CN105511428A - Method for implementing real-time change of state of intelligent equipment, and intelligent equipment - Google Patents

Abstract

The invention relates to a method for implementing the real-time change of the state of intelligent equipment, and the intelligent equipment. The method comprises the steps: carrying out the repeated power-on and power-off operations of the intelligent equipment; Carrying out the statistics of the time of the power-on and power-off of the intelligent equipment at each time, wherein the time of the power-on and power-off of the intelligent equipment at each time meets a preset timing condition; determining the number of times of power-on and power-off operations executed previously during the power-on of the intelligent equipment at each time, and carrying out the corresponding operation according to the number of times of power-on and power-off operations. The invention also discloses the intelligent equipment which can achieve the real-time change of the state.

Description

Realize method and the smart machine of smart machine state real-time change

Technical field

The present invention relates to Smart Home field, particularly relate to the method realizing smart machine state real-time change and the smart machine that can realize state real-time change.

Background technology

For the smart machine in Smart Home field, changed or reach inside presetting condition, just can automatically complete some deliberate action by extraneous factor, this is a prerequisite function.Traditionally, smart machine is provided with button, by the long state changing smart machine by this button.But the state of smart machine only can be changed to only another state by this mode.In addition, for the equipment that some is not suitable for increasing button, this mode is and inapplicable.

Summary of the invention

According to an aspect of the present invention, a kind of method realizing smart machine state real-time change is provided.This method realizing smart machine state real-time change comprises: make smart machine power-on and power-off repeatedly; Time between each power-on and power-off of statistics smart machine, wherein, the time between each power-on and power-off meets Preset Time condition; When smart machine powers at every turn, determine previous executed power-on and power-off number of times, and make smart machine perform corresponding action according to previous executed power-on and power-off number of times.

According to another aspect of the present invention, provide a kind of smart machine, this smart machine comprises: counter, the number of times of these counters count smart machine power-on and power-off; Storer, this storer stores the number of times of smart machine power-on and power-off; Timer, this timer performs timing, and wherein, the time between each power-on and power-off meets Preset Time condition; And processor, this processor, when smart machine powers at every turn, determines previous executed power-on and power-off number of times, and makes smart machine perform corresponding action according to previous executed power-on and power-off number of times.

According to the disclosure, smart machine can change to different states according to concrete situation, thus realizes the real-time change of its state.

Accompanying drawing explanation

Below with reference to accompanying drawing, embodiments of the invention are described in detail, to make those of ordinary skill in the art clearly understand the present invention, wherein:

Fig. 1 shows the schematic diagram of the Star Network that smart machine according to an embodiment of the invention can access;

Fig. 2 shows the schematic diagram of the tree network that smart machine according to an embodiment of the invention can access;

Fig. 3 shows the schematic diagram of the wireless mesh network that smart machine according to an embodiment of the invention can access;

Fig. 4 shows the process flow diagram of the method realizing smart machine state real-time change according to an embodiment of the invention;

Fig. 5 shows the process flow diagram of the details of the method realizing smart machine state real-time change according to an embodiment of the invention;

Fig. 6 shows the process flow diagram of detection of power loss process according to an embodiment of the invention; And

Fig. 7 shows the structural representation of smart machine according to an embodiment of the invention.

Embodiment

The characteristic sum exemplary embodiment of various aspects of the present invention will be described in detail below.Description below covers many details, to provide complete understanding of the present invention.But, it will be apparent to one skilled in the art that the present invention can implement when not needing some details in these details.Below the description of embodiment is only used to by illustrating example of the present invention to provide to the clearer understanding of the present invention.Any concrete configuration that the present invention proposes below being never limited to, but cover correlated characteristic, structure, any amendment of operation, replacement and improvement under the premise of without departing from the spirit of the present invention.

First, the simple application scenarios introduced according to smart machine of the present disclosure below.More specifically, various network can be accessed according to smart machine of the present disclosure, such as, Star Network, tree network, wireless mesh network etc.Respectively Star Network, tree network and wireless mesh network are described referring to Fig. 1, Fig. 2 and Fig. 3.

Fig. 1 shows the schematic diagram of the Star Network 100 that smart machine according to an embodiment of the invention can access.Star Network is centerized fusion network.As shown in Figure 1, node A is the Centroid of this Star Network and as main controlled node, Node B, C, D, E, F, G are controlled node.Main controlled node A can directly control controlled node B, C, D, E, F, G, and controlled node B, C, D, E, F, G can perform corresponding actions according to the control of main controlled node A.In this Star Network 100, controlled node B, C, D, E, F, G status in a network can be identical, but they can receive identical or different steering order from main controlled node A, thus performs identical or different action.

Fig. 2 shows the schematic diagram of the tree network 200 that smart machine according to an embodiment of the invention can access.Tree network is the centerized fusion network of classification.As shown in Figure 2, node A is the Centroid of this tree network, can as main controlled node, and Node B, C are in different levels from node D, E, F, G.In one aspect, as shown in Figure 2, Node B, C can as controlled nodes relative to node A, and in another aspect, Node B, C can as main controlled nodes relative to next stage node D, E, F, G.Therefore, in fig. 2, main controlled node A can directly control Node B, C, and Node B, C can perform corresponding actions according to the control of main controlled node A.In addition, Node B, C can control node D, E and F, G respectively, and node D, E and F, G can perform corresponding actions according to the control of Node B, C respectively.It should be noted that in fig. 2, although node D, E, F, G are respectively by the control of Node B, C, they also can control by main controlled node A indirectly.

Fig. 3 shows the schematic diagram of the wireless mesh network that smart machine according to an embodiment of the invention can access.Wireless mesh network is a kind of wireless multi-hop network.As shown in Figure 3, node A is the Centroid of this wireless mesh network, can as main controlled node.Node B, C with G can directly communicate with main controlled node A, and thus, main controlled node A can directly Controlling vertex B, C and G; Node D, E can be communicated with main controlled node A by Node B, C with G indirectly with F, and thus, main controlled node A can Controlling vertex D, E and F indirectly.In addition, as shown in Figure 3, all nodes in this wireless mesh network can communicate directly or indirectly, and a node can be realized by more than one modes the control of another node, and when certain nodes break down, alternative route can be utilized realize control.Such as, for node E, main controlled node A can directly control this node via node C, or main controlled node A can via node G and F or G and C (A → G → F → E; A → G → C → E) carry out Controlling vertex E, or main controlled node A can come (A → G → C → B → D → E) via node G, C, B and D and carry out Controlling vertex E.Thus, even if node C breaks down, then main controlled node A can carry out Controlling vertex E by such as A → G → F → E.

Should be noted, above-mentioned Fig. 1-Fig. 3 is only Application Scenarios-Example of the present invention.Application scenarios of the present invention is not limited to the network topology structure shown in above-mentioned Fig. 1, Fig. 2 and Fig. 3, and access node number is also not limited to the number shown in Fig. 1, Fig. 2 and Fig. 3, and the present invention goes for any network of the interstitial content with any appropriate.In addition, can be implemented as the controlled node in above-mentioned Fig. 1 to Fig. 3 according to smart machine of the present disclosure.

The method of the real-time status conversion of smart machine and the smart machine of enable this real-time status conversion is realized according to of the present disclosure below by specifically describing.

Fig. 4 shows the process flow diagram of the method 400 realizing smart machine state real-time change according to an embodiment of the invention.As shown in Figure 4, the method 400 comprises: 401, to smart machine power-on and power-off repeatedly.

402, add up the time of each power-on and power-off, wherein, the time between each power-on and power-off need meet Preset Time condition.

403, when smart machine powers at every turn, determine previous executed power-on and power-off number of times, and make smart machine perform corresponding action according to this previous executed power-on and power-off number of times.

In the disclosure, first smart machine powers on, and then after meeting the time of Preset Time condition, electricity (that is, power down) under smart machine, so once powers on and lower electricity is called as power-on and power-off.Although should be understood that each power-on and power-off are to power on as elder generation in the disclosure, those of ordinary skill in the art should be understood that after smart machine powers on, and can electricity be also the number of times adding up each power-on and power-off first below.

In the disclosure, the time powered on smart machine to lower electricity from smart machine need meet Preset Time condition.An embodiment, Preset Time condition can be the time between each power-on and power-off be less than preset time threshold, such as, be less than T1 second.In another embodiment, Preset Time condition can be the time between each power-on and power-off be greater than preset time threshold, such as, be greater than T2 second.In another embodiment, Preset Time condition can be time between each power-on and power-off within the scope of preset time threshold, such as, between T3 second to T4 second.Although should be understood that and be employed herein T1-T4 to represent the time, this is only that example illustrates, and T1-T4 can be any time suitably arranged, and except T4 > T3, T1-T4 can be the same or different.

In the disclosure, smart machine, when powering at every turn, performs corresponding action according to previous executed power-on and power-off number of times.That is, different power-on and power-off number of times corresponds to different actions.Such as, power-on and power-off times N 1 corresponds to action A; Power-on and power-off times N 2 corresponds to action B ..., power-on and power-off times N n-1 corresponds to action C.Should be understood that as required, can programme to realize the various motion corresponding to multiple different number of times to smart machine.In one embodiment, the action that perform can be that smart machine exits network.Should be understood that " exitting network " can comprise the network and other situations exiting all various different topologys as shown in Figures 1 to 3.In another embodiment, the action that perform can be that smart machine replys factory set conditions.In yet another embodiment, when smart machine includes lighting device, the action that perform can be change the brightness of Intelligent lightening device, color or colour temperature etc.

In one embodiment, after corresponding action is performed, if presetting time not yet expired, then electricity under described smart machine, and power-on and power-off number of times increases progressively.

In one embodiment, described method can also be included in the supply voltage detecting smart machine during smart machine powers on, and after corresponding action is performed, if described supply voltage falls to lower than threshold voltage when not yet expiring when presetting, then described power-on and power-off number of times is not made to increase progressively when lower electricity at smart machine.

In one embodiment, described method also comprises: after corresponding action is performed, if presetting time expire, power-on and power-off number of times is restored to initial value.In one embodiment, initial value can be the minimum value of counter.

According to the above-mentioned method 400 realizing smart machine state real-time change, the state change of smart machine can be realized simply, in real time, and according to the difference of power-on and power-off number of times, smart machine can be made to perform different actions.

The detailed process of the method realizing smart machine state real-time change is described in the disclosure in further detail below with reference to Fig. 5.

Fig. 5 shows the process flow diagram realizing the method 500 of smart machine state real-time change according to an embodiment of the invention.As shown in Figure 5, the method 500 comprises step 501-515.Particularly, in step 501, smart machine is powered on.Should be understood that this step can be omitted when smart machine is in "on" position.

Next, in step 502, after smart machine powers on, read the Counter Value representing previous power-on and power-off number of times from storer.Should be understood that storer can be mutually integrated with smart machine, also can be connected with smart machine by modes such as wired or wireless connections.Afterwards, in step 503, start timer to start timing.

Next, in step 504-509, judge which preset value the Counter Value read equals, and perform the action corresponding with preset value according to judged result.Such as, as shown in Figure 5, first judge whether Counter Value equals the first preset value (N1) (step 504).In one embodiment, the first preset value N1 can be the initial value of counter, i.e. minimum value.If Counter Value equals the first preset value N1, then process proceeds to step 505, to perform corresponding actions A.If Counter Value is not equal to the first preset value N1, then process proceeds to step 506, to judge whether Counter Value equals the second preset value (N2).Similarly, if Counter Value equals the second preset value N2, then process proceeds to step 507, to perform corresponding actions B.If Counter Value is not equal to the second preset value, then process proceeds to step 508, to judge whether Counter Value equals the (n-1)th preset value (Nn-1).Equally similarly, if Counter Value equals the (n-1)th preset value Nn-1, then process proceeds to step 509, to perform corresponding actions C.

Hereinbefore, three preset values (N1, N2 and Nn-1) and corresponding action (A, B, C) are only described, it should be understood that, less or more predetermined threshold value and corresponding action can be set, to give the different ability that smart machine carries out state change according to actual needs.Should also be understood that these predetermined threshold value can be solidificated in the program of smart machine in advance, also can be pre-stored in storer, or also can be arranged smart machine in advance by modes such as communications by third party.Although should also be understood that to be above sequenced for the judgement of each preset value, also can perform for each preset value and parallelly to judge.

In one embodiment, the action (A, B, C) that perform can be that smart machine exits network or smart machine replys factory set conditions.In yet another embodiment, when smart machine includes lighting device, the action (A, B, C) that perform can be change the brightness of Intelligent lightening device, color or colour temperature etc.Such as, action A will make lighting device change into redness, and action B will make lighting device change into green, and action C will make lighting device change into blueness.

When after performing certain action or when being confirmed as all unequal with any preset value when Counter Value, process proceeds to step 510.In step 510, T when judging whether timer reaches presetting.T when if timer arrives presetting, then process proceeds to step 514.In step 514, Counter Value is returned to initial value.As mentioned above, in one embodiment, the initial value of counter can equal the first preset value N1.Then, in step 515, the initial value that counter recovers is updated to memory storage, and then process terminates.

On the other hand, as the T when step 510 judges that timer not yet reaches presetting, then process proceeds to step 511, now electricity under this smart machine, and following Counter Value in step 512 increases progressively 1 to represent that power-on and power-off are performed.Then in step 513, judge whether the Counter Value after increasing progressively reaches default maximum counter value Nn.If the Counter Value after increasing progressively equals Nn, then process proceeds to step 514 so that Counter Value is returned to initial value, and then process proceeds to step 515.If the Counter Value after increasing progressively not yet reaches maximum counter value Nn, then process is directly to step 515 so that this Counter Value is updated to storer.Then, process terminates.After should be understood that said process terminates, smart machine can be powered on to repeat said process again, thus performs corresponding action according to the Counter Value upgraded.

As mentioned above, according to said method 500, by controlling the condition of power supply of smart machine to smart machine power-on and power-off when power-on and power-off number of times meets particular requirement, make smart machine be switched to certain preset state repeatedly in special time, thus the change to the state of smart machine can be realized.

In said method 500, when not yet expiring when timer presetting, in step 511 smart machine by lower electricity, to complete power-on and power-off.

In other embodiments, now smart machine by lower electricity, but when the supply voltage of smart machine falls to during lower than predetermined threshold, can not represent that the Counter Value of power-on and power-off number of times directly increases progressively.Particularly, Fig. 6 shows the process flow diagram of detection of power loss process according to an embodiment of the invention.As shown in Figure 6, power on period and when timer arrives presetting before T, detect supply voltage and whether fall to lower than threshold voltage (step 601) at smart machine.If voltage supplied is fallen to lower than threshold voltage, then increase progressively 1 in step 602 Counter Value, and smart machine is not by lower electricity.Then, in step 603-605, carry out as step 513-515 in Fig. 5, then process can jump to step 502 in Fig. 5 to repeat above-mentioned flow process.According to the method provided in this embodiment, effectively can improve because smart machine capacitance is comparatively large that the power-on and power-off time is longer, thus cause triggering the slow shortcoming of switching state, thus in the quick power-on and power-off situation of equipment, also can carry out normal switching device state.

Described above is the method for the real-time status change realizing smart machine.The structure of the smart machine that can realize the change of this real-time status is described below.

Fig. 7 shows the structural representation of smart machine 700 according to an embodiment of the invention.As shown in Figure 7, smart machine 700 comprises:

Counter 701, the number of times of smart machine power-on and power-off added up by this counter 701;

Storer 702, this storer 702 stores the number of times of smart machine power-on and power-off;

Timer 703, timer 703 performs timing, and wherein, the time between each power-on and power-off meets presets timing condition; And

Processor 704, this processor 704, when smart machine powers at every turn, determines previous executed power-on and power-off number of times, and makes smart machine perform corresponding action according to previous executed power-on and power-off number of times.

In one embodiment, described default timing condition is selected from following item: the time be less than between preset time threshold, each power-on and power-off time between each power-on and power-off is greater than time between preset time threshold, each power-on and power-off within the scope of preset time threshold.

In one embodiment, make smart machine perform corresponding action to comprise enable described smart machine and perform one of following action: to exit network, factory reset state.

In one embodiment, smart machine comprises Intelligent lightening device, and wherein, make smart machine perform corresponding action comprise change this Intelligent lightening device brightness, color or colour temperature.

In one embodiment, after corresponding action is performed, if presetting time not yet expired, then electricity under smart machine, and power-on and power-off number of times increases progressively.

In yet another embodiment, smart machine can also comprise: detecting device (not shown), this detecting device detects the supply voltage of smart machine during smart machine powers on, and after corresponding action is performed, if detecting device detects that the supply voltage of smart machine falls to lower than threshold voltage when not yet expiring when presetting, the power-on and power-off number of times that then counter 701 is added up increases progressively, and smart machine is not by lower electricity.

In one embodiment, after corresponding action is performed, if described presetting time expire, the power-on and power-off number of times that counter 701 is added up is restored to initial value.

As mentioned above, can power-on and power-off be switched to certain preset state when power-on and power-off number of times meets particular requirement repeatedly in special time according to the smart machine 700 of the present embodiment, thus realize the change of the state of smart machine.

In embodiment described above, under smart machine, electrochronograph number device value is incremented and is updated to storer, that is, adds up power-on and power-off number of times with electricity under smart machine.But should be understood that in other embodiments, also can when device power count-up counter value, namely power on smart machine and add up power-on and power-off number of times, thus perform corresponding action according to added up Counter Value.

The method realizing smart machine state real-time change according to an embodiment of the invention can be implemented with software, firmware and/or hardware or its combination.In software and firmware implementation, method step can be implemented by the computer executable instructions be stored at least one non-transitory computer-readable medium or machine readable media (such as light, magnetic or semiconductor storage).

Can carry out self-recovery according to smart machine of the present invention or automatically complete some deliberate action, and the method for its state real-time change is also very simple, efficient, is highly suitable for low-cost equipment.

Although above increase progressively 1 with Counter Value exemplarily to come to be described disclosure embodiment, it should be understood that Counter Value can increase progressively with other any numerical value.

Above refer to " embodiment ", " other embodiments ", but should be understood that the feature mentioned in various embodiments might not be applied to this embodiment, but other embodiments may be used for or combinationally use with other embodiments.

Above refer to the ordinal number such as " first ", " second ", " (n-1)th ", but should be understood that these statements are only that the object limited can not exist the precedence relationship on order in order to the convenience described and quote.

With reference to specific embodiments of the invention, invention has been described above, but those skilled in the art all understand, implementation method mentioned herein is the present invention's statement, listed specific embodiment is only applicating example of the present invention, do not represent the present invention and be only limitted to this type of application example, and various amendment, combination and change can be carried out to these specific embodiments, and the spirit and scope of the present invention by claims or its equivalents can not be departed from.

Claims (14)

1. realize a method for smart machine state real-time change, described method comprises:

Make smart machine power-on and power-off repeatedly;

Time between each power-on and power-off of statistics smart machine, wherein, the time between each power-on and power-off meets presets timing condition;

When smart machine powers at every turn, determine the power-on and power-off number of times of previously oneself execution, and make smart machine perform corresponding action according to described previous executed power-on and power-off number of times.

2. method according to claim 1, wherein said default timing condition is selected from one in following item: the time be less than between preset time threshold, each power-on and power-off time between each power-on and power-off is greater than time between preset time threshold, each power-on and power-off within the scope of preset time threshold.

3. method according to claim 1, wherein makes smart machine perform corresponding action and comprises enable described smart machine and perform one of following action: exit network, factory reset state.

4. method according to claim 1, wherein said smart machine comprises Intelligent lightening device, makes smart machine perform corresponding action and comprises and change the brightness of this Intelligent lightening device, color or colour temperature.

5. method according to claim 1, also comprises:

After corresponding action is performed, in the unexpired situation of described presetting fashion, electric under making described smart machine, and described power-on and power-off number of times is increased progressively.

6. method according to claim 1, also comprises:

The supply voltage of described smart machine is detected during described smart machine powers on, after corresponding action is performed, when described presetting time not yet expire and described supply voltage falls to lower than threshold voltage, do not made described power-on and power-off number of times increase progressively when lower electricity at described smart machine.

7. method according to claim 1, also comprises: after corresponding action is performed, when described presetting time expire, described power-on and power-off number of times is returned to initial value.

8. a smart machine, comprising:

Counter, the number of times of smart machine power-on and power-off described in this counters count;

Storer, this storer stores the number of times of described smart machine power-on and power-off;

Timer, this timer performs timing, and wherein, the time between each power-on and power-off meets Preset Time condition; And

Processor, this processor, when smart machine powers at every turn, determines previous executed power-on and power-off number of times, and makes smart machine perform corresponding action according to described previous executed power-on and power-off number of times.

9. smart machine according to claim 8, wherein said Preset Time condition is selected from one in following item: the time be less than between preset time threshold, each power-on and power-off time between each power-on and power-off is greater than time between preset time threshold, each power-on and power-off within the scope of preset time threshold.

10. smart machine according to claim 8, wherein, makes smart machine perform corresponding action and comprises enable described smart machine and perform one of following action: exit network, factory reset state.

11. smart machines according to claim 8, wherein, described smart machine comprises Intelligent lightening device, and wherein, make smart machine perform corresponding action comprise change this Intelligent lightening device brightness, color or colour temperature.

12. smart machines according to claim 8, wherein, after corresponding action is performed, in the unexpired situation of described presetting fashion, electricity under described smart machine, and the power-on and power-off number of times that described counter is added up increases progressively.

13. smart machines according to claim 8, also comprise:

Detecting device, this detecting device detects the supply voltage of described smart machine during described smart machine powers on,

Wherein, after corresponding action is performed, when described presetting time not yet to expire and the supply voltage of detected described smart machine falls to lower than threshold voltage, described smart machine not the power-on and power-off number of times added up by counter described when lower electricity increase progressively.

14. smart machines according to claim 8, wherein, after corresponding action is performed, when described presetting time expire, the power-on and power-off number of times that described counter is added up is restored to initial value.