CN104954148B - Control method, device and the router of node device - Google Patents

Abstract

The disclosure is directed to the control method of node device, device and routers, this method comprises: whether all controlled devices for judging that main control device is controlled all have entered dormant state；When being judged as that all controlled devices have all entered the dormant state, into dormant state.Using the embodiment of the present disclosure, main control device can also enter dormant state, to reduce power consumption after all controlled devices controlled all enter dormant state in the disclosure, electric power resource consumption is saved, the service life of main control device and each controlled device is conducive to extend.

Description

Control method, device and the router of node device

Technical field

This disclosure relates to network communication technology field more particularly to a kind of control method of node device, device and routing Device.

Background technique

Multiple terminals are controlled for router or intelligent home gateway controls a main control device controls such as multiple intelligent appliances The case where making multiple controlled devices, in general, being controlled by main control device the operation of each controlled device, for example, master control is set The standby data transmission etc. for controlling each controlled device.

In the related technology, main control device is as the data transport service of each controlled device or the offer of other control services Person due to being not aware that when need work, thus needs to be constantly in working condition, and power consumption is higher, a large amount of electricity of consumption Power and resource.There is no preferable modes in the related technology to control device sleeps.

Summary of the invention

Present disclose provides a kind of control method of node device, device and routers, to solve not having in the related technology Preferable mode controls the suspend mode of equipment, the higher problem of power consumption.

According to the first aspect of the embodiments of the present disclosure, a kind of control method of node device is provided, comprising:

Whether all controlled devices for judging that main control device is controlled all have entered dormant state；

When being judged as that all controlled devices have all entered the dormant state, the main control device enters suspend mode shape State.

It is optionally, described to judge whether all controlled devices that main control device is controlled all have entered before dormant state, The method also includes:

Determine that the controlled device enters dormant state.

Optionally, the determination controlled device enters dormant state, comprising:

Receive the sleep request that the controlled device is sent；

Current working state based on the controlled device is sent to the controlled device allows suspend mode response, so that described Controlled device is based on the permission suspend mode response and enters dormant state；

Mark using the sending time of the suspend mode response as the dormancy time of the controlled device, with the controlled device Know the corresponding dormant state that is stored as to record.

Optionally, the determination controlled device enters dormant state, comprising:

Receive the suspend mode notice that the controlled device is sent；

It notifies to send suspend mode response to the controlled device based on the suspend mode, so that the controlled device is based on described stop Dormancy response enters dormant state；

It is corresponding with the mark of the controlled device to be stored as using the sending time of the suspend mode response as dormancy time Dormant state record.

Optionally, the determination controlled device enters dormant state, comprising:

Working condition based on each controlled device is determined to the controlled device of suspend mode；

Suspend mode instruction is sent to the controlled device for capableing of suspend mode, so that the controlled device is indicated based on the suspend mode Into dormant state；

The sending time that the suspend mode is indicated is corresponding with the mark of the controlled device to be stored as dormancy time Dormant state record.

Optionally, whether all controlled devices for judging that main control device is controlled all have entered dormant state, comprising:

Identifier lookup dormant state record based on each controlled device stored；

When the mark of all controlled devices is all present in the dormant state record, determine all described controlled Equipment has all entered the dormant state.

Optionally, whether all controlled devices for judging that main control device is controlled all have entered dormant state, comprising:

Enter the number of the controlled device of dormant state based on the dormant state record statistics stored；

Judge whether counted number is equal to the number of all controlled devices stored；

When being judged as that counted number is equal to the number of all controlled devices, all controlled devices are determined The dormant state is all entered.

Optionally, the main control device enters before dormant state, the method also includes:

Determine the earliest wake-up time of the controlled device；

Calculate the earliest wake-up time of the controlled device and when the controlled device enters the suspend mode the latest of dormant state Between between time difference；

Itself wake-up time of the main control device, when itself waking up of the main control device are determined based on the time difference Between earlier than the controlled device earliest wake-up time.

Optionally, the earliest wake-up time of the determination controlled device, comprising:

The wake-up time of each controlled device of dormancy time length computation based on each controlled device stored；

The earliest wake-up time of the controlled device is determined based on the wake-up time of calculated each controlled device.

Optionally, each controlled device of the dormancy time length computation based on each controlled device stored Wake-up time before, the method also includes:

Receive the respective dormancy time length that each controlled device reports；

It stores the dormancy time length is corresponding with the mark of the corresponding controlled device.

Optionally, each controlled device of the dormancy time length computation based on each controlled device stored Wake-up time before, the method also includes:

The dormancy time length of each controlled device is determined based on the working condition of each controlled device；

It stores identified dormancy time length is corresponding with the mark of each controlled device.

Optionally, itself wake-up time that the main control device is determined based on the time difference, comprising:

Judge whether the time difference is greater than setting time threshold value；

When being judged as that the time difference is greater than the setting time threshold value, the time less than the time difference is determined as Itself wake-up time of the main control device.

Optionally, described to enter after dormant state, the method also includes:

In the wake-up time of each controlled device, corresponding controlled device is waken up in a manner of preset.

According to the second aspect of an embodiment of the present disclosure, a kind of control device of node device is provided, comprising:

Whether judgment module, all controlled devices for judging that main control device is controlled all have entered dormant state；

Sleep block, for when being judged as that all controlled devices have all entered the dormant state, the master control Equipment enters dormant state.

Optionally, described device further include:

Determining module, for determining that the controlled device enters dormant state.

Optionally, the determining module includes:

Sleep request receiving submodule, the sleep request sent for receiving the controlled device；

Allow suspend mode response sending submodule, is set for the current working state based on the controlled device to described be controlled Preparation, which is sent, allows suspend mode response, so that the controlled device is based on the permission suspend mode response and enters dormant state；

First sub-module stored, for using the sending time of the suspend mode response as when the suspend mode of the controlled device Between, it is corresponding with the mark of the controlled device to be stored as dormant state record.

Optionally, the determining module includes:

Suspend mode notifies receiving submodule, the suspend mode notice sent for receiving the controlled device；

Suspend mode response sending submodule sends suspend mode response to the controlled device for notifying based on the suspend mode, with So that the controlled device is based on the suspend mode response and enters dormant state；

Second sub-module stored, for being set with described be controlled using the sending time of the suspend mode response as dormancy time Standby mark is corresponding to be stored as dormant state record.

Optionally, the determining module includes:

Sleeping devices determine submodule, are determined to the controlled of suspend mode for the working condition based on each controlled device Equipment；

Suspend mode indicates sending submodule, for sending suspend mode instruction to the controlled device for capableing of suspend mode, so that described Controlled device is based on suspend mode instruction and enters dormant state；

Third sub-module stored, the sending time for indicating the suspend mode are set as dormancy time with described be controlled Standby mark is corresponding to be stored as dormant state record.

Optionally, the judgment module includes:

Dormant state record search submodule, for the identifier lookup suspend mode shape based on each controlled device stored State record；

First determines submodule, for being all present in the dormant state record in the mark of all controlled devices When, determine that all controlled devices have all entered the dormant state.

Optionally, the judgment module includes:

Statistic submodule, for entering the controlled device of dormant state based on the dormant state record statistics stored Number；

Judging submodule, for judging whether counted number is equal to of all controlled devices stored Number；

Second determines submodule, for when being judged as that counted number is equal to the number of all controlled devices, Determine that all controlled devices have all entered the dormant state.

Optionally, described device further include:

Earliest wake-up time determining module, for determining the earliest wake-up time of the controlled device；

Time difference computing module, the earliest wake-up time for calculating the controlled device enters with the controlled device stops Time difference between the dormancy time the latest of dormancy state；

Itself wake-up time determining module, for determining when itself waking up of the main control device based on the time difference Between, the earliest wake-up time of itself wake-up time of the main control device earlier than the controlled device.

Optionally, the earliest wake-up time determining module includes:

Wake-up time computational submodule, it is each for the dormancy time length computation based on each controlled device stored The wake-up time of the controlled device；

Earliest wake-up time determines submodule, for determining institute based on the wake-up time of calculated each controlled device State the earliest wake-up time of controlled device.

Optionally, described device further include:

Dormancy time length receiving module, the respective dormancy time length reported for receiving each controlled device；

First memory module, for by the dormancy time length it is corresponding with the mark of the corresponding controlled device into Row storage.

Optionally, described device further include:

Dormancy time length determination modul, for determining that each described be controlled sets based on the working condition of each controlled device Standby dormancy time length；

Second memory module, for by identified dormancy time length it is corresponding with the mark of each controlled device into Row storage.

Optionally, itself wake-up time computing module includes:

Time difference judging submodule, for judging whether the time difference is greater than setting time threshold value；

Itself wake-up time determines submodule, for be judged as the time difference be greater than the setting time threshold value when, Time less than the time difference is determined as to itself wake-up time of the main control device.

Optionally, described device further include:

Wake-up module wakes up corresponding quilt for the wake-up time in each controlled device in a manner of preset Control equipment.

According to the third aspect of an embodiment of the present disclosure, a kind of router is provided, comprising: processor；For storage processor The memory of executable instruction；Wherein, the processor is configured to:

Whether all controlled devices for judging that main control device is controlled all have entered dormant state；

When being judged as that all controlled devices have all entered the dormant state, the main control device enters suspend mode shape State.

The technical scheme provided by this disclosed embodiment can include the following benefits:

After all controlled devices that main control device can be controlled at it in the disclosure all enter dormant state, also enter Dormant state saves electric power resource consumption to reduce power consumption, is conducive to extend the use longevity of main control device and each controlled device Life.

In the disclosure can sleep request by main control device based on controlled device and its current working state determine whether Allow its suspend mode, such as do not allow its suspend mode compared with busy in controlled device working condition, if had been for some time in not Working condition then allows its suspend mode.To flexibly control the dormancy time of each controlled device, it both can guarantee that controlled device did not indulged in It delays work, and can guarantee that it has the time of suspend mode, reduce power consumption.

In the disclosure, main control device can mark based on controlled device or number search dormant state record, to determine Whether all controlled devices have all entered dormant state, and this mode is easily achieved.

In the disclosure, due to the normal operation in order to guarantee controlled device, main control device should be controlled what is waken up earliest It wakes up before equipment, thus main control device can determine the earliest wake-up time in controlled device before entering dormant state And itself wake-up time is determined based on the earliest wake-up time.

Main control device can be based on the wake-up time of each controlled device of dormancy time length computation, when the suspend mode in the disclosure Between length can be arranged by main control device or be respectively arranged by controlled device.

Time threshold is also provided in the disclosure, only when the earliest wake-up time of controlled device and dormancy time the latest it Between time difference when being greater than time threshold, main control device just carries out suspend mode, if the time difference is less than time threshold, that is to say, that The time that main control device is capable of suspend mode is especially short, then main control device does not enter suspend mode, in case frequent switching working condition is to master Equipment belt is controlled to be lost.

It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not The disclosure can be limited.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the disclosure Example, and together with specification for explaining the principles of this disclosure.

Fig. 1 is a kind of disclosure control method flow chart of node device shown according to an exemplary embodiment.

Fig. 2 is a kind of disclosure control application scenarios schematic diagram of node device shown according to an exemplary embodiment.

Fig. 3 is a kind of disclosure control device block diagram of node device shown according to an exemplary embodiment.

Fig. 4 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Fig. 5 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Fig. 6 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Fig. 7 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Fig. 8 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Fig. 9 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Figure 10 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Figure 11 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Figure 12 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Figure 13 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Figure 14 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Figure 15 is the control device block diagram of the disclosure another node device shown according to an exemplary embodiment.

Figure 16 is an a kind of disclosure knot of the control device for node device shown according to an exemplary embodiment Structure schematic diagram.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all implementations consistent with this disclosure.On the contrary, they be only with it is such as appended The example of the consistent device and method of some aspects be described in detail in claims, the disclosure.

It is only to be not intended to be limiting the disclosure merely for for the purpose of describing particular embodiments in the term that the disclosure uses. The "an" of the singular used in disclosure and the accompanying claims book, " described " and "the" are also intended to including majority Form, unless the context clearly indicates other meaning.It is also understood that term "and/or" used herein refers to and wraps It may be combined containing one or more associated any or all of project listed.

It will be appreciated that though various information, but this may be described using term first, second, third, etc. in the disclosure A little information should not necessarily be limited by these terms.These terms are only used to for same type of information being distinguished from each other out.For example, not departing from In the case where disclosure range, the first information can also be referred to as the second information, and similarly, the second information can also be referred to as One information.Depending on context, word as used in this " if " can be construed to " ... when " or " when ... When " or " in response to determination ".

As shown in Figure 1, Fig. 1 is a kind of control method flow chart of node device shown according to an exemplary embodiment, The following steps are included:

Step 101 judges whether all controlled devices that main control device is controlled all enter dormant state.

In the disclosure, node device includes more controlled devices of main control device and its connection, can be wired connection It can be wireless connection.Connection type may include I²C(Inter Integrated Circuit)、SPI(Serial Peripheral Interface, Serial Peripheral Interface (SPI)), Wi-Fi (WirelessFidelity, Wireless Fidelity), bluetooth, The connection type of Zigbee (purple honeybee) and various other wire line protocols and wireless protocols.

In the disclosure, optionally, main control device can provide data transport service for each controlled device, for example, will receive To data be transferred to corresponding controlled device, the data from controlled device are transmitted to purpose equipment.Main control device can be with For router, controlled device can be terminal, intelligent appliance or the smart machine etc. connecting with main control device.Optionally, main Controlling equipment can be other kinds of main control device, such as intelligent home gateway, server, wired home control centre.Master control Equipment can also be the equipment such as the terminal for controlling intelligent appliance, smart machine.Main control device can also be to be passed for controlling The I of the peripheral hardwares such as sensor, touch screen²C controller.

Router in the disclosure not only has traditional routing function as a kind of smart routing devices, can be with It further comprise independent operating system and disk, the storage size of the disk can according to need flexible setting, for example, setting It is set to 1T.Terminal in the disclosure can be any intelligent terminal with function of surfing the Net, for example, can be specially mobile phone, flat Plate computer, PDA (Personal Digital Assistant, personal digital assistant) etc..Wherein, terminal can pass through wireless office Domain net couple in router, and pass through the server on router access public network.Intelligent appliance can be smart television, Intelligent air Tune, Intelligent air purifier, intelligent water purifier etc..Smart machine can be smartwatch, Intelligent bracelet, smart electronics and claim etc. to set It is standby.

In the disclosure, main control device can judge in several ways whether controlled device enters dormant state.Master control is set The mark of each controlled device, such as the MAC (Media Access Control, media access control) of terminal are stored in standby Address.The number of controlled device can also be stored with.Main control device can count the state of each controlled device, including suspend mode shape State or normal operating conditions.Principal statistical dormant state in the disclosure.

In disclosure step, for example, controlled device can request to enter dormant state to main control device.

Main control device receives the sleep request of controlled device transmission, work at present of the main control device based on the controlled device Situation is sent to controlled device allows suspend mode response, or does not allow suspend mode response, receives the permission suspend mode in controlled device and answers When answering, into dormant state.The controlled device is entered the dormancy time of dormant state by main control device, the mark with the controlled device Know it is corresponding recorded, can by send allow suspend mode response time as dormancy time.If controlled device receives Do not allow suspend mode response, then controlled device can not suspend mode, main control device is without keeping a record.

In disclosure step, controlled device can also report suspend mode to notify to main control device.

Main control device receives the suspend mode notice of controlled device transmission, and main control device sends suspend mode response to controlled device, Controlled device receives the suspend mode response, into dormant state.The controlled device is entered the suspend mode of dormant state by main control device Time, corresponding with the mark of the controlled device to be recorded, main control device can will send the time of suspend mode response as stopping It sleeps the time.

In disclosure step, suspend mode instruction can also be sent from main control device to controlled device.

Working condition of the main control device based on itself working condition and controlled device sends suspend mode to controlled device and refers to Show, controlled device receives suspend mode instruction, into dormant state.The controlled device is entered stopping for dormant state by main control device It sleeps the time, corresponding with the mark of the controlled device to be recorded, the content of the record can be referred to as dormant state record.It can The time of suspend mode instruction will be sent as dormancy time.

In the disclosure, number and dormant state record of the main control device based on the controlled device connected judge whether All controlled devices connected all enter dormant state.

For example, main control device can be recorded based on the identifier lookup dormant state of each controlled device, if all controlled The mark of equipment is all present in dormant state record, then illustrates that all controlled devices all enter dormant state.If only There is the mark of part controlled device to be present in dormant state record, then declaratives controlled device enters dormant state, because And main control device can not suspend mode.

Main control device can also count the number for the controlled device recorded in dormant state record, if the number is equal to institute The number of all controlled devices of connection, then illustrate that all controlled devices all enter dormant state.If of the statistics Number is all or fewer than the number of controlled device, then declaratives controlled device enters dormant state, still has controlled device working, Main control device not can enter suspend mode.

Step 102, when being judged as all controlled devices all in dormant state, main control device enters dormant state.

In the disclosure, main control device can be in the case where all controlled devices be all in dormant state, into suspend mode shape State, i.e. low power consumpting state, to reach so that main control device moderately rest, extends the service life of main control device, reduce entirely The power consumption of system saves the purpose of electric power resource.

In the disclosure, before main control device enters dormant state, main control device can calculate the earliest of each controlled device Wake-up time thereby determines that the wake-up time of main control device.That is, it is ensured that main control device is controlled what is waken up earliest It wakes up before equipment, to guarantee the normal operation of system.Main control device can enter dormant state after wake-up time has been determined.

Wherein it is possible to the dormancy time length of each controlled device be preset by main control device, to be based on each quilt The dormancy time of control equipment can calculate the wake-up time of each controlled device；Suspend mode can also be respectively arranged by controlled device Time span, and it is reported to main control device, main control device stores the dormancy time length of each controlled device, and being based on should The wake-up time of each controlled device of dormancy time length computation.

In the disclosure, in the case where being judged as that all controlled devices all enter dormant state, main control device calculates each quilt The wake-up time for the controlled device that should be waken up earliest in control equipment referred to herein as earliest wake-up time, and calculates this earliest Wake-up time and the latest into dormant state controlled device dormancy time the latest between time difference, be greater than in the time difference In the case where setting time threshold value, main control device calculates the dormancy time of oneself.

For example, in the identical situation of dormancy time length of each controlled device, it is assumed that earliest dormancy time is 10: 00, dormancy time length is set as 1 hour, then wakeup time should be 11:00；Dormancy time is 10:55 the latest, then Dormancy time was apart from earliest wakeup time only 5 minutes the latest, and setting time threshold value is 10 minutes, which is less than setting time Threshold value, then main control device is without suspend mode.

If dormancy time is 10:30 the latest, dormancy time is 30 minutes apart from earliest wakeup time the latest, is greater than Time threshold, main control device since main control device will wake up before controlled device is waken up, thus can be determined not with suspend mode Dormancy time span is 28 minutes.

In the disclosure, if a certain controlled device occurs tight when main control device and controlled device are all in dormant state Anxious situation, needs emergent management, then the driving of controlled device sends emergency notice to main control device, calls out main control device promptly It wakes up, is restored to normal operating conditions, then main control device wakes up the controlled device.

In the disclosure, for wired connection mode, wake-up mode can wake up to interrupt, and main control device passes through on transmission line The variation of current potential wakes up controlled device；For radio connection, the message of agreement format need to be preset, is waken up reaching When the time, main control device sends the message for arranging format to wake up controlled device, to guarantee that controlled device can to controlled device It wakes up.

As shown in Fig. 2, Fig. 2 is a kind of disclosure control applied field of node device shown according to an exemplary embodiment Scape schematic diagram.In scene shown in Fig. 2, comprising: as the millet router of main controlled node equipment, and as controlled node Millet 4, red rice 2 and the millet Note of equipment.

In the application scenarios, millet router receives the sleep request of red rice 2, millet router in 18:10 first Sending to red rice 2 allows suspend mode response, and red rice 2 enters dormant state, millet router based on the permission suspend mode response received By the corresponding storage of MAC Address of the dormancy time 18:12 (time for sending permission suspend mode response) of red rice 2 and red rice 2 to not In dormancy state recording.Then, the sleep request for dividing millet router to receive millet 4 in 18:29, millet router are based on millet 4 working condition is sent to millet 4 allows suspend mode response, and millet 4 enters dormant state based on the permission suspend mode response received, Millet router is corresponding with the MAC Address of millet 4 by the dormancy time 18:30 (time for sending permission suspend mode response) of millet 4 Storage to dormant state record in.Finally, millet router receives the sleep request of millet Note in 18:56 tap, it is based on The working condition of millet Note is sent to millet Note allows suspend mode response, and millet Note is based on the permission suspend mode response received Into dormant state, millet router is corresponding by the dormancy time 18:57 (time for sending permission suspend mode response) of millet Note Storage to dormant state record in.Millet router is searched in dormant state record every the time of setting enters suspend mode shape The number of the controlled node device of state, when lookup result be 3, it is small when equal with the number of all controlled node devices of storage Rice router determines that all controlled node devices have all entered dormant state.Then millet router calculates in controlled node device Earliest wake-up time, it is assumed that the dormancy time length of millet 4, red rice 2 and millet Note is all 2 hours, then when waking up earliest Between should be red rice 2 wake-up time 20:12, the time compared with dormancy time 18:57 the latest, the time difference be 1 hour 15 points, Divide greater than preset time threshold 10, thus, itself wake-up time is set as 20:10 points by millet router, that is to say, that millet Router will wake up before the red rice 2 waken up earliest, in order to avoid dally over one's work.In the application scenarios, millet router can be with Suspend mode more than 1 hours.

In application scenarios shown in Fig. 2, it is aforementioned in Fig. 1 to realize that the detailed process of the control of node device may refer to Description, details are not described herein.

Corresponding with the control method embodiment of aforementioned nodes equipment, the disclosure additionally provides the control device of node device And its embodiment of applied router.

As shown in figure 3, Fig. 3 is a kind of disclosure control device frame of node device shown according to an exemplary embodiment Figure, the apparatus may include: judgment module 310 and sleep block 320.

Wherein, judgment module 310 are configured as judging whether all controlled devices that main control device is controlled all have entered Dormant state；

Sleep block 320 is configured as being judged as that all controlled devices have all entered dormant state in judgment module 310 When, main control device enters dormant state.

In above-described embodiment, main control device can after all controlled devices controlled all enter dormant state, Into dormant state, to reduce power consumption, electric power resource consumption is saved, is conducive to extend making for main control device and each controlled device Use the service life.

As shown in figure 4, Fig. 4 is the control device of the disclosure another node device shown according to an exemplary embodiment Block diagram, for the embodiment on the basis of aforementioned embodiment illustrated in fig. 3, which can also comprise determining that module 330.

Wherein it is determined that module 330, is configured to determine that controlled device enters dormant state.

In the disclosure, main control device can enter dormant state to controlled device in advance and be determined, to be conducive to sentence It is disconnected that whether whole controlled devices all enter dormant state.

As shown in figure 5, Fig. 5 is the control device of the disclosure another node device shown according to an exemplary embodiment Block diagram, for the embodiment on the basis of aforementioned embodiment illustrated in fig. 4, determining module 330 may include: that sleep request receives submodule Block 331 allows suspend mode response sending submodule 332 and the first sub-module stored 333.

Wherein, sleep request receiving submodule 331 is configured as receiving the sleep request that controlled device is sent；

Allow suspend mode response sending submodule 332, is configured as current working state and suspend mode based on controlled device and asks Asking the received sleep request of receiving submodule 331 to send to controlled device allows suspend mode response, so that controlled device is based on allowing Suspend mode response enters dormant state；

First sub-module stored 333 is configured as the hair that suspend mode response sending submodule 332 will be allowed to send suspend mode response Dormancy time of the time as controlled device is sent, it is corresponding with the mark of controlled device to be stored as dormant state record.

In the disclosure, can sleep request by main control device based on controlled device and its current working state determine whether Allow its suspend mode, such as do not allow its suspend mode compared with busy in controlled device working condition, if controlled device has had one section Between then allow its suspend mode in off position.To flexibly control the dormancy time of each controlled device, both can guarantee controlled Equipment does not dally over one's work, and can guarantee that it has the time of suspend mode, reduces power consumption.

As shown in fig. 6, Fig. 6 is the control device of the disclosure another node device shown according to an exemplary embodiment Block diagram, for the embodiment on the basis of aforementioned embodiment illustrated in fig. 4, determining module 330 may include: that suspend mode notice receives submodule Block 334, suspend mode response sending submodule 335 and the second sub-module stored 336.

Wherein, suspend mode notifies receiving submodule 334, is configured as receiving the suspend mode notice that controlled device is sent；

Suspend mode response sending submodule 335 is configured as based on the suspend mode notice received suspend mode of receiving submodule 334 notice Suspend mode response is sent to controlled device, so that controlled device is based on suspend mode response and enters dormant state；

Second sub-module stored 336, when being configured as suspend mode response sending submodule 335 sending the transmission of suspend mode response Between be used as dormancy time, it is corresponding with the mark of controlled device be stored as dormant state record.

In the disclosure, suspend mode can be decided whether by controlled device itself, and be reported to main control device, main control device Record corresponding dormant state.

As shown in fig. 7, Fig. 7 is the control device of the disclosure another node device shown according to an exemplary embodiment Block diagram, for the embodiment on the basis of aforementioned embodiment illustrated in fig. 4, determining module 330 may include: that sleeping devices determine submodule Block 337, suspend mode instruction sending submodule 338 and third sub-module stored 339.

Wherein, sleeping devices determine submodule 337, are configured as being determined to stop based on the working condition of each controlled device The controlled device of dormancy；

Suspend mode indicates sending submodule 338, is configured as determining that submodule 337 determines to sleeping devices and is capable of suspend mode Controlled device sends suspend mode instruction, so that controlled device is based on suspend mode instruction and enters dormant state；

Third sub-module stored 339, when being configured as suspend mode indicating that sending submodule 338 sends the transmission of suspend mode instruction Between be used as dormancy time, it is corresponding with the mark of controlled device be stored as dormant state record.

In the disclosure, main control device can be determined to stop every the period of setting based on the working condition of controlled device The controlled device of dormancy, and indicate that it carries out suspend mode, be conducive to the resource for rationally utilizing controlled device, reduce power consumption.

As shown in figure 8, Fig. 8 is the control device of the disclosure another node device shown according to an exemplary embodiment Block diagram, for the embodiment on the basis of aforementioned embodiment illustrated in fig. 3, which may include: that dormant state record is looked into Submodule 311 and first is looked for determine submodule 312.

Wherein, dormant state record search submodule 311 is configured as looking into based on the mark of each controlled device stored Dormant state is looked for record；

First determine submodule 312, be configured as the mark of all controlled devices be all present in dormant state record look into When in the dormant state record for looking for submodule 311 to be searched, determine that all controlled devices have all entered dormant state.

In above-described embodiment, main control device can be recorded based on the identifier lookup dormant state of controlled device, be to determine No all controlled devices have all entered dormant state, and this mode is easily achieved.

As shown in figure 9, Fig. 9 is the control device of the disclosure another node device shown according to an exemplary embodiment Block diagram, the embodiment on the basis of aforementioned embodiment illustrated in fig. 3, judgment module 310 can also include: statistic submodule 313, Judging submodule 314 and second determines submodule 315.

Wherein, statistic submodule 313 are configured as entering dormant state based on the dormant state record statistics stored The number of controlled device；

Judging submodule 314 is configured as judging whether the number that statistic submodule 313 is counted is equal to stored institute There is the number of controlled device；

Second determines submodule 315, is configured as being judged as that counted number is equal to all quilts in judging submodule 314 When controlling the number of equipment, determine that all controlled devices have all entered dormant state.

In above-described embodiment, the number for the controlled device that main control device is also based in dormant state record is to determine No all controlled devices have all entered dormant state, and this mode is easily achieved.

As shown in Figure 10, Figure 10 is the control dress of the disclosure another node device shown according to an exemplary embodiment Block diagram is set, for the embodiment on the basis of aforementioned embodiment illustrated in fig. 3, which can also include: that earliest wake-up time determines Module 340, time difference computing module 350 and itself wake-up time determining module 360.

Wherein, earliest wake-up time determining module 340 is configured to determine that the earliest wake-up time of controlled device；

Time difference computing module 350 is configured as calculating controlled device determined by earliest wake-up time determining module 340 Earliest wake-up time and controlled device enter the time difference between the dormancy time the latest of dormant state；

Itself wake-up time determining module 360 is configured as true based on the time difference calculated of time difference computing module 350 Determine itself wake-up time of main control device, the earliest wake-up time of itself wake-up time of the main control device earlier than controlled device.

In above-described embodiment, due to the normal operation in order to guarantee controlled device, main control device should wake up earliest It wakes up before controlled device, thus main control device can determine waking up in controlled device earliest before entering dormant state Time, and itself wake-up time is determined based on the earliest wake-up time.

As shown in figure 11, Figure 11 is the control dress of the disclosure another node device shown according to an exemplary embodiment Block diagram is set, on the basis of aforementioned embodiment illustrated in fig. 10, which can wrap the embodiment Include: wake-up time computational submodule 341 and earliest wake-up time determine submodule 342.

Wherein, it is long to be configured as the dormancy time based on each controlled device stored for wake-up time computational submodule 341 Degree calculates the wake-up time of each controlled device；

Earliest wake-up time determines submodule 342, is configured as calculated each based on wake-up time computational submodule 341 The wake-up time of controlled device determines the earliest wake-up time of controlled device.

As shown in figure 12, Figure 12 is the control dress of the disclosure another node device shown according to an exemplary embodiment Block diagram is set, for the embodiment on the basis of aforementioned embodiment illustrated in fig. 10, which can also include: that dormancy time length receives Module 370 and the first memory module 380.

Wherein, dormancy time length receiving module 370, when being configured as receiving the respective suspend mode that each controlled device reports Between length；

First memory module 380, be configured as by the received dormancy time length of dormancy time length receiving module 370 with The mark of corresponding controlled device is corresponding to be stored.

As shown in figure 13, Figure 13 is the control dress of the disclosure another node device shown according to an exemplary embodiment Block diagram is set, for the embodiment on the basis of aforementioned embodiment illustrated in fig. 10, which can also include: that dormancy time length determines Module 390 and the second memory module 3100.

Wherein, dormancy time length determination modul 390 is configured as determining each quilt based on the working condition of each controlled device Control the dormancy time length of equipment；

Second memory module 3100 is configured as dormancy time determined by dormancy time length determination modul 390 is long Spend stored corresponding with the mark of each controlled device.

In above-described embodiment, main control device can be based on the wake-up time of each controlled device of dormancy time length computation, should Dormancy time length can be arranged by main control device or is respectively arranged by controlled device.

As shown in figure 14, Figure 14 is the control dress of the disclosure another node device shown according to an exemplary embodiment Block diagram is set, for the embodiment on the basis of aforementioned embodiment illustrated in fig. 10, itself wake-up time computing module 360 includes: the time Poor judging submodule 361 and itself wake-up time determine submodule 362.

Wherein, time difference judging submodule 361 is configured as judging the calculated time difference of time difference computing module 350 Whether setting time threshold value is greater than；

Itself wake-up time determines submodule 362, is configured as being judged as that the time difference is big in time difference judging submodule 361 When setting time threshold value, be determined as to itself wake-up time of main control device the time less than the time difference.

In above-described embodiment, it is provided with time threshold, only when the earliest wake-up time of controlled device and suspend mode the latest Between between time difference when being greater than the time threshold, main control device just carries out suspend mode, if the time difference less than time threshold, That is the time that main control device is capable of suspend mode is especially short, then main control device does not enter suspend mode, the shape in order to avoid frequent switching works State brings loss to main control device.

As shown in figure 15, Figure 15 is the control dress of the disclosure another node device shown according to an exemplary embodiment Block diagram is set, for the embodiment on the basis of aforementioned embodiment illustrated in fig. 10, device can also include: wake-up module 3110.

Wherein, wake-up module 3110 are configured as waking up correspondence in a manner of preset in the wake-up time of each controlled device Controlled device.

In the disclosure, main control device wakes up corresponding controlled device in the wake-up time of each controlled device of calculating, to prevent Controlled device suspend mode excessively delays normal work.

The control device embodiment of node device shown in above-mentioned Fig. 3 to Figure 15 can be using in the router.

The function of each unit and the realization process of effect are specifically detailed in the above method and correspond to step in above-mentioned apparatus Realization process, details are not described herein.

For device embodiment, since it corresponds essentially to embodiment of the method, so related place is referring to method reality Apply the part explanation of example.The apparatus embodiments described above are merely exemplary, wherein described be used as separation unit The unit of explanation may or may not be physically separated, and component shown as a unit can be or can also be with It is not physical unit, it can it is in one place, or may be distributed over multiple network units.It can be according to actual The purpose for needing to select some or all of the modules therein to realize disclosure scheme.Those of ordinary skill in the art are not paying Out in the case where creative work, it can understand and implement.

Correspondingly, the disclosure also provides a kind of router, which includes processor；It can be held for storage processor The memory of row instruction；Wherein, all whether which is configured as: judging all controlled devices that main control device is controlled Into dormant state；When being judged as that all controlled devices have all entered the dormant state, main control device enters suspend mode State.

As shown in figure 16, Figure 16 is a kind of control device for node device shown according to an exemplary embodiment 1600 structural schematic diagram.For example, device 1600 may be provided as a routing device.Referring to Fig.1 6, device 1600 includes Processing component 1622 further comprises one or more processors, and the memory resource as representated by memory 1632, It can be by the instruction of the execution of processing component 1622, such as application program for storing.The application program stored in memory 1632 May include it is one or more each correspond to one group of instruction module.In addition, processing component 1622 is configured as It executes instruction, the method to execute above-mentioned access webpage.

Device 1600 can also include that a power supply module 1626 be configured as the power management of executive device 1600, and one Wired or wireless network interface 1650 is configured as device 1600 being connected to network and input and output (I/O) interface 1658.Device 1600 can be operated based on the operating system for being stored in memory 1632, such as Windows ServerTM, Mac OS XTM, UnixTM, LinuxTM, FreeBSDTM or similar.

Those skilled in the art after considering the specification and implementing the invention disclosed here, will readily occur to its of the disclosure Its embodiment.The disclosure is intended to cover any variations, uses, or adaptations of the disclosure, these modifications, purposes or Person's adaptive change follows the general principles of this disclosure and including the undocumented common knowledge in the art of the disclosure Or conventional techniques.The description and examples are only to be considered as illustrative, and the true scope and spirit of the disclosure are by following Claim is pointed out.

The foregoing is merely the preferred embodiments of the disclosure, not to limit the disclosure, all essences in the disclosure Within mind and principle, any modification, equivalent substitution, improvement and etc. done be should be included within the scope of disclosure protection.

Claims (21)

1. a kind of control method of node device characterized by comprising

Whether all controlled devices for judging that main control device is controlled all have entered dormant state；

When being judged as that all controlled devices have all entered the dormant state, the main control device enters dormant state；

The main control device enters before dormant state, the method also includes:

Determine the earliest wake-up time of the controlled device；

Calculate the controlled device earliest wake-up time and the controlled device enter dormant state dormancy time the latest it Between time difference；

Determine that itself wake-up time of the main control device, itself wake-up time of the main control device are early based on the time difference In the earliest wake-up time of the controlled device；

Itself wake-up time that the main control device is determined based on the time difference, comprising:

Judge whether the time difference is greater than setting time threshold value；

When being judged as that the time difference is greater than the setting time threshold value, the time less than the time difference is determined as described Itself wake-up time of main control device；

Whether all controlled devices for judging that main control device is controlled all have entered dormant state, comprising:

Identifier lookup dormant state record based on each controlled device stored；

When the mark of all controlled devices is all present in the dormant state record, all controlled devices are determined The dormant state is all entered.

2. the method according to claim 1, wherein all controlled devices that the judgement main control device is controlled Whether all enter before dormant state, the method also includes:

Determine that the controlled device enters dormant state.

3. according to the method described in claim 2, it is characterized in that, the determination controlled device enters dormant state, packet It includes:

Receive the sleep request that the controlled device is sent；

Current working state based on the controlled device is sent to the controlled device allows suspend mode response, so that described controlled Equipment is based on the permission suspend mode response and enters dormant state；

Mark pair using the sending time of the suspend mode response as the dormancy time of the controlled device, with the controlled device That answers is stored as dormant state record.

4. according to the method described in claim 2, it is characterized in that, the determination controlled device enters dormant state, packet It includes:

Receive the suspend mode notice that the controlled device is sent；

It notifies to send suspend mode response to the controlled device based on the suspend mode, so that the controlled device is based on the suspend mode and answers It answers and enters dormant state；

It is corresponding with the mark of the controlled device to be stored as suspend mode using the sending time of the suspend mode response as dormancy time State recording.

5. according to the method described in claim 2, it is characterized in that, the determination controlled device enters dormant state, packet It includes:

Working condition based on each controlled device is determined to the controlled device of suspend mode；

Suspend mode instruction is sent to the controlled device for capableing of suspend mode, so that the controlled device is based on suspend mode instruction and enters Dormant state；

The sending time that the suspend mode is indicated is corresponding with the mark of the controlled device to be stored as suspend mode as dormancy time State recording.

6. the method according to claim 1, wherein all controlled devices that the judgement main control device is controlled Whether dormant state has all been entered, comprising:

Enter the number of the controlled device of dormant state based on the dormant state record statistics stored；

Judge whether counted number is equal to the number of all controlled devices stored；

When being judged as that counted number is equal to the number of all controlled devices, all controlled devices have been determined all Into the dormant state.

7. the method according to claim 1, wherein the earliest wake-up time of the determination controlled device, Include:

The wake-up time of each controlled device of dormancy time length computation based on each controlled device stored；

The earliest wake-up time of the controlled device is determined based on the wake-up time of calculated each controlled device.

8. the method according to the description of claim 7 is characterized in that the suspend mode based on each controlled device stored Before time span calculates the wake-up time of each controlled device, the method also includes:

Receive the respective dormancy time length that each controlled device reports；

It stores the dormancy time length is corresponding with the mark of the corresponding controlled device.

9. the method according to the description of claim 7 is characterized in that the suspend mode based on each controlled device stored Before time span calculates the wake-up time of each controlled device, the method also includes:

The dormancy time length of each controlled device is determined based on the working condition of each controlled device；

It stores identified dormancy time length is corresponding with the mark of each controlled device.

10. the method is also wrapped the method according to claim 1, wherein described enter after dormant state It includes:

In the wake-up time of each controlled device, corresponding controlled device is waken up in a manner of preset.

11. a kind of control device of node device characterized by comprising

Whether judgment module, all controlled devices for judging that main control device is controlled all have entered dormant state；

Sleep block, for when being judged as that all controlled devices have all entered the dormant state, the main control device Into dormant state；

Described device further include:

Earliest wake-up time determining module, for determining the earliest wake-up time of the controlled device；

Time difference computing module, earliest wake-up time and the controlled device for calculating the controlled device enter suspend mode shape Time difference between the dormancy time the latest of state；

Itself wake-up time determining module, for determining itself wake-up time of the main control device, institute based on the time difference State earliest wake-up time of itself wake-up time earlier than the controlled device of main control device；

Itself wake-up time computing module includes:

Time difference judging submodule, for judging whether the time difference is greater than setting time threshold value；

Itself wake-up time determines submodule, for that will lack when being judged as that the time difference is greater than the setting time threshold value It is determined as itself wake-up time of the main control device in the time of the time difference；

The judgment module includes:

Dormant state record search submodule, for the identifier lookup dormant state note based on each controlled device stored Record；

First determines submodule, for when the mark of all controlled devices is all present in dormant state record, Determine that all controlled devices have all entered the dormant state.

12. device according to claim 11, which is characterized in that described device further include:

Determining module, for determining that the controlled device enters dormant state.

13. device according to claim 12, which is characterized in that the determining module includes:

Sleep request receiving submodule, the sleep request sent for receiving the controlled device；

Allow suspend mode response sending submodule, is sent out for the current working state based on the controlled device to the controlled device Sending allows suspend mode response, so that the controlled device is based on the permission suspend mode response and enters dormant state；

First sub-module stored, for using the sending time of the suspend mode response as the dormancy time of the controlled device, with The mark of the controlled device is corresponding to be stored as dormant state record.

14. device according to claim 12, which is characterized in that the determining module includes:

Suspend mode notifies receiving submodule, the suspend mode notice sent for receiving the controlled device；

Suspend mode response sending submodule sends suspend mode response to the controlled device for notifying based on the suspend mode, so that institute It states controlled device and dormant state is entered based on the suspend mode response；

Second sub-module stored, for using the sending time of the suspend mode response as dormancy time, with the controlled device The corresponding dormant state that is stored as is identified to record.

15. device according to claim 12, which is characterized in that the determining module includes:

Sleeping devices determine submodule, are determined to the controlled of suspend mode for the working condition based on each controlled device and set It is standby；

Suspend mode indicates sending submodule, for sending suspend mode instruction to the controlled device for capableing of suspend mode, so that described controlled Equipment is based on suspend mode instruction and enters dormant state；

Third sub-module stored, the sending time for indicating the suspend mode is as dormancy time, with the controlled device The corresponding dormant state that is stored as is identified to record.

16. device according to claim 11, which is characterized in that the judgment module includes:

Statistic submodule, of the controlled device for entering dormant state based on the dormant state record statistics stored Number；

Judging submodule, for judging whether counted number is equal to the number of all controlled devices stored；

Second determines submodule, for determining when being judged as that counted number is equal to the number of all controlled devices All controlled devices have all entered the dormant state.

17. device according to claim 11, which is characterized in that the earliest wake-up time determining module includes:

Wake-up time computational submodule, it is each described for the dormancy time length computation based on each controlled device stored The wake-up time of controlled device；

Earliest wake-up time determines submodule, for determining the quilt based on the wake-up time of calculated each controlled device Control the earliest wake-up time of equipment.

18. device according to claim 11, which is characterized in that described device further include:

Dormancy time length receiving module, the respective dormancy time length reported for receiving each controlled device；

First memory module, for depositing the dormancy time length is corresponding with the mark of the corresponding controlled device Storage.

19. device according to claim 11, which is characterized in that described device further include:

Dormancy time length determination modul, for determining each controlled device based on the working condition of each controlled device Dormancy time length；

Second memory module, for depositing identified dormancy time length is corresponding with the mark of each controlled device Storage.

20. device according to claim 11, which is characterized in that described device further include:

Wake-up module is waken up corresponding be controlled in a manner of preset and set for the wake-up time in each controlled device It is standby.

21. a kind of router characterized by comprising processor；Memory for storage processor executable instruction；Its In, the processor is configured to:

Whether all controlled devices for judging that main control device is controlled all have entered dormant state；

When being judged as that all controlled devices have all entered the dormant state, the main control device enters dormant state；

The main control device enters before dormant state, further includes:

Determine the earliest wake-up time of the controlled device；

Calculate the controlled device earliest wake-up time and the controlled device enter dormant state dormancy time the latest it Between time difference；

Determine that itself wake-up time of the main control device, itself wake-up time of the main control device are early based on the time difference In the earliest wake-up time of the controlled device；

Itself wake-up time that the main control device is determined based on the time difference, comprising:

Judge whether the time difference is greater than setting time threshold value；

When being judged as that the time difference is greater than the setting time threshold value, the time less than the time difference is determined as described Itself wake-up time of main control device；

Whether all controlled devices for judging that main control device is controlled all have entered dormant state, comprising:

Identifier lookup dormant state record based on each controlled device stored；

When the mark of all controlled devices is all present in the dormant state record, all controlled devices are determined The dormant state is all entered.