CN109561487B - Method and device for reducing energy consumption of mobile terminal and mobile terminal - Google Patents

Abstract

The invention discloses a method and a device for reducing energy consumption of a mobile terminal and the mobile terminal. The method comprises the following steps: the baseband processor detects whether the frequency of sending application requests with the same content by a predetermined application exceeds a first preset frequency threshold value; under the condition that a first preset frequency threshold value is exceeded, the baseband processor stores an application request received last time, and sets to refuse to receive the application request with the same content again; the baseband processor transmits the stored application request to the network server after a predetermined time interval, and re-receives an application request having the same contents as the application request, which is transmitted by a predetermined application, in case of transmitting the application request. The invention judges whether the application request is intercepted or not by detecting the sending frequency of the application request, so that the baseband processor reduces the times of processing the application requests with the same content, and the problem that the baseband processor is frequently awakened from the actual condition of each application request in the prior art is solved.

Description

Method and device for reducing energy consumption of mobile terminal and mobile terminal

Technical Field

The present invention relates to the field of mobile terminals, and in particular, to a method and an apparatus for reducing energy consumption of a mobile terminal, and a mobile terminal.

Background

The existing mobile terminal generally includes a baseband processor and an application processor, where the baseband processor is responsible for processing related procedures of a bottom layer protocol, and the application processor is responsible for processing related procedures of an upper layer application. When the mobile terminal and the network server exchange information, if the mobile terminal sends an application request to the network server, the application processor sends the application request to the baseband processor, and the baseband processor sends the application request to the network server; if the network server sends information to the terminal, the network server firstly sends the information to the baseband processor, and then the baseband processor sends the information to the application processor. Usually, the power consumption of the baseband processor in the wake-up state is large, and if the baseband processor wakes up frequently, the power consumption of the terminal is greatly increased, so that the endurance performance of the terminal is affected.

For example, in a mobile phone using a Google Mobile Service (GMS) application suite in China, the GMS application needs to interact with the Google server when being normally used, but cannot normally access the Google server in China, the GMS application will try to connect to the Google server all the time, so that the baseband processor is always in an awake state, and power consumption is high. In addition, if part of services required to be acquired by the application are provided by different servers, sometimes a part of requests can obtain normal responses, and a part of requests can not obtain normal responses, for example, the weather service integrated in the application can normally update data under the condition that other function requests can not obtain normal responses, if all requests of the application are processed, the baseband processor can be frequently awakened, and if part of requests are specifically shielded, the power consumption can be greatly saved.

The existing technology for reducing the energy consumption of the terminal reduces the working time of the baseband processor by setting a preset condition so as to achieve the purpose of reducing the energy consumption, and does not solve the problem of frequent awakening of the baseband processor from the actual situation of each application request.

Disclosure of Invention

The invention provides a method and a device for reducing energy consumption of a mobile terminal, which are used for solving the problem that a baseband processor is frequently awakened under the actual condition that an application request is not received in the prior art.

In order to solve the above technical problem, in one aspect, the present invention provides a method for reducing energy consumption of a mobile terminal, including: the baseband processor detects whether the frequency of sending application requests with the same content by a preset application exceeds a first preset frequency threshold value; under the condition that the frequency exceeds the first preset frequency threshold, the baseband processor stores the application request received last time and sets to refuse to receive the application request with the same content as the application request again; and the baseband processor transmits the stored application request to a network server after a preset time interval and re-receives an application request which is transmitted by the preset application and has the same content with the application request in the case of transmitting the application request.

Further, before the baseband processor detects whether the frequency of sending the application request with the same content by the predetermined application exceeds the first preset frequency threshold, the method further includes: judging whether the awakening frequency of the baseband processor exceeds a second preset frequency threshold value or not; and under the condition that the awakening frequency exceeds the second preset frequency threshold, the baseband processor respectively carries out frequency statistics on each application request sent by each application.

Further, the baseband processor stores the application request received last time in time and sets to reject to receive again an application request having the same content as the application request, including: counting the network response state of the application request; judging whether the frequency of the communication abnormal state in the network response state of the application request exceeds a preset frequency or not; and under the condition that the frequency of the communication abnormal state of the application request exceeds the preset frequency, storing the application request received last time, and setting to refuse to receive the application request with the same content as the application request again.

Further, in a case where the application request is transmitted, re-receiving an application request having the same content as the application request, which is transmitted by the predetermined application, includes: detecting whether the network response state of the sent application request is a communication normal state or not; and under the condition that the network response state indicates a normal communication state, re-receiving the application request which is sent by the preset application and has the same content with the application request.

Further, the application requests having the same content include: the request number, application name and destination address of the application request are all the same.

In another aspect, the present invention further provides an apparatus for reducing power consumption of a mobile terminal, where the apparatus includes: the request frequency counting module is used for detecting whether the frequency of the application requests with the same content sent by the preset application exceeds a first preset frequency threshold value; the storage module is used for storing the application request received last time in time and setting to refuse to receive the application request with the same content as the application request again under the condition that the frequency exceeds the first preset frequency threshold; and the retransmission module is used for sending the stored application request to a network server after a preset time interval and re-receiving the application request which is sent by the preset application and has the same content with the application request under the condition of sending the application request.

Further, the apparatus further comprises: the wake-up frequency counting module is used for judging whether the wake-up frequency of the baseband processor exceeds a second preset frequency threshold value; the request frequency counting module is further configured to perform frequency counting on each application request sent by each application respectively under the condition that the wakeup frequency exceeds the second preset frequency threshold.

Further, the storage module includes: a response state counting unit, configured to count a network response state of the application request; an abnormality judgment unit configured to judge whether the number of times of a communication abnormal state in a network response state of the application request exceeds a preset number of times; and the storage unit is used for storing the application request which is received last time in time and rejecting to receive the application request with the same content as the application request again when the frequency of the communication abnormal state of the application request exceeds the preset frequency.

Further, the retransmission module includes: a detecting unit, configured to detect whether a network response state of the sent application request is a communication normal state; and the receiving unit is used for re-receiving the application request which is sent by the preset application and has the same content with the application request under the condition that the network response state indicates a normal communication state.

In another aspect, the present invention further provides a mobile terminal, including: the device for reducing the energy consumption of the mobile terminal is provided.

The invention judges whether to intercept the application request by detecting whether the sending frequency of the application request with the same content sent by the preset application exceeds the first preset frequency threshold value, so that the baseband processor reduces the times of processing the application request with the same content, further reduces the energy consumption of the mobile terminal, and solves the problem that the baseband processor is frequently awakened under the actual condition that each application request is not sent in the prior art.

Drawings

Fig. 1 is a flowchart of a method for reducing power consumption of a mobile terminal according to a first embodiment of the present invention;

FIG. 2 is a diagram illustrating an apparatus for reducing power consumption of a mobile terminal according to a second embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a memory module according to a second embodiment of the present invention;

fig. 4 is a schematic structural diagram of a retransmission module in a second embodiment of the present invention;

fig. 5 is a schematic structural diagram of a mobile terminal in a third embodiment of the present invention.

Detailed Description

In order to solve the problem of frequent wake-up of the baseband processor in the prior art, the present invention provides a method and an apparatus for reducing energy consumption of a mobile terminal, and the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

Generally, an Android (Android) architecture of a mobile terminal includes an application processor for running an operating system and an application program, and a baseband processor for processing communication between the mobile terminal and the outside. The Android-based mobile terminal comprises an application processor side and a baseband processor side, wherein the application processor side of Android architectures of mobile terminals manufactured by different mobile terminal manufacturers is the same, but the baseband processor side is greatly different, and in order to abstract different baseband processors into a uniform mode, the Android establishes a Radio Interface Layer (RIL) on the application processor side for connecting the application processor and the baseband processor and being responsible for issuing information of the application processor Layer to the baseband processor and receiving information actively reported by the baseband processor.

The RIL layer of the Android is located between an application program framework and a kernel, and is divided into two parts: one is a Radio Interface Layer Daemon (RILD) responsible for communication between a socket (socekt) and an application framework, and the other is a Vendor Radio Interface Layer (Vendor RIL) responsible for downward communication with a Radio, which is divided into a system instruction (AT) channel and a channel for transmitting packet data. The Java framework portion of RIL is also divided into two parts: one is an RIL module mainly used for communicating with the RILD of the lower layer, and the other is a Phone module which directly exposes the Phone function interface to the upper layer application.

A first embodiment of the present invention provides a method for reducing energy consumption of a mobile terminal, where a flowchart of the method is shown in fig. 1, and the method includes steps S101 to S103:

s101, a baseband processor detects whether the frequency of application requests with the same content sent by a preset application exceeds a first preset frequency threshold value;

s102, under the condition that the frequency exceeds a first preset frequency threshold, the baseband processor stores the application request received last time, and sets to refuse to receive the application request with the same content as the application request again;

s103, the baseband processor sends the stored application request to the network server at a preset time interval, and receives the application request which is sent by the preset application and has the same content with the application request again under the condition of sending the application request.

Generally, the content of the application request comprises not only a request number, a token and result object parameters, but also an application name and a target server address, wherein the request number represents the service type of the application request, and when the request number, the application name and the target address of the application request are all the same but the token values are different, the content of two or more application requests is judged to be the same.

In the embodiment, whether the application request is stored is judged by detecting whether the sending frequency of the application request with the same content sent by the predetermined application exceeds a first preset frequency threshold, so that the baseband processor reduces the frequency of processing the application request with the same content, and further reduces the energy consumption of the mobile terminal.

Further, before the step S101 is executed, statistics may be performed on the wake-up frequency of the baseband processor, and when the wake-up frequency of the baseband processor does not exceed the second preset frequency threshold, no detection and interception is performed on the application request, and no significant reduction effect is generated on the use frequency of the baseband processor; when the wake-up frequency of the baseband processor exceeds the second preset frequency threshold, step S101 is executed again to reduce the use frequency of the baseband processor.

In order to further analyze the reason for sending the application request with the same content for better interception operation, the baseband processor may count the network response status of the application request when the sending frequency of the application request exceeds a first preset frequency threshold, when the number of times of the communication abnormal status in the network response status of the application request exceeds a preset number of times, store the application request received last time, and set to reject to receive the application request with the same content as the application request again.

After storing a certain frequently-sent application request for a certain time interval, when it is uncertain whether the stored application request can be normally sent to the network server, sending the stored application request to the network server, and detecting whether the network response state of the sent application request is a communication normal state. And when the network response state indicates a normal communication state, the baseband processor receives the application request which is sent by the preset application and has the same content with the application request again, otherwise, the baseband processor continuously refuses to receive the application request which has the same content with the application request, so that the awakening frequency of the baseband processor is reduced, and the energy consumption of the mobile terminal is further reduced.

A second embodiment of the present invention provides an apparatus for reducing power consumption of a mobile terminal, and a schematic diagram of the apparatus structure is shown in fig. 2.

The apparatus for reducing energy consumption of a mobile terminal shown in fig. 2 mainly comprises a request frequency counting module 201, a storage module 202 and a retransmission module 203 which are coupled in sequence. The request frequency counting module 201 is configured to detect whether a frequency at which a predetermined application sends an application request with the same content exceeds a first preset frequency threshold; the storage module 202 is configured to store the application request that is received last time in time and set to refuse to receive the application request having the same content as the application request again when the frequency exceeds a first preset frequency threshold; the retransmission module 203 is configured to send the stored application request to the network server after a predetermined time interval, and re-receive an application request having the same content as the application request sent by a predetermined application if the application request is sent.

In this embodiment, the request frequency counting module detects whether the sending frequency of the application request with the same content sent by the predetermined application exceeds a first preset frequency threshold to determine whether to store the application request, so that the baseband processor reduces the number of times of processing the application request with the same content, thereby reducing the energy consumption of the mobile terminal.

Furthermore, the apparatus for reducing energy consumption of the mobile terminal further includes an awake frequency statistics module for determining whether the awake frequency of the baseband processor exceeds a second preset frequency threshold, and the request frequency statistics module 201 performs frequency statistics on each application request sent by each application respectively when the awake frequency exceeds the second preset frequency threshold; when the wake-up frequency of the baseband processor does not exceed the second preset frequency threshold, the application request is not detected and intercepted, and a significant reduction effect on the use frequency of the baseband processor is not generated.

In order to further analyze the reason why the application request with the same content is sent multiple times for better interception operation, the storage module 202 specifically includes the following units as shown in fig. 3: the application request receiving device comprises a response state counting unit 301 for counting the network response state of the application request, an abnormality judging unit 302 for judging whether the number of times of the communication abnormal state in the network response state of the application request exceeds a preset number of times, and a storage unit 303 for storing the application request received last time and setting to refuse to receive the application request with the same content as the application request again if the number of times of the communication abnormal state of the application request exceeds the preset number of times.

After the storage module 202 stores a certain time interval of frequently-sent application requests, and when it is uncertain whether the stored application requests can be normally sent to the network server, the retransmission module 203 sends the stored application requests to the network server, and detects whether the network response state of the sent application requests is a communication normal state. Therefore, the retransmission module 203 specifically includes the following units as shown in fig. 4: a detecting unit 401 for detecting whether the network response status of the transmitted application request is a communication normal status, and a receiving unit 402 for re-receiving the application request having the same content as the application request transmitted by the predetermined application if the network response status indicates the communication normal status.

A third embodiment of the present invention provides a mobile terminal capable of reducing energy consumption, where a system of the mobile terminal is an Android system, and a schematic structural diagram of the mobile terminal is shown in fig. 5.

The mobile terminal shown in fig. 5 mainly includes an application request module 501, an RIL interface management module 502, a request storage check module 503, a processing module 504, and a request interception module 505, which are coupled to each other. The application request module 501 is an initiating module of network access and interaction request of application layer application; the RIL interface management module 502 is configured to receive a network access and interaction request of an application, convert the request into an AT command, and send the AT command to the processing module 504, where the RIL interface management module 502 further includes a wake-up frequency statistics unit 5021 (equivalent to a wake-up frequency statistics module in the second embodiment of the present invention), count the wake-up times of the baseband processor through a storage variable and calculate a wake-up frequency, and determine whether to start the request storage checking module 503 according to the wake-up frequency; the request storage checking module 503 (equivalent to the request frequency counting module 201 in the second embodiment of the present invention) is configured to store a request sent by an application and check a frequency of the request sent, when the baseband processor wake-up frequency counted by the wake-up frequency counting unit 5021 exceeds a third threshold (equivalent to a second preset frequency threshold in the second embodiment of the present invention), send a message to the request storage checking module 503, the request storage checking module 503 starts to store a request to be sent to the baseband processor for each application, and when the number of times of sending requests of an application with the same content exceeds a fourth threshold (equivalent to a first preset frequency threshold in the second embodiment of the present invention), send a message to the processing module 504; a processing module 504 (equivalent to a baseband processor) is configured to receive the AT command sent by the RIL interface management module 502, analyze the AT command, send the analyzed related information to a related network server through radio frequency, receive the related information fed back by the network server, analyze the related information fed back by the network server, convert the information into an AT command, and send the AT command to the RIL interface management module 502; wherein, the processing module 504 further includes: the response status checking unit 5041 (corresponding to the response status counting unit 301 and the anomaly determination unit 302 in the second embodiment of the present invention) is configured to store and check the network response status of the request transmitted with high frequency, which is checked by the request storage checking module 503, and when the network response status indicates that the number of times of communication anomalies exceeds a fifth threshold (corresponding to the preset number of times in the second embodiment of the present invention), send a message to the request intercepting module 505; a request storage module 5042 (including the function of the retransmission module in the second embodiment of the present invention) is configured to store the intercepted application request, and resend the application request every period T, and determine whether to cancel the interception measure for the request according to the status value of the network response; the request intercepting module 505 is configured to intercept and intercept a request sent by an application, automatically intercept a corresponding request sent at a high frequency according to a message sent by the response status checking unit 5041, do not send the request to the processing module 504, and cancel the interception of the corresponding application request according to an interception cancellation message sent by the request storing module 5042.

Optionally, the application processing module 501 may further include an application request mode determining unit, configured to determine whether the request sent by the application is generated by a manual operation of a user or generated by the application itself, and when the application request is generated by the manual operation of the user, the signaling request intercepting module is not triggered to operate when the wake-up frequency counted by the wake-up frequency counting unit exceeds a third threshold.

The wake-up frequency statistic unit 5021 includes a variable storage area, and each time the application request module 501 sends an application request to the baseband processor, the variable storage value is incremented by 1 to indicate that the baseband processor is woken up once, and the wake-up frequency of the baseband processor is determined whether to exceed a threshold value, and the determination is performed by determining the frequency of the variable value change, and if the frequency of the variable value change exceeds a third threshold value, and if the frequency of the variable value change exceeds the third threshold value, and if the frequency of the variable value change exceeds 2s, the wake-up is performed for 1 time, a message is sent to the request storage check module 503.

The request storage checking module 503 includes an application request information storage area for storing the request information, when the request storage checking module 503 receives an application request, the application request is stored in the application request information storage area, and a request sending frequency counting variable is provided correspondingly, the request storage checking module 503 compares the request contents, if the request is the same request, the corresponding counting variable is increased by 1. Generally, the application request content includes not only a request number, a token, a result object parameter, but also an application name and a destination server address, where the request number indicates the service type requested by the application, such as:

RIL_REQUEST_DIAL

RIL_REQUEST_CDMA_SUBCRIPTION

RIL_REQUEST_SETUP_DATA_CALL

the Token is used to uniquely identify each transmitted request in order to distinguish each transmitted request. The content of the request message comprises an application name and a target server address, which are used as the basis for request interception, and if the request types are the same, the application name is consistent with the target server address, and the token values are different, the request contents are considered to be consistent, so that the statistics of the same request sending times is carried out.

It should be understood that the judgment of the network response status value can be performed by checking and judging through a cloud database, and the network communication types such as a HyperText Transfer Protocol (http) type, a socket type and a status value are sent to the cloud database for query, and status codes of the communication Protocol types are stored in the cloud database, and an abnormal status code and a normal status code can be distinguished, and meanwhile, the database can be updated according to the evolution of the Protocol in real time, so that whether the network response status value is normal or not can be accurately judged. If the network request response status code aiming at the http type is adopted, the status code of the 2-word head indicates that the request is successful; the state code of the 3-word header indicates redirection; a status code of 4 headers indicates a request error; a status code of 5-headed indicates a server error.

When the number of times of communication abnormality of an application request exceeds a fifth threshold, for example, 5 times, a message is sent to the request interception module 505, so that the request interception module 505 intercepts the application request and other application requests having the same content as the application request. Preferably, the request intercepting module 505 may further include a white list unit for storing a related request type that is set by the user and is not intercepted, after receiving the intercepting message, the request intercepting module 505 may screen the application request to be intercepted, and if the application request to be intercepted is the request type in the white list unit, the request intercepting is not performed, and at the same time, a message is sent to the request storage checking module 503 to stop rechecking the application request, and the request type in the white list unit is generally a service type with a high real-time requirement, such as a telephone, information, and the like, and may also be another request type customized by the user.

For the intercepted application request, the application request is retransmitted every a period T, the period T may be a fixed period set by a user, such as 10 minutes, or may be dynamically adjusted according to a network response status value, such as retransmitting for an initial 2 minutes, but if the network response status values sent for several times continuously indicate communication abnormality, the transmission period is increased, such as transmitting for 5 minutes, and if the network response status values sent for several times continuously still indicate communication abnormality, the transmission period is adjusted to 10 minutes again.

The third embodiment of the present invention will be described in detail with reference to specific embodiments.

Tencent news application com. tencent. news initiates an account synchronization request RequestInfo, which contains not only the request number, token, result object parameters but also the application name and destination server address, where the REQUEST number differs according to the type of service, such as a telephone REQUEST number RIL REQUEST DIA, since the present embodiment REQUESTs data services, therefore, the REQUEST number is RIL _ REQUEST _ SETUP _ DATA _ CALL, the Token is used to uniquely identify each transmitted REQUEST, the result object parameter is used to store the result obtained by the REQUEST corresponding to different Token, besides, the application name and the destination server address are also included in the REQUEST information, for example, the application name corresponding to the Tencent News application is com. After the request is sent to the baseband processor, the number of times of awakening in the awakening frequency statistical unit is added to 1, and after the baseband processor sends the request to the news. qq.com server, the server returns a status code 500 to indicate that the communication is abnormal because the server fails to normally access. Because account synchronization is unsuccessful, flight news reinitiates synchronization every few seconds, so that a baseband processor is frequently awakened, when a frequency calculation value of an awakening frequency statistic unit exceeds a threshold value of 0.2 (namely 10 seconds and 2 times), a message is sent to a request storage checking module, the request storage checking module starts to store a request to be sent to a modem by each application, when the request sending frequency of the flight news application exceeds the threshold value of 0.2(10 seconds and 2 times), the message is sent to a response state checking unit, the response state checking unit checks the network response state of the request, when the network response state of the request is checked to be 500, the communication is abnormal, the response state checking unit sends the message to a request intercepting module, and simultaneously sends the message to the request storage module and the request intercepting module, according to an application name and a target server address in application request content, and intercepting the request, namely, the account synchronization request sent by the flight news is not sent to the baseband processor any more, the baseband processor resends the application request in the request storage module every 5 minutes, and when the account synchronization is successful after receiving the status code 200 returned by the server, indicating that the communication is normal, the request interception module cancels the interception aiming at the request.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, and the scope of the invention should not be limited to the embodiments described above.

Claims (8)

1. A method for reducing energy consumption of a mobile terminal, comprising:

judging whether the awakening frequency of the baseband processor exceeds a second preset frequency threshold value or not;

under the condition that the awakening frequency exceeds the second preset frequency threshold, the baseband processor respectively carries out frequency statistics on each application request sent by each application;

the baseband processor detects whether the frequency of sending application requests with the same content by a preset application exceeds a first preset frequency threshold value;

under the condition that the frequency exceeds the first preset frequency threshold, the baseband processor stores the application request received last time and sets to refuse to receive the application request with the same content as the application request again;

and the baseband processor transmits the stored application request to a network server after a preset time interval and re-receives an application request which is transmitted by the preset application and has the same content with the application request in the case of transmitting the application request.

2. The method of claim 1, wherein the baseband processor stores the application request most recently received in time and is configured to deny re-receipt of an application request having the same content as the application request, comprising:

counting the network response state of the application request;

judging whether the frequency of the communication abnormal state in the network response state of the application request exceeds a preset frequency or not;

and under the condition that the frequency of the communication abnormal state of the application request exceeds the preset frequency, storing the application request received last time, and setting to refuse to receive the application request with the same content as the application request again.

3. The method of claim 2, wherein re-receiving an application request having the same content as the application request sent by the predetermined application in case the application request is sent comprises:

detecting whether the network response state of the sent application request is a communication normal state or not;

and under the condition that the network response state indicates a normal communication state, re-receiving the application request which is sent by the preset application and has the same content with the application request.

4. The method of claim 1, wherein the application requests having the same content comprise: the request number, application name and destination address of the application request are all the same.

5. An apparatus for reducing power consumption of a mobile terminal, the apparatus comprising:

the wake-up frequency counting module is used for judging whether the wake-up frequency of the baseband processor exceeds a second preset frequency threshold value;

the request frequency counting module is further used for respectively carrying out frequency counting on each application request sent by each application under the condition that the awakening frequency exceeds the second preset frequency threshold;

the request frequency counting module is used for detecting whether the frequency of the application requests with the same content sent by the preset application exceeds a first preset frequency threshold value;

the storage module is used for storing the application request received last time in time and setting to refuse to receive the application request with the same content as the application request again under the condition that the frequency exceeds the first preset frequency threshold;

and the retransmission module is used for sending the stored application request to a network server after a preset time interval and re-receiving the application request which is sent by the preset application and has the same content with the application request under the condition of sending the application request.

6. The apparatus of claim 5, wherein the storage module comprises:

a response state counting unit, configured to count a network response state of the application request;

an abnormality judgment unit configured to judge whether the number of times of a communication abnormal state in a network response state of the application request exceeds a preset number of times;

and the storage unit is used for storing the application request which is received last time in time and rejecting to receive the application request with the same content as the application request again when the frequency of the communication abnormal state of the application request exceeds the preset frequency.

7. The apparatus of claim 6, wherein the retransmission module comprises:

a detecting unit, configured to detect whether a network response state of the sent application request is a communication normal state;

and the receiving unit is used for re-receiving the application request which is sent by the preset application and has the same content with the application request under the condition that the network response state indicates a normal communication state.

8. A mobile terminal, characterized in that it comprises the apparatus for reducing power consumption of the mobile terminal according to any of claims 5 to 7.

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