JP2013502863A - Communication system and method for updating system information in communication system - Google Patents

Abstract

The present invention discloses a communication system and an updating method used for system information in the communication system. The communication system includes a control station and a dependent station. The control station adjusts the transmission parameter or transmission method of the system information, and the control station transmits the system information to one or a plurality of dependent stations according to the adjusted transmission parameter or transmission method. The dependent station receives and decodes the system information. By applying the present invention, it is possible to apply the latest system arrangement information or parameters to the subordinate station by acquiring the latest system arrangement information or parameters as quickly as possible. When it changes, it guarantees normal operation and improves system performance.
[Selection] Figure 3

Description

  The present invention relates to the field of wireless communication, and more particularly to a communication system and a method for updating system information in a communication system.

  In a wireless communication system, a control station (for example, a base station) is a basic unit that composes a wireless cellular cell and completes communication and management functions between a mobile communication network and mobile communication users, which are dependent on uplink / downlink. Communicating with a station (for example, a terminal), down means the direction from the control station to the dependent station, and up means the direction from the dependent station to the control station. Multiple dependent stations can simultaneously transmit data to the control station via the uplink and can simultaneously receive data from the control station via the downlink. In a radio communication system that employs a control station to implement radio resource scheduling control, scheduling assignment of system radio resources is completed by the control station.

  In a wireless communication system, to ensure that a dependent station completes cell selection and system access in one efficient manner, the control station typically uses the system's down-broadcast control channel in time. It is necessary to periodically transmit relatively important system location information or an aggregate of parameters, for example, use of a super frame header (abbreviated as Super-Frame Header, SFH) in an 802.16m system. Depending on the operation pattern, the operator may change some system configuration information or parameters irregularly, and during this period, the subordinate station shall avoid affecting its normal data transmission. It is necessary to update and apply necessary system location information or parameters in a timely manner.

  In order to realize the purpose of energy saving, a sleep mode is provided in many mobile or wireless communication protocols, and the sleep mode reduces the energy consumption of the mobile subordinate station and the service control station. The objective is to reduce the use of air interface resources. Sleep mode is a kind of state in which the service of the service control station is temporarily suspended within a designated period that the subordinate station has negotiated in advance, that is, control is performed within the sleep window of the mobile subordinate station in the sleep mode. The station does not unicast any form of down service to the subordinate station.

  For most wireless communication systems, the system configuration information or parameter scheduling period is relatively fixed.For example, in an 802.16m system, system information is broadcast by SFH, and a superframe header is a primary superframe header (Primary- SFH, abbreviated as P-SFH) and secondary superframe headers (abbreviated as Secondary-SFH, S-SFH), and S-SFH is further divided into a plurality of subpackages, for example, subpackage 1 ( SP1) to subpackage 3 (SP3), most of the system information is sent with three subpackages of S-SFH, and these superpackages are not necessarily sent in each superframe, and these subpackages are sent The specific location is a schedule of different subpackages preset by the control station. It depends on-ring cycle.

  For this reason, during the period in which the control station updates the system arrangement information or parameters, the changed system arrangement information or parameters are timely transferred to the subordinate stations due to decoding errors of the subordinate stations or limitations on the system arrangement information or parameter scheduling period. One or more of which the system configuration information or parameter update is in Sleep mode, and may affect the normal data interchange with the control station in the end. May occur during the sleep window of the dependent station, and at this time, the dependent station does not update the system configuration information or parameters, and finally the dependent station is updated in the next listening window. Causes system configuration information or parameters not to be acquired quickly, thereby allowing the There is a possibility to influence the operation.

  The technical problem to be solved by the present invention is to solve the problem of causing the dependent station not to operate normally because the system arrangement information changed by the dependent station is received and applied in a timely manner in the prior art. It is an object to provide a communication system and a method for updating system arrangement information in the communication system.

In order to solve the above problem, the present invention proposes an updating method used for system information in a communication system,
A control station adjusting a transmission parameter or transmission scheme of the system information, and transmitting the system information to one or a plurality of dependent stations according to the transmission parameter or transmission scheme after adjustment by the control station.

The step of the control station adjusting the transmission parameter or transmission method of the system information includes:
The control station employs an active adjustment method to determine that the system information changes, and then adjusts the transmission parameter of the changed system information.

The method
When the system information changes, the control station adopts the active adjustment scheme by determining whether there is one or more dependent stations within a sleep window in sleep mode. Further comprising confirming
The active adjustment method employed by the control station adjusts the scheduling period or transmission frequency and / or coding rate of the system information during or outside the listening window of the one or more dependent stations. Prepare to do.

The step of the control station adjusting the transmission parameter or transmission method of the system information includes:
The control station adopts a passive adjustment method, and adjusts the transmission parameter or transmission method of the changed system information or all system information based on feedback information from the dependent station,
The feedback information includes channel quality instruction information and / or instruction information in which system information update has failed.

The feedback information is instruction information in which updating of system information has failed,
The method finds that the system information changes under conditions where the dependent station cannot accurately decode the changed system location information or parameters, or after the dependent station is woken up in the sleep window. And feeding back to the control station the instruction information for which the update of the system information has failed,
The control station adopts a passive adjustment method, and the step of adjusting the transmission parameter or transmission method of the changed system information or all system information based on feedback information from the subordinate station is received by the control station accurately. The system information after adjusting the scheduling period or the transmission frequency and / or the coding rate of the system information or changing the transmission method based on the instruction information that the update fed back by the dependent station failed. Comprising coordinating in transmitting unicast or broadcast information including.

The step in which the dependent station feeds back the instruction information indicating that the update of the system information has failed to the control station is an indication that the dependent station has failed to update to the control station according to the shared uplink physical control channel and / or media access control information. With feedback of information,
The instruction information for which the update has failed includes system arrangement information or parameters and / or dependent station information.

The feedback information is channel quality indication (CQI) information;
The method further comprises the dependent station reporting CQI information within one time interval to the control station with long-term or short-term feedback information in response to a control station feedback request;
The control station adopts a passive adjustment method, and the control station adjusts the transmission parameter or the transmission method of the changed system information or all system information according to feedback information from the dependent station. Collecting CQI feedback information from a plurality of different dependent stations, calculating based on the CQI feedback information, and looking up the table to determine the system configuration information or parameter scheduling period or transmission frequency at this time, And / or outputting the encoding rate,
The step of transmitting the system information to one or a plurality of dependent stations according to transmission parameters or transmission methods after adjustment by the control station includes the control station outputting an output scheduling period or transmission frequency, and / or Depending on the coding rate, it comprises sending subsequent system configuration information or parameters to the dependent stations.

The control station calculates based on CQI feedback information of the dependent station, and looks up the table and outputs the scheduling period or transmission frequency and / or coding rate of the system configuration information or parameters at this time,
The control station obtains the number of feedbacks (n) of the dependent station within a specific time interval and the corresponding CQI feedback index (Idx), and obtains the average CQI feedback index (Idx _avr ) of the dependent station within the time interval. And steps to
_Obtain the average CQI feedback index (Idx _avr1 , Idx _avr2 ,..., Idx _avrm ) of each of the m dependent stations within the specific time interval, and average CQI feedback index within the time interval of all the dependent stations A step to obtain (IDX _avr ),
The control station uses the average CQI feedback index (IDX _avr ) that has undergone the rounding operation, performs a table lookup operation based on a specific mapping table, a long-term scheduling period or transmission frequency of system information, and / or encoding Outputting a speed.

  The transmission parameters comprise a scheduling period or transmission frequency and / or a coding rate.

  The system information comprises system location information or parameters for network reentry, network initial access, and network discovery.

The control station comprises one or various network elements of a macro control station, a micro control station, a small micro control station, a relay station,
The subordinate station includes one or various network elements among a terminal, a relay station, a micro control station, and a small micro control station.

The present invention further provides a communication system,
Adjusting a transmission parameter or transmission method of system information, and a control station installed to transmit the system information to one or more dependent stations according to the adjusted transmission parameter or transmission method; and
A dependent station is provided to receive and decode system information.

The dependent station further changes the system configuration information or parameters under conditions where the changed system configuration information or parameters cannot be accurately decoded or after the dependent station is woken up in the sleep window. Is installed to feed back to the control station the system location information or the instruction information that the parameter update has failed,
The control station adopts a passive adjustment method, and correctly determines the scheduling period or transmission frequency and / or the coding rate of the system information based on the indication information correctly received and fed back by the dependent station that has failed to be updated. It is installed to adjust the transmission parameter or transmission method of the system information so as to adjust or adjust the transmission method to transmit unicast or broadcast information including the changed system information.

The dependent station is further configured to report channel quality indication (CQI) information within one time interval to the control station with long-term or short-term feedback information in response to a control station feedback request;
The control station adopts a passive adjustment scheme, collects CQI feedback information from different subordinate stations within the time interval, calculates based on these CQI feedback information, and looks up the table Then, the scheduling period or transmission frequency and / or encoding rate of the system arrangement information or parameter at this time is output, and the subsequent system to the dependent station according to the output scheduling period or transmission frequency and / or encoding rate It is installed so as to transmit arrangement information or parameters.

The present invention further provides a control station in the communication system,
An adjustment module installed to adjust the transmission parameter or transmission method of the system information;
A transmission module is provided so as to transmit the system information to one or more dependent stations according to the adjusted transmission parameter or transmission method.

  The adjustment module determines that the system information is changed, adjusts the transmission parameter of the changed system information, or transmits the changed or all system information based on the feedback information of the dependent station. Installed to adjust parameters or transmission scheme.

  According to at least one plan of the present invention described above, the control station can update the system configuration information or parameter during a period of updating the radio network system configuration information or parameter, or during the listening window of one or more dependent stations. By adjusting the scheduling period or the transmission frequency and / or the coding rate, it is possible to apply the latest system configuration information or parameters to the subordinate station or obtain it as fast as possible. In the technology, since the dependent station does not receive the changed system location information or parameter in a timely manner, the problem that the dependent station does not operate normally is solved, and the dependent station in the wake-up or sleep mode If it is changed, it is guaranteed to work properly and the system Improve the beam performance.

  Other features and advantages of the present invention are set forth in detail in the following description, and are set forth in part in the specification, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description, claims and drawings.

  The drawings provide a further understanding of the invention and constitute a part of the description, which, together with the embodiments of the invention, interpret the invention, but do not limit the invention.

FIG. 1 is a flowchart of a first type of system arrangement information or parameter update method according to an embodiment of the present invention. FIG. 2 is a schematic diagram of the first type of system arrangement information or parameter update process taking the 802.16m system as an example. FIG. 3 is a flowchart of the second type system arrangement information or parameter update method according to the embodiment of the present invention. FIG. 4 is a flowchart of the third type system arrangement information or parameter update method according to the embodiment of the present invention. FIG. 5 is an algorithm flowchart in which the optimum transmission frequency or scheduling period and / or coding rate is determined based on CQI in the third type of update method according to the embodiment of the present invention.

  The objects, technical solutions, and advantages of the present invention will be further clarified, and the present invention will be described in more detail with reference to the drawings.

  In the prior art, the dependent station has a decoding error or is in sleep mode, or the system arrangement information or parameters can be received and applied in a timely manner by the system arrangement information or parameter scheduling period limitation. However, this causes a problem that the dependent station does not operate normally, and the embodiment of the present invention provides a communication system and a method for updating system configuration information or parameters in the communication system.

  In the present invention, when the control station determines that the system configuration information or parameter needs to be changed, the control station automatically increases the transmission frequency of the corresponding system configuration information or parameter, or the corresponding system configuration. When the scheduling period of the information or parameter is lowered, or when the dependent station does not correctly decode the system arrangement information or parameter, the control station feeds back the instruction information indicating that the system arrangement information or parameter update has failed, Adjust system configuration information or parameter transmission frequency or scheduling period and / or encoding rate, or adjust system configuration information or parameter transmission scheme, or control station can make long-term or short-term transmission from multiple subordinate stations Based on the CQI feedback of the system configuration information or parameters. Adjust meter scheduling period or transmission frequency and / or encoding rate.

In the method used for updating the system information in the communication system of the present invention,
After the control station adopts the active adjustment method and determines that the system information changes, it adjusts the transmission parameter of the system information after the change, or adopts the passive adjustment method, and feeds back the dependent station. Adjusting transmission parameters or transmission schemes for changed or all system information based on the information; and
The control station comprises a step of transmitting changed or all system information to the dependent station according to the adjusted transmission parameter or transmission method.

  The transmission parameter comprises a scheduling period or transmission frequency and / or a coding rate.

  The system information comprises system location information or parameters, such as parameters for network re-subscription, network initial access, network discovery, and other necessary system configurations.

The communication system of the present invention includes:
After confirming that the system information changes, adjust the transmission parameters of the system information after the change, or adopt a passive adjustment method and change or all the system information based on the feedback information of the dependent station A control station for adjusting the transmission parameter or transmission method of the system, and transmitting the changed or all system information to the dependent station according to the adjusted transmission parameter or transmission method;
A dependent station is provided for receiving and decoding system information.

  Further, when the dependent station finds that the system information changes under conditions where the changed system location information or parameters cannot be accurately decoded, or after the dependent station is woken up in the sleep window, It is further used for feeding back the instruction information in which the update of the system information has failed to the control station. Correspondingly, the control station adjusts the scheduling period or the transmission frequency and / or the coding rate of the system information based on the correctly received instruction information that the update fed back by the dependent station failed. Alternatively, it is used to transmit unicast or broadcast information including system information after changing to a dependent station.

  Further, the dependent station is further used to report channel quality indication (CQI) information within a certain time interval to the control station with long-term or short-term feedback information according to the feedback request of the control station. Correspondingly, the control station collects CQI feedback information from a plurality of different subordinate stations within the one time interval, and calculates the table based on the CQI feedback information. Lookup and output the scheduling period or transmission frequency and / or encoding rate of the system arrangement information or parameters at this time, and the control station responds to the output scheduling period or transmission frequency and / or encoding rate. It is further used to send system configuration information or parameters to the dependent stations.

The control station of the present invention
An adjustment module for adjusting system information transmission parameters or transmission methods;
A transmission module for transmitting the system information to one or a plurality of dependent stations according to the adjusted transmission parameter or transmission method is provided.

  The adjustment module determines that the system information has changed, adjusts the transmission parameter of the system information after the change, or changes the transmission parameter of all the system information or all the system information according to the feedback information of the dependent station Adjust the transmission method.

  The system information update method of the present invention can be divided into three types of update methods depending on the adjustment method.

In the case of the following two types, the first type update method control station adopts the first type update method to adjust the transmission parameter of the system information,
In the case of the first type, the control station adopts an active adjustment method during the period of updating the system arrangement information or parameters on the network side, and the scheduling period or transmission frequency and / or encoding of the system arrangement information or parameters Adjust the speed,
The update period of the system arrangement information or parameter means a time range controlled by one or more timers in the control station, and the time range is the latest from the time when the system arrangement information or parameter has changed. This means the time until all system configuration information or parameters are applied to the system.

  In the case of the second type, when the system location information or parameters change on the network side, if one or more dependent stations in the network are within the Sleep window, the control station adopts an active adjustment method, and The scheduling period or transmission frequency and / or coding rate of the system arrangement information or parameters are adjusted outside the listening window period or outside the listening window of the one or more dependent stations.

Further, the control station adjusts the scheduling period or transmission frequency and / or coding rate of the system arrangement information or parameters,
Increasing the transmission frequency of the system configuration information or parameter, or decreasing the scheduling period of the system configuration information or parameter, the system configuration information or parameter means currently changed system configuration information or parameter .

System information changes under the condition that the dependent station of the second type of update method cannot accurately decode the system location information or parameters after the change, or after the dependent station is woken up in the sleep window. Is found, the instruction information indicating that the update of the system information failed is fed back to the control station,
When the control station correctly receives the feedback instruction information from the dependent station, the control station increases the transmission frequency of the corresponding system configuration information or parameter, or decreases the scheduling period of the corresponding system configuration information or parameter. Unicast or broadcast information including the changed system location information or parameters is transmitted to the dependent station, or other related operations are performed to notify the dependent station of the changed system location information or parameters. Can do.

  The instruction information indicating that the update that the dependent station has fed back to the control station has failed may include system arrangement information or parameters and / or dependent station information.

If it is found that the system location information or parameters change after the dependent station is woken up in the sleep window, the instruction information indicating that the update has failed can be fed back to the control station in the listening window.
The dependent station feeds back to the control station the instruction information that the system location information or parameter update has failed,
A scheme in which a dependent station can feed back to the control station via a shared uplink physical control channel (e.g., pre-hold one codeword in the Ranging channel), or
It comprises at least one of the schemes in which the dependent station can feed back to the control station through media access control (MAC) information or a combination thereof.

In the third update method step 1, the dependent station reports the channel quality indication (CQI) information within one time interval to the control station with long-term or short-term feedback information according to the control station feedback request And
In step 2, the control station collects CQI feedback information from a plurality of different dependent stations within the certain one time interval, and merges these CQI feedback information as an input of one algorithm module,
In step 3, the algorithm module outputs the optimal system location information or parameter scheduling period or transmission frequency and / or encoding rate at this time,
In step 4, the control station adjusts the scheduling period or transmission frequency and / or encoding rate of the system configuration information or parameters, and according to the scheduling period or transmission frequency and / or encoding rate output by the algorithm module. System configuration information or parameters are transmitted to the dependent station.

  The control station adjusting the scheduling period or transmission frequency and / or encoding rate of the system configuration information or parameter increases the scheduling period or transmission frequency and / or encoding rate of the system configuration information or parameter, Or provide for lowering.

  The coding rate means a synergistic product of the initial coding rate and the number of times of duplication, and increasing or decreasing the coding rate of the system configuration information or parameter means that the system configuration information or parameter Increasing or decreasing the coding speed and / or the number of duplications.

  The system location information comprises parameters for network reentry, network initial access, network discovery, and other necessary system placement.

  In the above three update methods, the control station increases the transmission frequency of the corresponding system arrangement information or parameter, or decreases the scheduling period of the corresponding system arrangement information or parameter, or updates the latest system arrangement information to the subordinate station. Alternatively, unicast or broadcast information including parameters can be transmitted, and the dependent station in the wake-up mode can receive a plurality of system update information or signals from the control station before the system location information or parameters are effective. Multiple times, which increases the probability that the dependent station will successfully acquire the system configuration information or parameters after the change, while at the same time the dependent station in Sleep mode is within its listening interval. Get the latest system configuration information or parameters as quickly as possible. It is possible to ensure that use.

  If they do not affect each other, the embodiments and features in the embodiments in this application can be combined with each other. Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings, and the preferred embodiments described herein will be used to explain and interpret only the present invention, and not to limit the present invention. It should be understood.

  Hereinafter, the three types of update methods will be described in detail with reference to the drawings.

In the case of two types, the control station adjusts the scheduling period or transmission frequency of the corresponding system arrangement information or parameter, and FIG. 1 is a flowchart of the first type system arrangement information or parameter update method according to the embodiment of the present invention. It is. As shown in FIG. 1, the system location information or parameter update method according to the embodiment of the present invention mainly includes:
Step S101, based on a certain strategy, the control station determines part or all of the system location information or parameters to be changed and at the same time determines one specific time interval (T);
The control station determines all the dependent stations in the sleep window that are in Sleep mode at this time, and at the same time calculates the time (Ti) until each dependent station (i) starts its listening window from the current time Step S102,
Step S103 in which the control station selects the maximum time interval (Tmax) among all the time intervals (Ti), and
Increasing the transmission frequency of the system configuration information or parameters after the control station has changed within a specific time interval (T + Tmax);
After the time interval (T + Tmax), the control station includes a step S105 in which the transmission frequency of the system arrangement information or parameter is reduced and recovered to the initial transmission frequency.

  With reference to the update method of the present embodiment, the scheduling cycle can be adjusted, the transmission frequency and the coding rate can be adjusted, or the scheduling cycle and the coding rate can be adjusted.

  In the specific implementation process, the update of the system arrangement information or parameters of 802.16m is taken as an example, and the specific implementation process of the first type update method will be further described as shown in FIG.

  For example, in the secondary superframe header (S-SFH), the initial scheduling period of subpackage 1 (SP1) is 2 superframes, the initial scheduling period of subpackage 2 (SP2) is 4 superframes, and subpackage 3 The initial scheduling period of (SP3) is 4 superframes. Currently, the dependent station 1 and the dependent station 2 are operated in the sleep mode.

  Specifically, the update process of the system arrangement information or parameters includes the following steps.

  In step 201, the control station determines that it is necessary to change the system arrangement information or parameters in subpackage 2 and subpackage 3 in the nth superframe, and confirms that the specific time interval is T. Determine.

  Specifically, the control station may change one or two subpackages of subpackage 1, subpackage 2, and subpackage 3 as necessary, or change the three subpackages at the same time. You may let them.

  Specifically, the time interval T means a time determined by the control station until the time when the system configuration information or parameter is changed and finally applied to the system.

In step 202, the control station determines in this case that the dependent station within the sleep window in the sleep mode determines dependent station 1 and dependent station 2, and dependent station 1 listens to it from the nth superframe. One superframe (T ₁ ) must be traversed until the window is started, and two superframes (T ₂ ) are required until dependent station 2 starts its listening window from the nth superframe. Need to pass.

  Specifically, at the start time of the nth superframe, there may be no dependent station in the sleep window that is in the sleep mode. The following steps can be taken, or there are three or more subordinate stations within the sleep window.

  Specifically, the time it takes for the dependent station to start its listening window from the start time of the nth superframe may not be an integer number of superframes (one superframe comprises 4 radio frames). Yes, it is an integer number of radio frames. Therefore, the unit of the time interval may be a super frame or a radio frame.

In step 203, the control station selects the maximum time interval (T2) from the time intervals (T ₁ and T ₂ ) between the dependent station 1 and the dependent station 2 obtained in step 202.

In step 204, the control station changes the system configuration information or parameter (sub package 2 and sub package after the change in the time interval (T + T ₂ ) of seven 802.16m superframes (ie, 28 radio frames). 3) Increase the transmission frequency, specifically, the instantaneous scheduling period and the initial scheduling period of subpackage 1 are the same, and the entire instantaneous scheduling period of subpackage 2 and subpackage 3 changes to two superframes. Is done.

  In step 205, after passing the time interval determined from step 204 (from the nth superframe to the n + 6th superframe), the control station reduces the transmission frequency of subpackage 2 and subpackage 3 Specifically, the entire scheduling period of the subpackage 2 and the subpackage 3 is restored to the first four superframes.

In this embodiment, the system configuration information or parameter changes under the condition that the dependent station cannot accurately decode the changed system configuration information or parameter or after the dependent station is woken up in the sleep window. When finding that, it feeds back to the control station the system configuration information or the instruction information that the parameter update failed,
When the control station correctly receives the feedback instruction information from the subordinate station, the control station increases the transmission frequency of the corresponding system configuration information or parameter, or decreases the scheduling period of the corresponding system configuration information or parameter. Alternatively, unicast or broadcast information including up-to-date system location information or parameters can be sent to subordinate stations, or other related operations can be performed.

FIG. 3 is a flowchart of the second type system arrangement information or parameter update method according to the embodiment of the present invention, and the system arrangement information or parameter update method according to the embodiment of the present invention mainly includes:
Determines that the dependent station cannot accurately decode the changed system configuration information or parameter, or finds that the system configuration information or parameter changes after the dependent station is woken up in the sleep window Step S301,
Step S302 in which the dependent station feeds back the system configuration information or the information indicating that the parameter update has failed to the control station through a shared uplink physical control channel or a MAC message;
The control station increases the transmission frequency of the system configuration information or parameter after the change, or decreases the scheduling period of the corresponding system configuration information or parameter, or the unicast including the latest system configuration information or parameter to the subordinate station or Step S303 is included for transmitting broadcast information or performing other related operations.

  In a specific implementation process, a dependent station determines whether system configuration information or parameters will change sometime, or whether it will change at present, according to clear instruction information or control signals from the control station.

  Specifically, when the system location information or parameter changes, if the dependent station does not decode the system location information or parameter correctly, for example, if the error is a cyclic redundancy check (CRC), the dependent station may return to the control station. The system arrangement information or the instruction information for which the parameter update has failed is fed back.

  Specifically, when the dependent station feeds back the system location information or the instruction information indicating that the parameter update has failed to the control station through the shared uplink physical control channel, all the dependent stations have a fixed, similar physical information. The instruction information can be transmitted using a video resource, and the instruction information can carry one or more instruction sequences.

  Specifically, when the dependent station feeds back the system location information or the instruction information indicating that the parameter update has failed to the control station by a MAC message, all the dependent stations can transmit one unicast MAC in the data or service channel. The indication information can be transmitted using a message, and an example of an information band included in the MAC message is provided in Table 1.

  For 802.16m systems, the information band "system location information or parameter information that failed to update" can contain information that failed to update the specific S-SFH subpackage, for example, a bit of a size such as 3 bits Use the map to indicate that any or some of the subpackages in the three subpackages will fail to update, i.e. make the first bit correspond to subpackage 1 and the second bit to subpackage 2 The third bit is made to correspond to the subpackage 3.

Table 1: Example of information bandwidth of MAC information indicated by system location information or parameter update failure

  Specifically, when the control station correctly receives the feedback indication information from the dependent station, the control station has changed system arrangement information carried in the broadcast physical control channel within a specific time interval or Increase the parameter transmission frequency or decrease the system allocation information or parameter scheduling period, and then restore the initial system allocation information or parameter transmission frequency or scheduling period, or update to the dependent station by data or service channel A unicast or broadcast message may be sent that includes system configuration information or parameters.

In this embodiment, the control station adjusts the scheduling period or transmission frequency and / or coding rate of the system configuration information or parameters based on CQI feedback from the dependent station. FIG. 4 is a flowchart of the third type system arrangement information or parameter update method according to the embodiment of the present invention.As shown in FIG. 4, the system arrangement information or parameter update method according to the embodiment of the present invention is mainly performed. ,
Step S401 for reporting channel quality indication (CQI) information within a certain time interval to the control station by the dependent station to the control station by long-term or short-term feedback based on a feedback request from the control station;
Step S402 in which the control station collects CQI feedback information from a plurality of different subordinate stations within a certain time interval and merges the information into an input of one algorithm module;
Step S403, in which the algorithm module outputs a long-term scheduling period or transmission frequency and / or coding rate of optimal system location information or parameters in this case;
The control station includes step S404 of transmitting system information to the dependent station according to the scheduling period or transmission frequency output from the algorithm module and / or the coding rate.

  In a specific implementation process, the control station operates using CQI feedback information from some or all of the dependent stations in the network, specifically when the control station directs, or under default conditions. When any of the dependent stations needs to feed back CQI information to the control station, the control station uses the feedback information from all the dependent stations to update the system arrangement information or parameters. When instructing some of the dependent stations to feed back the CQI information to the control station, the control station performs an operation of updating the system arrangement information or the parameter using the feedback information from the some of the dependent stations.

  Specifically, all dependent stations that can perform CQI feedback operations can have the same or different long or short feedback periods (i.e., feedback time intervals), e.g., typically 4 or 8 It may be a radio frame, and the feedback period may be a default value, or may be clearly indicated by a down control signal or message at the control station.

  Specifically, since different subordinate stations may adopt different CQI feedback periods, the number of feedbacks from different subordinate stations received by the control station in the same time interval is also different, and thus First, the feedback from a single dependent station needs to be considered, and then the average situation of all the dependent stations is further considered.

  As shown in FIG. 5, the method in which the algorithm module determines the scheduling period or transmission frequency and / or the coding rate specifically includes the following steps.

  In step S501, the control station actively collects feedback information from a specific dependent station within a specific time interval, and the number of feedbacks (n) of the dependent station during this period and a corresponding CQI feedback index (Idx ).

Specifically, the CQI index (Idx _n ) of each feedback can carry information of a specific modulation and coding scheme, and this information is optimal for the subordinate station to use for down transmission during that time. This is a modulation and coding scheme.

In step S502, the control station uses the n CQI feedback indexes of the dependent stations acquired in step S501, and calculates an average CQI feedback index (Idx _avr ) of the dependent stations within the time interval according to the following formula.
Idx _avr = (Idx ₁ + Idx ₂ + …… + Idx _n ) / n

Step S503, for the dependent station of the next enable-up CQI feedback, the control station repeatedly executes the above steps S501 and S502, and finally the average of the sub-stations of each enable-up CQI feedback within the time interval The CQI feedback index (Idx _avr1 , Idx _avr2 ,..., Idx _avrm ) is obtained, and m indicates the number of dependent stations of the current enable-up CQI feedback.

Step S504, using the average CQI feedback index (Idx _avr ) of the dependent station of each enable-up CQI feedback obtained by the control station in step S503, and calculating the average CQI within the time interval of all the dependent stations according to the following formula: Calculate the feedback index (IDX _avr ).
IDX _avr = (Idx _avr1 + Idx _avr2 + …… + Idx _avrm ) / m

Preferably, a rounding operation or a rounding operation is performed on the average CQI feedback index (IDX _avr ) within a certain data range (for example, 1 to 16) according to a specific implementation.

In step S505, the average CQI feedback index (IDX _avr ) obtained through the _integer operation obtained by the control station in step S504 is used to perform a table lookup operation based on a specific mapping table, and finally the optimum system arrangement information Alternatively, a long-term scheduling period or transmission frequency of parameters and / or a coding rate is output.

Specifically, for different radio frequency interface technologies, the average CQI feedback index (IDX _avr ) may have different mapping between the corresponding system configuration information or parameter scheduling period or transmission frequency and / or coding rate. The mapping table may be as shown in Table 2 using the 802.16m radio frequency interface technology as an example. Indicates that TBD will be determined later and is an abbreviation for To Be Determined.

Table 2-Mapping relationship table between 802.16m average CQI feedback index (IDX _avr ) corresponding scheduling information and coding rate of system configuration information or parameter (S-SFH)
IDX _avr S-SFH SP1 scheduling period S-SFH SP2 scheduling period S-SFH SP3 scheduling period S-SFH coding rate

  Specifically, the control station adjusts the scheduling period or transmission frequency of the system arrangement information or parameter and / or the coding rate according to the above-described step S501 to step S505 according to the scheduling period or the parameter of the system arrangement information or parameter. It comprises increasing or decreasing the transmission frequency and / or the coding rate.

  Specifically, the encoding rate means a synergistic product of the initial encoding rate and the number of times of duplication, and increasing or decreasing the encoding rate of the system configuration information or parameter is the system configuration information or Comprising increasing or decreasing the initial encoding rate and / or the number of overlaps of the parameters.

  For purposes of illustration, preferred embodiments of the present invention have already been disclosed and employees in the field recognize that various improvements, increases, and alternatives are possible, so that the scope of the present invention is described above. It should not be limited to the examples.

  Ordinary employees in the field can understand that all or some of the steps in the above method are completed by commanding the associated hardware by the program, which is stored on a computer-readable recording medium. For example, a read-only memory, a magnetic disk, a disk, or the like. Optionally, all or some of the steps of the above embodiments may be implemented using one or more integrated circuits. Correspondingly, each module / unit in the above embodiment may be realized by adopting a hardware format, or may be realized by adopting a software function module format. The present invention is not limited to combining any particular type of hardware and software.

  According to the method of the present invention, the control station allows the system configuration information to be updated while the wireless network updates the system configuration information or parameters, or between or outside the listening windows of one or more subordinate stations. Or, by adjusting the scheduling period or transmission frequency of parameters and / or the coding rate, it is possible to make the dependent station obtain the latest system configuration information or parameters or obtain them as fast as possible, thereby applying In the prior art, since the dependent station does not apply the system arrangement information or parameters after the change in a timely manner, the problem that the dependent station does not operate normally is solved, and the dependent station in the wake-up or sleep mode is If system configuration information or parameters change, it will operate normally. Ensure that, to improve the system performance.

Claims (16)

An update method used for system information in a communication system, comprising:
The control station includes adjusting the transmission parameter or transmission method of the system information, and transmitting the system information to one or a plurality of dependent stations according to the transmission parameter or transmission method after the control station adjusts. The step of the control station adjusting the transmission parameter or transmission method of the system information includes:
2. The updating method according to claim 1, wherein the control station employs an active adjustment method to determine that the system information changes, and then adjusts the transmission parameter of the changed system information. When the system information changes, the control station adopts the active adjustment scheme by determining whether there is one or more dependent stations within a sleep window in sleep mode. Further comprising confirming
The active adjustment method adopted by the control station is that the scheduling period or transmission frequency of the system information and / or the coding rate are set between the listening windows of the one or more dependent stations or outside the listening window. The updating method according to claim 2, comprising adjusting. The step of the control station adjusting the transmission parameter or transmission method of the system information includes:
The control station adopts a passive adjustment scheme, and based on feedback information from a dependent station, adjusts the transmission parameter or transmission scheme of the changed or all system information,
2. The update method according to claim 1, wherein the feedback information includes instruction information indicating that channel quality instruction information and / or system information has failed to be updated. The feedback information is instruction information in which updating of system information has failed,
The method finds that the system information changes under conditions where the dependent station cannot accurately decode the changed system location information or parameters, or after the dependent station is woken up in the sleep window. And feeding back to the control station the instruction information for which the update of the system information has failed,
The control station adopts a passive adjustment method, and adjusting the transmission parameter or transmission method of changed or all system information based on feedback information from a dependent station is received correctly by the control station, The system information includes a system information after adjusting the scheduling period or transmission frequency and / or coding rate of the system information based on the instruction information for which the update fed back by the dependent station has failed, or changing the transmission method. 5. The updating method according to claim 4, comprising coordinating in transmitting unicast or broadcast information. The step in which the dependent station feeds back the instruction information indicating that the update of the system information has failed to the control station is an indication that the dependent station has failed to update to the control station according to the shared uplink physical control channel and / or media access control information. With feedback of information,
6. The update method according to claim 5, wherein the instruction information for which the update has failed includes system arrangement information or parameters and / or dependent station information. The feedback information is channel quality indication (CQI) information;
The method further comprises the dependent station reporting CQI information within one time interval to the control station by a long-term or short-term feedback message in response to a control station feedback request;
The control station adopts a passive adjustment method, and the step of adjusting the transmission parameter or the transmission method of the changed system information or all system information based on feedback information from the subordinate station includes a plurality of steps within the time interval. Collect CQI feedback information from different dependent stations, calculate based on these CQI feedback information, and further look up the table to determine the system configuration information or parameter scheduling period or transmission frequency, and / or Or outputting a coding rate,
The step of transmitting the system information to one or a plurality of dependent stations according to transmission parameters or transmission methods after adjustment by the control station includes the control station outputting an output scheduling period or transmission frequency, and / or 5. The updating method according to claim 4, comprising transmitting subsequent system configuration information or parameters to the dependent station according to the coding rate. The control station calculates based on CQI feedback information of the dependent station and looks up a table, and outputs a scheduling period or transmission frequency and / or encoding rate of system arrangement information or parameters at this time, ,
The control station obtains the number of feedbacks (n) of the dependent station within a specific time interval and a corresponding CQI feedback index (Idx), and the average CQI feedback index (Idx _avr ) of the dependent station within the time interval. Step to get the
_Obtain the average CQI feedback index (Idx _avr1 , Idx _avr2 ,..., Idx _avrm ) within a particular time interval for each of the m dependent stations, and average CQI within the time interval for all dependent stations A feedback index (IDX _avr ) is obtained, and an average CQI feedback index (IDX _avr ) that the control station has undergone a rounding operation is used to perform a table lookup operation based on a specific mapping table, thereby 8. The update method according to claim 7, further comprising outputting a scheduling period or a transmission frequency and / or a coding rate. 5. The update method according to claim 1, wherein the transmission parameter includes a scheduling period or a transmission frequency and / or a coding rate. 5. The update method according to claim 1, wherein the system information includes system location information or parameters used for network reentry, network initial access, and network discovery. The control station comprises one or various network elements of a macro control station, a micro control station, a Mycoro micro control station, a relay station,
5. The update method according to claim 1, wherein the dependent station includes one or various network elements among a terminal, a relay station, a micro control station, and a micro micro control station. A communication system,
Adjusting a transmission parameter or transmission method of system information, and a control station installed to transmit the system information to one or more dependent stations according to the adjusted transmission parameter or transmission method; and
A dependent station is provided to receive and decode system information. The dependent station further changes the system configuration information or parameters under conditions where the changed system configuration information or parameters cannot be accurately decoded or after the dependent station is woken up in the sleep window. Is installed to feed back to the control station the system location information or the instruction information that the parameter update has failed,
The control station adopts a passive adjustment method, and correctly determines the scheduling period or transmission frequency and / or the coding rate of the system information based on the indication information correctly received and fed back by the dependent station. It is set up to adjust the transmission parameters or the transmission system of the system information so as to adjust or adjust the transmission system to transmit a unicast or broadcast message including the system information after the change. The communication system according to claim 12. The dependent station is further configured to report channel quality indication (CQI) information within one time interval to the control station by a long-term or short-term feedback message in response to a control station feedback request;
The control station adopts a passive adjustment method, collects CQI feedback information from different subordinate stations within the time interval, calculates based on these CQI feedback information, and looks up the table Then, the scheduling period or transmission frequency and / or encoding rate of the system arrangement information or parameter at this time is output, and the subsequent station is transmitted to the dependent station according to the output scheduling period or transmission frequency and / or encoding rate. 13. The communication system according to claim 12, wherein the communication system is installed to transmit system configuration information or parameters. A control station in a communication system,
Adjustment module installed to adjust the transmission parameter or transmission method of system information, and transmission installed to transmit the system information to one or more dependent stations according to the adjusted transmission parameter or transmission method A control station in a communication system comprising a module. The adjustment module includes:
After confirming that the system information changes, adjust the transmission parameter of the changed system information, or adjust the transmission parameter or transmission method of the changed system information or all the system information based on the feedback information of the dependent station 16. The control station according to claim 15, which is installed as follows.

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