CN104954148A

CN104954148A - Control method and device of node equipment and router

Info

Publication number: CN104954148A
Application number: CN201510341570.1A
Authority: CN
Inventors: 孟德国; 张彦路; 侯恩星
Original assignee: Xiaomi Inc
Current assignee: Beijing Xiaomi Technology Co Ltd; Xiaomi Inc
Priority date: 2015-06-18
Filing date: 2015-06-18
Publication date: 2015-09-30
Anticipated expiration: 2035-06-18
Also published as: CN104954148B

Abstract

The invention discloses a control method and device of node equipment and a router. The method comprises the following steps of judging whether all controlled equipment controlled by main control equipment enters a dormant state or not; entering the dormant state when the judging result shows that all controlled equipment enters the dormant state. When the embodiment is applied, the main control equipment can also enter the dormant state after all controlled equipment controlled by the main control equipment enters the dormant state, so that the power consumption is reduced; the electric resource consumption is reduced; the service life of the main control equipment and the service life of each piece of controlled equipment are favorably prolonged.

Description

The control method of node device, device and router

Technical field

The disclosure relates to network communication technology field, particularly relates to a kind of control method of node device, device and router.

Background technology

Multiple terminal is controlled for router or intelligent home gateway controls the situation that main control devices such as multiple intelligent appliances control multiple controlled device, usually, controlled by the operation of main control device to each controlled device, such as, main control device controls the transfer of data etc. of each controlled device.

In correlation technique, main control device controls the supplier of service as the data transport service of each controlled device or other, due to and do not know when need work, thus need always in running order, power consumption be higher, consume a large amount of electric power and resource.In correlation technique, good mode does not control device sleeps.

Summary of the invention

Present disclose provides a kind of control method of node device, device and router, there is no to solve in correlation technique the problem that the dormancy of good mode to equipment controls, power consumption is higher.

According to the first aspect of disclosure embodiment, a kind of control method of node device is provided, comprises:

Judge whether all controlled devices that main control device controls enter resting state all;

When being judged as that all described controlled devices have entered described resting state all, described main control device enters resting state.

Optionally, before whether the described all controlled devices judging that main control device controls have entered resting state all, described method has also comprised:

Determine that described controlled device enters resting state.

Optionally, describedly determine that described controlled device enters resting state, comprising:

Receive the sleep request that described controlled device sends;

Current working state based on described controlled device sends permission dormancy response to described controlled device, enters resting state to make described controlled device based on described permission dormancy response;

The transmitting time of described dormancy being replied is as the dormancy time of described controlled device, and corresponding with the mark of described controlled device is stored as resting state record.

Receive the dormancy notice that described controlled device sends;

Send dormancy response based on described dormancy notice to described controlled device, enter resting state to make described controlled device based on described dormancy response;

The transmitting time of described dormancy being replied is as dormancy time, and corresponding with the mark of described controlled device is stored as resting state record.

Working condition based on each described controlled device is determined can the controlled device of dormancy;

The controlled device of dormancy can send dormancy instruction to described, enter resting state to make described controlled device based on described dormancy instruction;

The transmitting time described dormancy indicated is as dormancy time, and corresponding with the mark of described controlled device is stored as resting state record.

Optionally, whether the described all controlled devices judging that main control device controls enter resting state all, comprising:

Based on the identifier lookup resting state record of stored each described controlled device;

When the mark of all described controlled devices is all present in described resting state record, determine that all described controlled devices have entered described resting state all.

The number of the described controlled device of resting state is entered based on stored resting state record statistics;

Judge whether the number of adding up equals the number of stored all described controlled device;

When being judged as that added up number equals the number of all described controlled devices, determine that described all controlled devices have entered described resting state all.

Optionally, before described main control device enters resting state, described method also comprises:

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

Calculate the time difference the latest between dormancy time that the wake-up time the earliest of described controlled device and described controlled device enter resting state;

Determine self wake-up time of described main control device based on the described time difference, self wake-up time of described main control device is early than the wake-up time the earliest of described controlled device.

Optionally, the described wake-up time the earliest determining described controlled device, comprising:

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

Wake-up time based on each described controlled device calculated determines the wake-up time the earliest of described controlled device.

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

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

Carrying out corresponding with the mark of corresponding described controlled device for described dormancy time length is stored.

Working condition based on each described controlled device determines the dormancy time length of each described controlled device;

The carrying out that determined dormancy time length is corresponding with the mark of each described controlled device stores.

Optionally, described self wake-up time determining described main control device based on the described time difference, comprising:

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

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

Optionally, described in enter resting state after, described method also comprises:

At the described wake-up time of each described controlled device, wake corresponding controlled device up in the mode preset.

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

Judge module, for judging whether all controlled devices that main control device controls enter resting state all;

Sleep block, for when being judged as that all described controlled devices have entered described resting state all, described main control device enters resting state.

Optionally, described device also comprises:

Determination module, for determining that described controlled device enters resting state.

Optionally, described determination module comprises:

Sleep request receives submodule, for receiving the sleep request that described controlled device sends;

Allow dormancy response to send submodule, send permission dormancy response for the current working state based on described controlled device to described controlled device, enter resting state to make described controlled device based on described permission dormancy response;

First sub module stored, for the transmitting time of described dormancy the being replied dormancy time as described controlled device, corresponding with the mark of described controlled device is stored as resting state record.

Optionally, described determination module comprises:

Dormancy notice receives submodule, for receiving the dormancy notice that described controlled device sends;

Dormancy response sends submodule, for sending dormancy response based on described dormancy notice to described controlled device, enters resting state to make described controlled device based on described dormancy response;

Second sub module stored, for the transmitting time of described dormancy being replied as dormancy time, corresponding with the mark of described controlled device is stored as resting state record.

Optionally, described determination module comprises:

Sleeping devices determination submodule, for determine based on the working condition of each described controlled device can the controlled device of dormancy;

Dormancy instruction sends submodule, for the controlled device of dormancy sending dormancy instruction to described, enters resting state to make described controlled device based on described dormancy instruction;

3rd sub module stored, for the transmitting time that described dormancy indicated as dormancy time, corresponding with the mark of described controlled device is stored as resting state record.

Optionally, described judge module comprises:

Resting state record search submodule, for the identifier lookup resting state record based on stored each described controlled device;

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

Optionally, described judge module comprises:

Statistics submodule, for entering the number of the described controlled device of resting state based on stored resting state record statistics;

Judge submodule, for judging whether added up number equals the number of stored all described controlled device;

Second determines submodule, for when being judged as that added up number equals the number of all described controlled devices, determines that described all controlled devices have entered described resting state all.

Optionally, described device also comprises:

Wake-up time determination module the earliest, for determining the wake-up time the earliest of described controlled device;

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

Self wake-up time determination module, for determining self wake-up time of described main control device based on the described time difference, self wake-up time of described main control device is early than the wake-up time the earliest of described controlled device.

Optionally, the described determination module of wake-up time the earliest comprises:

Wake-up time calculating sub module, for the wake-up time of each described controlled device of dormancy time length computation based on stored each described controlled device;

The submodule of wake-up time determination the earliest, for determining the wake-up time the earliest of described controlled device based on the wake-up time of each described controlled device calculated.

Optionally, described device also comprises:

Dormancy time length receiver module, for receiving the respective dormancy time length that each described controlled device reports;

First memory module, for storing carrying out corresponding with the mark of corresponding described controlled device for described dormancy time length.

Optionally, described device also comprises:

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

Second memory module, stores for the carrying out that determined dormancy time length is corresponding with the mark of each described controlled device.

Optionally, self wake-up time computing module described comprises:

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

Self wake-up time determination submodule, for when being judged as that the described time difference is greater than described setting-up time threshold value, is defined as self wake-up time of described main control device by the time being less than the described time difference.

Optionally, described device also comprises:

Wake module, for the described wake-up time at each described controlled device, wakes corresponding controlled device up in the mode preset.

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

The technical scheme that embodiment of the present disclosure provides can comprise following beneficial effect:

All controlled devices that in the disclosure, main control device can control at it also enter resting state after all entering resting state, thus reduce power consumption, save electric power resource consumption, are conducive to the useful life extending main control device and each controlled device.

Can be determined whether to allow its dormancy based on the sleep request of controlled device and current working state thereof by main control device in the disclosure, such as controlled device operating state comparatively busy do not allow its dormancy, if be in off position for some time, allow its dormancy.Thus control the dormancy time of each controlled device flexibly, can ensure that controlled device does not dally over one's work, its time having dormancy can be ensured again, reduce power consumption.

In the disclosure, main control device can search resting state record based on the mark of controlled device or number, determines whether that all controlled devices enter resting state all, and this mode is easy to realize.

In the disclosure, due to the normal operation in order to ensure controlled device, main control device should be waken up before the controlled device of waking up the earliest, thus main control device can before entering resting state, determine wake-up time the earliest in controlled device and based on this earliest wake-up time determine self wake-up time.

In the disclosure, main control device can based on the wake-up time of each controlled device of dormancy time length computation, and this dormancy time length can be arranged by main control device and also can be arranged separately by controlled device.

Also time threshold is provided with in the disclosure, only have when the wake-up time the earliest of controlled device and the time difference the latest between dormancy time are greater than time threshold, main control device just carries out dormancy, if this time difference is less than time threshold, that is main control device can time of dormancy short especially, so main control device does not enter dormancy, in order to avoid frequent switch operating state brings loss to main control device.

Should be understood that, it is only exemplary and explanatory that above general description and details hereinafter describe, and can not limit the disclosure.

Accompanying drawing explanation

Accompanying drawing to be herein merged in specification and to form the part of this specification, shows and meets embodiment of the present disclosure, and is used from specification one and explains principle of the present disclosure.

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

Figure 16 is a structural representation of a kind of control device for node device of the disclosure according to an exemplary embodiment.

Embodiment

Here will be described exemplary embodiment in detail, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawing represents same or analogous key element.Execution mode described in following exemplary embodiment does not represent all execution modes consistent with the disclosure.On the contrary, they only with as in appended claims describe in detail, the example of apparatus and method that aspects more of the present disclosure are consistent.

The term used in the disclosure is only for the object describing specific embodiment, and the not intended to be limiting disclosure." one ", " described " and " being somebody's turn to do " of the singulative used in disclosure and the accompanying claims book is also intended to comprise most form, unless context clearly represents other implications.It is also understood that term "and/or" used herein refer to and comprise one or more project of listing be associated any or all may combine.

Term first, second, third, etc. may be adopted although should be appreciated that to describe various information in the disclosure, these information should not be limited to these terms.These terms are only used for the information of same type to be distinguished from each other out.Such as, when not departing from disclosure scope, the first information also can be called as the second information, and similarly, the second information also can be called as the first information.Depend on linguistic context, word as used in this " if " can be construed as into " ... time " or " when ... time " or " in response to determining ".

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

Step 101, judge whether all controlled devices that main control device controls all enter resting state.

In the disclosure, node device comprises the multiple stage controlled device of main control device and connection thereof, can be that wired connection also can for wireless connections.Connected mode can comprise I ²c (Inter Integrated Circuit), SPI (Serial Peripheral Interface, Serial Peripheral Interface (SPI)), the connected mode of Wi-Fi (WirelessFidelity, Wireless Fidelity), bluetooth, Zigbee (purple honeybee) and other various wire line protocols and wireless protocols.

In the disclosure, optionally, main control device can provide data transport service for each controlled device, such as, the data received is transferred to corresponding controlled device, by the transfer of data from controlled device to object equipment.Main control device can be router, and controlled device can be terminal, intelligent appliance or the smart machine etc. that are connected with main control device.Optionally, main control device can be the main control device of other types, such as intelligent home gateway, server, wired home control centre.Main control device can also be the equipment such as terminal for controlling intelligent appliance, smart machine.Main control device can also be the I for controlling the peripheral hardware such as transducer, touch-screen ²c controller.

Router in the disclosure is as a kind of smart routing devices, and it not only has traditional routing function, can further include SOS and disk, and the storage size of this disk can be arranged as required flexibly, such as, is set to 1T.Terminal in the disclosure can be any intelligent terminal with function of surfing the Net, such as, can be specially mobile phone, panel computer, PDA (Personal Digital Assistant, personal digital assistant) etc.Wherein, terminal can pass through WLAN (wireless local area network) couple in router, and by the server on router access public network.Intelligent appliance can be intelligent television, intelligent air condition, Intelligent air purifier, intelligent water purifier etc.The equipment such as smart machine can be intelligent watch, Intelligent bracelet, smart electronics claim.

In the disclosure, main control device can judge whether controlled device enters resting state in several ways.The mark of each controlled device is stored, MAC (Media Access Control, the media interviews control) address of such as terminal in main control device.The number of controlled device can also be stored.Main control device can add up the state of each controlled device, comprises resting state or normal operating conditions.Principal statistical resting state in the disclosure.

In disclosure step, such as, controlled device can enter resting state to main control device request.

Main control device receives the sleep request that controlled device sends, main control device sends permission dormancy response based on the present behavior of this controlled device to controlled device, or do not allow dormancy to reply, when controlled device receives this permission dormancy response, enter resting state.This controlled device is entered the dormancy time of resting state by main control device, and corresponding with the mark of this controlled device carries out record, the time of dormancy response can be allowed as dormancy time using sending.Do not allow dormancy to reply if controlled device receives, then controlled device can not dormancy, and main control device is without the need to keeping a record.

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

Main control device receives the dormancy notice that controlled device sends, and main control device sends dormancy response to controlled device, and controlled device receives this dormancy response, enters resting state.This controlled device is entered the dormancy time of resting state by main control device, and corresponding with the mark of this controlled device carries out record, and main control device can will send the time of dormancy response as dormancy time.

In disclosure step, dormancy can also be sent by main control device to controlled device and indicate.

Main control device, based on the working condition of self working condition and controlled device, sends dormancy instruction to controlled device, and controlled device receives this dormancy instruction, enters resting state.This controlled device is entered the dormancy time of resting state by main control device, and corresponding with the mark of this controlled device carries out record, and the content of this record can be referred to as resting state record.Can will send the time of dormancy instruction as dormancy time.

In the disclosure, main control device, based on the number of connected controlled device and resting state record, judges whether that connected all controlled devices all enter resting state.

Such as, main control device based on the identifier lookup resting state record of each controlled device, if all the mark of controlled device is all present in resting state record, then can illustrate that all controlled devices all enter resting state.If only there is the mark of part controlled device to be present in resting state record, then declaratives controlled device enters resting state, and thus main control device can not dormancy.

Main control device can also add up the number of the controlled device recorded in resting state record, if this number equals the number of connected all controlled devices, then illustrates that all controlled devices all enter resting state.If the number of this statistics is less than the number of all controlled devices, then declaratives controlled device enters resting state, and still have controlled device in work, main control device can not enter dormancy.

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

In the disclosure, main control device when all controlled devices are all in resting state, can enter resting state, i.e. low power consumpting state, thus reach main control device appropriateness is had a rest, extend useful life of main control device, reduce the power consumption of whole system, save the object of electric power resource.

In the disclosure, before main control device enters resting state, main control device can calculate the wake-up time the earliest of each controlled device, determines the wake-up time of main control device thus.That is, ensure that main control device will be waken up before the controlled device of waking up the earliest, to ensure the normal operation of system.After determining wake-up time, main control device can enter resting state.

Wherein, the dormancy time length of each controlled device can be pre-set by main control device, thus the wake-up time of each controlled device can be calculated based on the dormancy time of each controlled device; Also can arrange dormancy time length separately by controlled device, and report main control device, the dormancy time length of main control device to each controlled device stores, and based on the wake-up time of each controlled device of this dormancy time length computation.

In the disclosure, when being judged as that all controlled devices all enter resting state, main control device calculates the wake-up time of the controlled device should waken up the earliest in each controlled device, here wake-up time is the earliest referred to as, and calculate this wake-up time and enter time difference the latest between dormancy time of controlled device of resting state the latest the earliest, when this time difference is greater than setting-up time threshold value, the dormancy time of main control device calculating oneself.

Such as, when the dormancy time length of each controlled device is identical, suppose that dormancy time is 10:00 the earliest, its dormancy time length setting is 1 hour, and so wakeup time should be 11:00; Dormancy time is 10:55 the latest, so the latest dormancy time distance wakeup time only 5 minutes the earliest, and setting-up time threshold value is 10 minutes, and this time difference is less than setting-up time threshold value, then main control device does not carry out dormancy.

If dormancy time is 10:30 the latest, so the latest dormancy time distance the earliest wakeup time be 30 minutes, be greater than time threshold, main control device can dormancy, because main control device will be waken up before controlled device is waken up, thus can determine that dormancy time length is 28 minutes.

In the disclosure, if when main control device and controlled device are all in resting state, a certain controlled device is in an emergency, need emergency treatment, so the driving of controlled device sends emergency notice to main control device, main control device is promptly waken up, returns to normal operating conditions, then this controlled device wakes up by main control device.

In the disclosure, for wired connection mode, wake-up mode can wake up for interruption, and main control device, by the change of current potential on transmission line, wakes controlled device up; For radio connection, need preset the message of agreement form, when arriving wakeup time, main control device sends the message of agreement form to wake controlled device up, to ensure that controlled device can be waken up to controlled device.

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

In this application scenarios, first millet router receives the sleep request of red rice 2 in 18:10, millet router sends to red rice 2 and allows dormancy response, red rice 2 enters resting state based on the permission dormancy response received, the dormancy time 18:12 (send the time that allows dormancy response) of millet router by red rice 2 and corresponding being stored in resting state record of MAC Address of red rice 2.Then, millet router is divided to receive the sleep request of millet 4 at 18:29, millet router sends permission dormancy response based on the working condition of millet 4 to millet 4, millet 4 enters resting state based on the permission dormancy response received, and millet router is by dormancy time 18:30 (sending the time allowing dormancy response) be stored in resting state record corresponding with the MAC Address of millet 4 of millet 4.Finally, millet router divides the sleep request receiving millet Note in 18:56, working condition based on millet Note sends permission dormancy response to millet Note, millet Note enters resting state based on the permission dormancy response received, and millet router is by dormancy time 18:57 (send and allow the time of dormancy response) corresponding being stored in resting state record of millet Note.Millet router searches the number entering the controlled node device of resting state in resting state record every the time of setting, when lookup result is 3, time equal with the number of all controlled node device stored, millet router determines that all controlled node devices enter resting state all.Then millet router calculates the wake-up time the earliest in controlled node device, suppose that the dormancy time length of millet 4, red rice 2 and millet Note is all 2 hours, then wake-up time should be the wake-up time 20:12 of red rice 2 the earliest, this time is compared with dormancy time 18:57 the latest, time difference be 1 hour 15 points, be greater than preset time threshold 10 points, thus, self wake-up time is set as that 20:10 divides by millet router, that is, millet router will be waken up, in order to avoid dally over one's work before the red rice 2 of waking up the earliest.In this application scenarios, millet router can dormancy more than 1 hour.

In application scenarios shown in Fig. 2, the detailed process realizing the control of node device see aforementioned to the description in Fig. 1, can not repeat them here.

Corresponding with the control method embodiment of aforementioned nodes equipment, the control device that the disclosure additionally provides node device and the embodiment of router applied thereof.

As shown in Figure 3, Fig. 3 is the control device block diagram of a kind of node device of the disclosure according to an exemplary embodiment, and this device can comprise: judge module 310 and sleep block 320.

Wherein, judge module 310, is configured to judge whether all controlled devices that main control device controls enter resting state all;

Sleep block 320, be configured to when judge module 310 is judged as that all controlled devices have entered resting state all, main control device enters resting state.

In above-described embodiment, main control device also enters resting state after all can entering resting state at controlled all controlled devices, thus reduces power consumption, saves electric power resource consumption, is conducive to the useful life extending main control device and each controlled device.

As shown in Figure 4, Fig. 4 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, and this embodiment is on aforementioned basis embodiment illustrated in fig. 3, and this device can also comprise: determination module 330.

Wherein, determination module 330, is configured to determine that controlled device enters resting state.

In the disclosure, main control device can enter resting state to controlled device in advance and determine, thus is conducive to judging whether that whole controlled device all enters resting state.

As shown in Figure 5, Fig. 5 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, this embodiment is on aforementioned basis embodiment illustrated in fig. 4, and determination module 330 can comprise: sleep request receives submodule 331, allows dormancy response to send submodule 332 and the first sub module stored 333.

Wherein, sleep request receives submodule 331, is configured to the sleep request receiving controlled device transmission;

Dormancy response is allowed to send submodule 332, the sleep request being configured to receive based on current working state and the sleep request reception submodule 331 of controlled device sends to controlled device and allows dormancy response, enters resting state to make controlled device based on allowing dormancy response;

First sub module stored 333, be configured to the dormancy time of transmitting time as controlled device that will dormancy response transmission submodule 332 allowed to send dormancy response, corresponding with the mark of controlled device is stored as resting state record.

In the disclosure, can be determined whether to allow its dormancy based on the sleep request of controlled device and current working state thereof by main control device, such as controlled device operating state comparatively busy do not allow its dormancy, if controlled device is in off position for some time, allow its dormancy.Thus control the dormancy time of each controlled device flexibly, can ensure that controlled device does not dally over one's work, its time having dormancy can be ensured again, reduce power consumption.

As shown in Figure 6, Fig. 6 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, this embodiment is on aforementioned basis embodiment illustrated in fig. 4, and determination module 330 can comprise: dormancy notice receives submodule 334, dormancy response sends submodule 335 and the second sub module stored 336.

Wherein, dormancy notice receives submodule 334, is configured to the dormancy notice receiving controlled device transmission;

Dormancy response sends submodule 335, and the dormancy notice being configured to receive based on dormancy notice submodule 334 reception sends dormancy response to controlled device, enters resting state to make controlled device based on dormancy response;

Second sub module stored 336, be configured to dormancy response to be sent submodule 335 and send the transmitting time of dormancy response as dormancy time, corresponding with the mark of controlled device is stored as resting state record.

In the disclosure, can be determined the need of dormancy by controlled device self, and report main control device, the resting state that main control device record is corresponding.

As shown in Figure 7, Fig. 7 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, this embodiment is on aforementioned basis embodiment illustrated in fig. 4, and determination module 330 can comprise: sleeping devices determination submodule 337, dormancy instruction send submodule 338 and the 3rd sub module stored 339.

Wherein, sleeping devices determination submodule 337, being configured to determine based on the working condition of each controlled device can the controlled device of dormancy;

Dormancy instruction send submodule 338, be configured to sleeping devices determination submodule 337 determine can dormancy controlled device send dormancy instruction, with make controlled device based on dormancy instruction enter resting state;

3rd sub module stored 339, be configured to dormancy instruction to be sent submodule 338 and send the transmitting time of dormancy instruction as dormancy time, corresponding with the mark of controlled device is stored as resting state record.

In the disclosure, main control device can be determined based on the working condition of controlled device every the time period of setting can the controlled device of dormancy, and indicates it to carry out dormancy, is conducive to the resource of Appropriate application controlled device, reduces power consumption.

As shown in Figure 8, Fig. 8 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, this embodiment is on aforementioned basis embodiment illustrated in fig. 3, and this judge module 310 can comprise: resting state record search submodule 311 and first determines submodule 312.

Wherein, resting state record search submodule 311, is configured to the identifier lookup resting state record based on stored each controlled device;

First determines submodule 312, is configured to, when the mark of all controlled devices is all present in the resting state record that resting state record search submodule 311 searches, determine that all controlled devices enter resting state all.

In above-described embodiment, main control device based on the identifier lookup resting state record of controlled device, can determine whether that all controlled devices enter resting state all, and this mode is easy to realize.

As shown in Figure 9, Fig. 9 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, this embodiment is on aforementioned basis embodiment illustrated in fig. 3, and judge module 310 can also comprise: add up submodule 313, judge that submodule 314 and second determines submodule 315.

Wherein, statistics submodule 313, is configured to the number entering the controlled device of resting state based on stored resting state record statistics;

Judge submodule 314, be configured to judge to add up the number whether number that submodule 313 adds up equals stored all controlled devices;

Second determines submodule 315, is configured to when judging that submodule 314 is judged as that added up number equals the number of all controlled devices, determines that all controlled devices enter resting state all.

In above-described embodiment, based on the number of the controlled device in resting state record, main control device can also determine whether that all controlled devices enter resting state all, and this mode is easy to realize.

As shown in Figure 10, Figure 10 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, this embodiment is on aforementioned basis embodiment illustrated in fig. 3, and this device can also comprise: wake-up time determination module 340, time difference computing module 350 and self wake-up time determination module 360 the earliest.

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

Time difference computing module 350, is configured to calculate the time difference the latest between dormancy time that the wake-up time the earliest of the determined controlled device of wake-up time determination module 340 the earliest and controlled device enter resting state;

Self wake-up time determination module 360, the time difference being configured to calculate based on time difference computing module 350 determines self wake-up time of main control device, and self wake-up time of this main control device is early than the wake-up time the earliest of controlled device.

In above-described embodiment, due to the normal operation in order to ensure controlled device, main control device should be waken up before the controlled device of waking up the earliest, thus main control device can before entering resting state, determine the wake-up time the earliest in controlled device, and based on this earliest wake-up time determine self wake-up time.

As shown in figure 11, Figure 11 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, this embodiment on aforementioned basis embodiment illustrated in fig. 10, this earliest wake-up time determination module 340 can comprise: wake-up time calculating sub module 341 and the submodule of wake-up time determination the earliest 342.

Wherein, wake-up time calculating sub module 341, is configured to the wake-up time of each controlled device of dormancy time length computation based on stored each controlled device;

The submodule of wake-up time determination the earliest 342, is configured to the wake-up time the earliest of the wake-up time determination controlled device of each controlled device calculated based on wake-up time calculating sub module 341.

As shown in figure 12, Figure 12 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, this embodiment is on aforementioned basis embodiment illustrated in fig. 10, and this device can also comprise: dormancy time length receiver module 370 and the first memory module 380.

Wherein, dormancy time length receiver module 370, is configured to receive the respective dormancy time length that each controlled device reports;

First memory module 380, carry out corresponding with the mark of corresponding controlled device stores the dormancy time length being configured to dormancy time length receiver module 370 to receive.

As shown in figure 13, Figure 13 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, this embodiment is on aforementioned basis embodiment illustrated in fig. 10, and this device can also comprise: dormancy time length determination modul 390 and the second memory module 3100.

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

Second memory module 3100, is configured to carrying out corresponding with the mark of each controlled device for determined for dormancy time length determination modul 390 dormancy time length to store.

In above-described embodiment, main control device can based on the wake-up time of each controlled device of dormancy time length computation, and this dormancy time length can be arranged by main control device and also can be arranged separately by controlled device.

As shown in figure 14, Figure 14 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, this embodiment is on aforementioned basis embodiment illustrated in fig. 10, and self wake-up time computing module 360 comprises: the time difference judges submodule 361 and self wake-up time determination submodule 362.

Wherein, the time difference judges submodule 361, is configured to judge whether the time difference that time difference computing module 350 calculates is greater than setting-up time threshold value;

Self wake-up time determination submodule 362, is configured to, when the time difference judges that submodule 361 is judged as that the time difference is greater than setting-up time threshold value, is defined as self wake-up time of main control device the time being less than the time difference.

In above-described embodiment, be provided with time threshold, only have when the wake-up time the earliest of controlled device and the time difference the latest between dormancy time are greater than this time threshold, main control device just carries out dormancy, if this time difference is less than time threshold, that is main control device can time of dormancy short especially, so main control device does not enter dormancy, in order to avoid frequent switch operating state brings loss to main control device.

As shown in figure 15, Figure 15 is the control device block diagram of the another kind of node device of the disclosure according to an exemplary embodiment, and this embodiment is on aforementioned basis embodiment illustrated in fig. 10, and device can also comprise: wake module 3110.

Wherein, wake module 3110, is configured to the wake-up time at each controlled device, wakes corresponding controlled device up in the mode preset.

In the disclosure, main control device wakes corresponding controlled device up, in case controlled device dormancy excessively delays normal work at the wake-up time of each controlled device calculated.

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

In said apparatus, the implementation procedure of the function and efficacy of unit specifically refers to the implementation procedure of corresponding step in said method, does not repeat them here.

For device embodiment, because it corresponds essentially to embodiment of the method, so relevant part illustrates see the part of embodiment of the method.Device embodiment described above is only schematic, the wherein said unit illustrated as separating component or can may not be and physically separates, parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of module wherein can be selected according to the actual needs to realize the object of disclosure scheme.Those of ordinary skill in the art, when not paying creative work, are namely appreciated that and implement.

Accordingly, the disclosure also provides a kind of router, and this router includes processor; For the memory of storage of processor executable instruction; Wherein, this processor is configured to: judge whether all controlled devices that main control device controls enter resting state all; When being judged as that all described controlled devices have entered described resting state all, main control device enters resting state.

As shown in figure 16, Figure 16 is a structural representation of a kind of control device 1600 for node device according to an exemplary embodiment.Such as, device 1600 may be provided in a routing device.With reference to Figure 16, device 1600 comprises processing components 1622, and it comprises one or more processor further, and the memory resource representated by memory 1632, can such as, by the instruction of the execution of processing unit 1622, application program for storing.The application program stored in memory 1632 can comprise each module corresponding to one group of instruction one or more.In addition, processing components 1622 is configured to perform instruction, to perform the method for above-mentioned accessed web page.

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

Those skilled in the art, at consideration specification and after putting into practice invention disclosed herein, will easily expect other embodiment of the present disclosure.The disclosure is intended to contain any modification of the present disclosure, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present disclosure and comprised the undocumented common practise in the art of the disclosure or conventional techniques means.Specification and embodiment are only regarded as exemplary, and true scope of the present disclosure and spirit are pointed out by claim below.

The foregoing is only preferred embodiment of the present disclosure, not in order to limit the disclosure, all within spirit of the present disclosure and principle, any amendment made, equivalent replacements, improvement etc., all should be included within scope that the disclosure protects.

Claims

1. a control method for node device, is characterized in that, comprising:

2. method according to claim 1, is characterized in that, before whether the described all controlled devices judging that main control device controls have entered resting state all, described method also comprises:

Determine that described controlled device enters resting state.

3. method according to claim 2, is characterized in that, describedly determines that described controlled device enters resting state, comprising:

Receive the sleep request that described controlled device sends;

4. method according to claim 2, is characterized in that, describedly determines that described controlled device enters resting state, comprising:

Receive the dormancy notice that described controlled device sends;

5. method according to claim 2, is characterized in that, describedly determines that described controlled device enters resting state, comprising:

6. method according to claim 1, is characterized in that, whether the described all controlled devices judging that main control device controls enter resting state all, comprising:

7. method according to claim 1, is characterized in that, whether the described all controlled devices judging that main control device controls enter resting state all, comprising:

8. method according to claim 1, is characterized in that, before described main control device enters resting state, described method also comprises:

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

9. method according to claim 8, is characterized in that, the described wake-up time the earliest determining described controlled device, comprising:

10. method according to claim 9, is characterized in that, before the wake-up time of each described controlled device of the described dormancy time length computation based on stored each described controlled device, described method also comprises:

11. methods according to claim 9, is characterized in that, before the wake-up time of each described controlled device of the described dormancy time length computation based on stored each described controlled device, described method also comprises:

12. methods according to claim 8, is characterized in that, described self wake-up time determining described main control device based on the described time difference, comprising:

13. methods according to claim 1, is characterized in that, described in enter resting state after, described method also comprises:

The control device of 14. 1 kinds of node devices, is characterized in that, comprising:

15. devices according to claim 14, is characterized in that, described device also comprises:

16. devices according to claim 15, is characterized in that, described determination module comprises:

17. devices according to claim 15, is characterized in that, described determination module comprises:

18. devices according to claim 15, is characterized in that, described determination module comprises:

19. devices according to claim 14, is characterized in that, described judge module comprises:

20. devices according to claim 14, is characterized in that, described judge module comprises:

21. devices according to claim 14, is characterized in that, described device also comprises:

22. devices according to claim 21, is characterized in that, the described determination module of wake-up time the earliest comprises:

23. devices according to claim 21, is characterized in that, described device also comprises:

24. devices according to claim 21, is characterized in that, described device also comprises:

25. devices according to claim 21, is characterized in that, self wake-up time computing module described comprises:

26. devices according to claim 14, is characterized in that, described device also comprises:

27. 1 kinds of routers, is characterized in that, comprising: processor; For the memory of storage of processor executable instruction; Wherein, described processor is configured to: