling reception unit 202, and is output to the main signal processing unit 211 if it is a main signal.

  The aperiodic polling reception unit 202 outputs a control instruction to the command determination unit 203, and the command determination unit 203 uses the command used for the control instructed by the control device 3 to determine the multi-value level of the modulation method used in the aperiodic polling. That is, the low multi-value or high multi-value is selected, and the command, the information specifying the target subscriber station device, and the selected multi-value are output to the command / response processor 21. For the selection of the multivalue level, the command database 204 having data indicating the correspondence between the command and the multivalue level is referred to.

  The command / response processing unit 21 performs periodic polling on the subordinate subscriber station devices based on preset contents. When the command / response processing unit 21 receives information such as an aperiodic polling command from the command determination unit 203, the command / response processing unit 21 interrupts the periodic polling and executes control of the aperiodic polling. Specifically, first, the command transmission unit 206 is controlled, and includes the subscriber station number of the subscriber station device to be controlled, the selected multi-level, and information for identifying the command, which is used for periodic polling. The wireless transmission / reception unit 207 transmits a wireless frame including a downlink maintenance operation region modulated at the same low multi-value level as that to be transmitted to notify the start of aperiodic polling.

  The command / response processing unit 21 receives the response to the radio frame from the controlled subscriber station device, and thereby determines the multilevel degree selected by the command determination unit 203 as the multilevel level to be actually used. Thereafter, the command processing unit 205 of the command / response processing unit 21 includes the command data and the subscriber station number of the subscriber station device to be controlled, and is modulated by the multilevel modulation method selected by the command determination unit 203. The wireless transmission / reception unit 207 transmits a wireless frame including the downlink maintenance operation area.

  Further, the response reception unit 208 extracts the subscriber station number and response data included in the uplink maintenance operation region included in the received radio frame, and outputs them to the command / response processing unit 21. The response processing unit 209 of the command / response processing unit 21 determines to which command the response is based on the subscriber station number. When response data for aperiodic polling is received, Then, the response data is transmitted to the control device 3.

  FIG. 2 is a block diagram of a subscriber station apparatus according to the present invention. According to FIG. 2, the subscriber station apparatus includes a wireless transmission / reception unit 101, a command reception unit 102, a command / response processing unit 11, a response transmission unit 110, and a main signal processing unit 111. The command / response processing unit 11 includes a command processing unit 105 and a response processing unit 109.

  The radio transmission / reception unit 101 transmits / receives a radio frame to / from the base station apparatus 2 and outputs the command data and the subscriber station number included in the downlink maintenance operation area of the radio frame to the command reception unit 102, and the user data area Is output to the main signal processing unit 111.

  The command reception unit 102 outputs the contents to the command determination unit 103 when the subscriber station number of its own device is included in the downlink maintenance operation area. For example, in the non-periodic polling, the command determination unit 103 determines the modulation multilevel used in the downlink maintenance operation area of the radio frame and the modulation multilevel used in the uplink maintenance operation area independently. Provided. When the received radio frame notifies the start of non-periodic polling to the own device, the command determination unit 103 determines the multi-level of the modulation method used in the uplink maintenance operation area based on the information identifying the included command. select. The selected multi-level is transmitted to the base station apparatus 2 in a radio frame in which the same low multi-level modulation method as that used in periodic polling is applied to the upstream maintenance operation area, as in the downlink direction. In addition, when using the same multi-value degree in the up and down, the command determination part 103 and the command database 104 can be abbreviate | omitted.

  The command processing unit 105 of the command / response processing unit 11 performs processing according to the received command data, and the response processing unit 109 outputs response data that is a response to the processing to the response transmission unit 110, and the response transmission unit 110. Wirelessly transmits a radio frame that includes response data for processing and a subscriber station number representing the own device, and includes an uplink maintenance operation area modulated by the multi-level modulation method selected by the base station device 2 or the own device. The data is transmitted from the unit 101.

  FIG. 5 is a processing flowchart in the base station apparatus 2 according to the present invention. When the base station apparatus 2 normally performs periodic polling (S51) and receives a non-periodic polling instruction from the control apparatus 3 (S52), the base station apparatus 2 determines the command type (S53), and the command type is low-multivalue. If the command type corresponds to the high multi-level, the command is transmitted to the target subscriber station apparatus using the low multi-level modulation method (S54). Transmits a command to the target subscriber station apparatus using a high-level modulation method (S56). Regardless of which modulation method is used, periodic polling is resumed after the processing in the subscriber station apparatus is completed (S55 and S57).

  FIG. 6 is a sequence diagram of the polling method according to the present invention. In FIG. 6, a dotted line indicates periodic polling, a solid line indicates non-periodic polling, a solid thin line indicates a low multi-level modulation method in the maintenance operation area, and a solid solid line indicates high multi-level modulation in the maintenance operation area. It shows that the modulation method is used. FIG. 6 shows a case where the same multivalue is used for the upstream and downstream maintenance operation areas.

  The base station apparatus 2 performs periodic polling for each subscriber station apparatus during normal times (S61). For example, when receiving a control instruction corresponding to a high multivalue level from the control device 3 to the subscriber station 1-1, the base station device 2 stops the periodic polling and is used for the periodic polling. The same low-level modulation method is used for the downlink maintenance operation area, and the start of aperiodic polling by the high-level modulation is notified to the subscriber station device 1-1 (S62). Subsequent non-periodic polling for the subscriber station apparatus 1-1 is performed by applying high multi-level modulation to the maintenance operation area (S63). With the end of non-periodic polling (S64), low multi-level polling is performed. The normal periodic polling by is resumed (S65). In addition, when different multivalue levels are used in the upstream and downstream maintenance operation areas, notifications are made in S62.

  As described above, the processing time of polling with a large amount of data can be reduced by changing the modulation multi-value level used for the maintenance operation area based on the command type. In addition, by holding the relationship between the command type and the multivalue level as a database, it becomes possible to flexibly cope with future changes.

  3 and 4 are block diagrams of a base station apparatus 2 and a subscriber station apparatus according to another embodiment of the present invention. The same components as those in FIGS. According to FIG. 3, the base station apparatus 2 further includes a radio quality processing unit 212, and the subscriber station apparatus further includes a radio quality processing unit 112.

  The radio quality processing units 112 and 212 are for considering the quality of the radio channel in determining the multivalue level. In other words, in the present embodiment, even if the command uses a high multi-level, if the quality of the wireless line at that time is below a certain threshold, low multi-level modulation is used. In the case where a plurality of multivalue levels are used, the command determination unit 203 or a multivalue level less than the multivalue level selected by the 103 based on the command is processed according to the radio channel quality. Parts 11 and 22 are determined. The wireless section quality measurement can use the reception level of the wireless signal, the error correction amount in the error correction code, etc., and the bit error rate calculated based on the reception level value, the error correction amount, and the error correction amount. Etc. can be used as quality information. Further, a slot having a user data area of a radio frame shown in FIG. 11 can be used for quality measurement in a radio section. The uplink and downlink user data areas are further divided into several areas depending on the modulation multi-level used, but it is desirable to use a high multi-level slot for quality measurement in the radio section. .

  FIG. 7 is a processing flowchart of the base station apparatus 2 in the present embodiment. When the base station apparatus 2 normally performs periodic polling (S71) and receives an aperiodic polling instruction from the control apparatus 3 (S72), the base station apparatus 2 determines the command type (S73), and the command type is low-multi-value. If the degree of time corresponds, the command is transmitted to the target subscriber station apparatus using the low multilevel modulation method (S74), and the processing in the subscriber station apparatus is completed (S75). Resume polling. On the other hand, if the command type corresponds to the high multivalue level, the wireless channel quality is checked (S76). If the quality is greater than the predetermined threshold and the high multivalue level can be used, the A command is transmitted to the target subscriber station apparatus using the modulation method of the degree of value (S77), and if the quality does not satisfy the predetermined standard, the target subscription using the low-level modulation method A command is transmitted to the personal station apparatus (S78). Every time aperiodic polling is performed until the process in the subscriber station apparatus is completed, the multi-level degree is determined in S76, and after the process in the subscriber station apparatus is completed (S79), the periodic polling is resumed. The determination of the radio channel quality at the base station is based on a notification from the subscriber station apparatus, as will be described later.

  FIG. 8 is a sequence diagram of a polling method according to another embodiment of the present invention. In FIG. 8, a dotted line indicates periodic polling, a solid line indicates non-periodic polling, a solid thin line indicates a low multi-level modulation method in the maintenance operation area, and a solid solid line indicates high multi-level modulation in the maintenance operation area. It shows that the modulation method is used. Further, in the sequence diagram shown in FIG. 8, the radio quality processing unit 112 of the subscriber station apparatus determines the quality of the radio section, determines the multilevel to be used based on the determination result, and notifies the base station apparatus The form to do is shown.

  The base station apparatus 2 performs periodic polling for each subscriber station apparatus during normal times (S81). For example, when receiving a control instruction corresponding to the high multivalue level from the control device 3 to the subscriber station 1-1, the base station device 2 stops the periodic polling and uses it for the periodic polling which is an initial value. The multi-level modulation method, that is, the low multi-level modulation method is used in the downlink maintenance operation region, and the start of aperiodic polling by the high multi-level modulation is notified to the subscriber station apparatus 1-1. However, since the quality of the wireless section does not satisfy the predetermined standard, the subscriber station apparatus 1-1 notifies the base station apparatus 2 of the use of the low multivalue level (S82). The base station apparatus 2 performs polling by applying low multilevel modulation to the maintenance operation area in accordance with an instruction from the subscriber station apparatus 1-1. Since the quality of the radio section is improved and the predetermined standard is satisfied, the subscriber station apparatus 1-1 notifies the base station apparatus 2 of the use of the high multivalue level in response to this polling (S83). ). Thereafter, the subscriber station apparatus 1-1 designates the multi-value level based on the quality of the radio section in the response of aperiodic polling to the base station apparatus 2, and the base station apparatus 2 performs the next aperiodic response. Use the specified multivalued degree in polling. Then, with the end of non-periodic polling (S85), normal periodic polling with a low multi-value degree is resumed (S86).

  When the base station apparatus 2 determines the multivalue level, the subscriber station apparatus measures quality information such as a bit error rate in the radio quality processing unit 112 and notifies the base station apparatus 2 of the quality information. The radio quality processing unit 212 of the base station apparatus 2 determines the multilevel to be used next based on the notified quality information, and instructs the command processing unit 205. When the multi-level is determined in the base station apparatus 2, first, the multi-level after the change is applied to the subscriber station apparatus using a radio frame using the multi-level before the change in the maintenance operation area. The multi-value degree after the change is applied from the next radio frame. In this embodiment, it is also possible to use different multivalue levels in the uplink and downlink maintenance operation areas. In this case, the quality measurement in the uplink radio section is performed by the radio quality processing of the base station apparatus 2. This is performed by the unit 212. Note that the quality of the downlink radio section may be estimated from the quality of the uplink radio section, and the quality of the uplink radio section may be estimated from the quality of the downlink radio section. That is, the base station apparatus 2 may determine the wireless channel quality in the wireless quality processing unit 212 to determine the downlink multilevel.

  As described above, in this embodiment, in order to consider the quality of the radio section in addition to the command type in determining the multi-level of modulation used in the maintenance operation area, stable polling processing and reduction in processing time are realized. be able to.

It is a block diagram of the base station apparatus by this invention. It is a block diagram of the subscriber station apparatus by this invention. It is a block diagram of the base station apparatus in other embodiment of this invention. It is a block diagram of the subscriber station apparatus in other embodiment of this invention. It is a processing flow figure of the base station apparatus by this invention. It is a sequence diagram of the polling method by this invention. It is a processing flow figure of the base station apparatus in other embodiment of this invention. It is a sequence diagram of the polling method in other embodiment of this invention. It is a state transition diagram of a polling method according to the present invention. It is a state transition diagram of the polling method by a prior art. It is a figure which shows the radio | wireless frame transmitted between a base station apparatus and a subscriber station apparatus. 1 is a system configuration diagram of a one-to-many wireless communication system. It is a sequence diagram of periodic polling.

Explanation of symbols

1-1 to 1-N subscriber station device 2 base station device 3 control device 11, 21 command / response processing unit 101, 207 wireless transmission / reception unit 102 command reception unit 103, 203 command determination unit 104, 204 command database 105, 205 Command processing unit 109, 209 Response processing unit 110 Response transmission unit 111, 211 Main signal processing unit 112, 212 Radio quality processing unit 201 Signal identification unit 202 Aperiodic polling reception unit 205 Command processing unit 206 Command transmission unit 208 Response reception unit 210 Aperiodic polling response section

Claims (10)

A base station device selecting a modulation multi-level based on a command transmitted to the subscriber station device;
The base station device notifies the subscriber station device of the selected multi-value level, and determining the multi-value level;
The base station device transmits the command to the subscriber station device by a radio signal modulated at the determined multi-level,
Polling method that has. The determination of the multilevel is determined according to the radio channel quality between the base station device and the subscriber station device, from the multilevel below the selected multilevel.
The polling method according to claim 1. The step of determining the multivalued level is as follows:
A step in which the base station device notifies the subscriber station device of the selected multivalue level;
The multi-value determined by the subscriber station apparatus according to the radio channel quality measured by the subscriber station apparatus or less than the multi-value level selected by the base station and measured by the subscriber station apparatus. Reporting the degree to the base station device;
The method according to claim 1 or 2, comprising: The base station device selects the modulation multi-level by referring to a database indicating the correspondence between the command and the multi-level.
4. A method according to any one of claims 1 to 3. Means for selecting a multi-level of modulation based on a command transmitted to the subscriber station device;
Means for notifying the selected multi-value level to the subscriber station device and determining the multi-value level;
Means for transmitting the command to the subscriber station apparatus by a radio signal modulated at the determined multi-level,
A base station apparatus comprising: The means for determining the multi-value degree determines the multi-value degree included in the response from the subscriber station apparatus to the notification of the selected multi-value degree as the multi-value degree used for command transmission.
The base station apparatus according to claim 5. The means for determining the multilevel is based on the radio channel quality measured by the subscriber station apparatus, and determines a multilevel below the selected multilevel as the multilevel used for command transmission.
The base station apparatus according to claim 5. Means for receiving a notification of the multi-level of modulation used for the command in polling from the base station apparatus, and determining the multi-level to be used;
Means for receiving a command modulated at a determined multi-level, included in a radio signal from a base station device;
A subscriber station device comprising: The means for determining the multi-value is a multi-value less than the notified multi-value, and the multi-value determined based on the radio channel quality measured in the subscriber station device is used for the command from the base station device. Determined as the multi-value level to be notified, and notifies the determined multi-value level to the base station device,
The subscriber station apparatus according to claim 8. The means for determining the multivalue level notifies the base station device of the radio channel quality measured at the subscriber station device in response to the notification of the multilevel value from the base station device, and determines the radio channel quality to the base station device. The multi-value level notified from the base station device in response to the notification is determined as the multi-level value used for the command from the base station device.
The subscriber station apparatus according to claim 8.

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