CN105049266A - Method for achieving network node control - Google Patents

Abstract

The invention relates to a method for achieving network node control. The method comprises the steps as follows: a master control node transmits the value of a first counter to a controlled node while the controlled node access in the network of the master control node, and the value of the first counter indicates the times that a preset movement is executed while the controlled node access in the network of the master control node; the controlled node receives the value of the first counter transmitted by the master control node; the master control node transmits the value of the counter updated according to the execution of the preset movement in a preset time interval; the controlled node receives the updated value of the counter transmitted by the master control node; the controlled node compares the received value of the first counter and the updated value of the counter so as to execute the corresponding movement according to the comparative result.

Description

Realize the method that network node controls

Technical field

The present invention relates in general to the communications field and Internet of Things field, and more specifically, relates to a kind of method realizing network node and control.

Background technology

For the product 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.But, traditionally, this function in many scenes not expectability complete.Such as, when after controlled node power-off, main controlled node performs release device (clear code) operation, controlled node now causes because of receiving corresponding message that main controlled node release device (clear code) operates cannot normal logout (by clear code), is difficult to again network after thus causing controlled node.In addition, each enterprise, in order to grab market, often considers the hardware of low cost in Smart Home product as far as possible, so how simply to complete deliberate action efficiently on this type of hardware resource, be the difficult problem of pendulum in face of numerous developers.

Summary of the invention

According to an aspect of the present invention, provide a kind of method realizing network node and control, the method comprises: the first Counter Value is being sent to controlled node when the network of controlled node access main controlled node by main controlled node, the first Counter Value instruction until the network of controlled node access main controlled node time the deliberate action number of times that is performed; Controlled node receives the first Counter Value sent from main controlled node; The Counter Value that main controlled node sends the execution according to deliberate action with predetermined time interval to controlled node and upgrades; Controlled node receives the Counter Value of the renewal sent from main controlled node; The Counter Value of the first Counter Value received and renewal compares by controlled node, and performs corresponding actions according to comparative result.

According to a further aspect in the invention, provide a kind of method realizing network node and control, the method comprises: the first Counter Value is being sent to controlled node when the network of controlled node access main controlled node by main controlled node, the first Counter Value instruction until the network of controlled node access main controlled node time the deliberate action number of times that is performed; The Counter Value that main controlled node sends the execution according to deliberate action with predetermined time interval to controlled node and upgrades, wherein the Counter Value of the first Counter Value received from main controlled node and renewal compares by controlled node, thus performs corresponding actions according to comparative result.

According to a further aspect in the invention, provide a kind of method realizing network node and control, the method comprises: controlled node receives the first Counter Value when accessing the network of main controlled node from main controlled node, wherein, the first Counter Value instruction until the network of controlled node access main controlled node time the deliberate action number of times that is performed; The Counter Value that controlled node receives the execution according to deliberate action with predetermined time interval from main controlled node and upgrades; And the Counter Value of the first Counter Value received from main controlled node and renewal compares by controlled node, thus perform corresponding actions according to comparative result.

Method proposed by the invention is simple, efficient, is thus particularly suitable for the equipment of low cost.In addition, method proposed by the invention can realize network node and control, and such as, makes network node carry out self-recovery or automatically complete some deliberate action, therefore has intelligentized feature.

Accompanying drawing explanation

In conjunction with the following drawings, the present invention may be better understood in description according to an embodiment of the invention, wherein:

Fig. 1 shows the schematic diagram that can realize Star Network of the present invention wherein according to an embodiment of the invention;

Fig. 2 shows the schematic diagram that can realize tree network of the present invention wherein according to an embodiment of the invention;

Fig. 3 shows the schematic diagram that can realize wireless mesh network of the present invention wherein according to an embodiment of the invention;

Fig. 4 shows the flow chart for realizing the method that network node controls according to an embodiment of the invention;

Fig. 5 show according to an embodiment of the invention in main controlled node side for realizing the flow chart of method that network node controls;

Fig. 6 show according to an embodiment of the invention in main controlled node side for realizing the flow chart of method that network node controls;

Fig. 7 show according to an embodiment of the invention in controlled node side for realizing the flow chart of method that network node controls; And

Fig. 8 show according to an embodiment of the invention in controlled node side for realizing the flow chart of method that network node controls.

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 any amendment of correlated characteristic, structure, operation etc., replacement and improvement under the premise of without departing from the spirit of the present invention.

The present invention is applicable to various network, such as, and 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 that can realize Star Network 100 of the present invention wherein according to an embodiment of the invention.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 control command from main controlled node A, thus performs identical or different action.

Fig. 2 shows the schematic diagram that can realize tree network 200 of the present invention wherein according to an embodiment of the invention.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 control by main controlled node A all indirectly.

Fig. 3 shows the schematic diagram that can realize wireless mesh network of the present invention wherein according to an embodiment of the invention.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.

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.

Fig. 4 shows the flow chart 400 for realizing the method that network node controls according to an embodiment of the invention.

As shown in Figure 4, the method 400 controlled for realizing network node can comprise the steps:

Step 401: the first Counter Value is being sent to controlled node when the network of controlled node access main controlled node by main controlled node, the first Counter Value instruction until the network of controlled node access main controlled node time the deliberate action number of times that is performed;

Step 402: controlled node receives the first Counter Value sent from main controlled node;

Step 403: the Counter Value that main controlled node sends the execution according to deliberate action with predetermined time interval to controlled node and upgrades;

Step 404: controlled node receives the Counter Value of the renewal sent from main controlled node;

Step 405: the Counter Value of the first Counter Value received and renewal compares by controlled node, thus perform corresponding actions according to comparative result.

In one embodiment, main controlled node can come to send to controlled node the Counter Value upgraded by sending the packet comprising the Counter Value of renewal to controlled node.

In one embodiment, the quantity of controlled node can be multiple, and wherein, main controlled node can send the Counter Value of the renewal be associated respectively to controlled node by mode of unicast.

In one embodiment, the quantity of controlled node can be multiple, and wherein, main controlled node can send the Counter Value of the renewal be associated to this multiple controlled node by broadcast mode.

In one embodiment, the quantity of controlled node can be multiple, and wherein, main controlled node can send the Counter Value of the renewal be associated to this multiple controlled node by multicast mode.

In one embodiment, deliberate action can comprise the network address of controlled release node and the operation of connection.

In one embodiment, deliberate action can comprise and controlled node powered on or the operation of power-off.

Method according to Fig. 4, can realize network node and control, such as, make network node carry out self-recovery or automatically complete some deliberate action.In addition, said method is simple, efficient, is thus particularly suitable for the equipment of low cost.

Illustrate in greater detail according to of the present invention for realizing the method that network node controls from main controlled node and controlled node side respectively below with reference to Fig. 5-Fig. 8.

Fig. 5 show according to an embodiment of the invention in main controlled node side for realizing the flow chart of method 500 that network node controls.

As shown in Figure 5, the method 500 controlled for realizing network node in main controlled node side according to an embodiment of the invention can comprise the steps:

Step 501: the first Counter Value is sent to described controlled node when accessing the network of described main controlled node when controlled node by main controlled node, described first Counter Value instruction is until number of times that when described controlled node accesses the network of described main controlled node, deliberate action is performed;

Step 502: the Counter Value that described main controlled node sends the execution according to deliberate action with predetermined time interval to described controlled node and upgrades.

So, because Counter Value when controlled node to be accessed the network of main controlled node by main controlled node and the Counter Value of renewal that sends with predetermined time interval are supplied to controlled node, controlled node can perform corresponding actions according to the comparative result of these Counter Values.

Below with reference to Fig. 6, the method controlled for realizing network node in main controlled node side is explained in more detail.

Fig. 6 show according to an embodiment of the invention in main controlled node side for realizing the flow chart of method 600 that network node controls.

As shown in Figure 6, in step 601, main controlled node powers on.In step 602, main controlled node obtains initial counter value, the number of times that before this initial counter value can indicate main controlled node power down last time, deliberate action is performed.In one embodiment, initial counter value can be stored in the storage device of main controlled node.In one embodiment, storage device can be nonvolatile storage medium, such as flash memory.In one embodiment, deliberate action can be the network address of controlled release node and the operation of connection, i.e. clear code operations.But those skilled in the art are envisioned that deliberate action herein can be any possible operation in Internet of Things, such as, the operation etc. of the operation that enabled devices powers on or enabled devices power-off.Should be understood that counter that Counter Value is counted can with main controlled node mutually integrated or and main controlled node independent mutually, and when deliberate action is performed, arithmetical operation is carried out to Counter Value, such as, makes Counter Value increasing or decreasing.

Next, in step 603, main controlled node starts timer, arranges timing T.Timer can be used for timing by main controlled node, to send the Counter Value upgraded subsequently to controlled node with predetermined time interval, hereafter will be described in detail this.Afterwards, method proceeds, once deliberate action is performed, Counter Value is just changed, and Counter Value is correspondingly updated to the memory of main controlled node, as shown in step 604-606.Certainly, if Non-precondition action is performed, Counter Value does not change and upgrades.Afterwards, when main controlled node finds the network of controlled node access main controlled node, namely the judgement of step 607 is the situation of "Yes", main controlled node is by the Counter Value during network of instruction controlled node access main controlled node, namely the first Counter Value N1, sends to controlled node, as shown by step 608.

Next, in step 609, main controlled node judges whether timing T expires.If timing T not yet expires, then main controlled node still carrys out update counter value according to the execution of deliberate action, and when timing T expires, in step 610 by the Counter Value of latest update, namely the second Counter Value N2, sends to controlled node.If main controlled node judges that timing T expires in step 609, then main controlled node is directly by the Counter Value of current latest update, and namely the second Counter Value N2, sends to controlled node.In one embodiment, Counter Value can be informed to controlled node by the packet that Counter Value is included in such as heartbeat data packets by main controlled node.In one embodiment, when the quantity of controlled node can be multiple, main controlled node can send by mode of unicast the Counter Value be associated respectively to controlled node.In one embodiment, when the quantity of controlled node can be multiple, main controlled node can send to this multiple controlled node the Counter Value be associated by broadcast mode.In one embodiment, when the quantity of controlled node can be multiple, main controlled node can send to this multiple controlled node the Counter Value be associated by multicast mode.

In one embodiment, during network due to different controlled nodes access main controlled node, the number of times that is performed of deliberate action may be different, and the first Counter Value therefore for different controlled nodes also can be different.In yet another embodiment, the second Counter Value for different controlled nodes can be different.Such as, in mode of unicast, main controlled node performs the release wherein network address of certain controlled node and the action of connection, so, the second Counter Value for this controlled node will change, and the second Counter Value of other controlled nodes may can not change.The situation of multicast and broadcast is similar to the situation of clean culture.

Next, in step 611, main controlled node resets timing T, for carrying out update counter value at following time interval according to the execution of deliberate action and to controlled node transmitting counter value.

Method according to Fig. 6, active node sends to controlled node to the Counter Value that deliberate action performs when controlled node being accessed the network of main controlled node, and send the Counter Value of latest update with predetermined time interval to controlled node, thus controlled node relatively takes corresponding action according to these Counter Values.In addition, as mentioned above, the Counter Value for the renewal of controlled node may not change compared with Counter Value before, and now controlled node does not then perform any action.

Fig. 7 show according to an embodiment of the invention in controlled node side for realizing the flow chart of method 700 that network node controls.

As shown in Figure 7, the method 700 controlled for realizing network node in controlled node side comprises the steps:

Step 701: controlled node receives the first Counter Value when accessing the network of described main controlled node from described main controlled node, wherein, described first Counter Value instruction is until number of times that when described controlled node accesses the network of described main controlled node, deliberate action is performed;

Step 702: the Counter Value that described controlled node receives the execution according to deliberate action with predetermined time interval from described main controlled node and upgrades; And

Step 703: the Counter Value of described first Counter Value received from described main controlled node and described renewal compares by described controlled node, thus perform corresponding actions according to comparative result.

So, controlled node is by the Counter Value that receives its number of times that instruction deliberate action is performed when accessing network of main controlled node from main controlled node and the Counter Value of latest update received at predetermined time interval interval, and controlled node relatively can take corresponding action according to these Counter Values.

Below with reference to Fig. 8, the method controlled for realizing network node in controlled node side is explained in more detail.

Fig. 8 show according to an embodiment of the invention in controlled node side for realizing the flow chart of method 800 that network node controls.

In step 801, controlled node powers on, and then the network of access main controlled node.In step 802, controlled node can receive the first Counter Value N1 of the number of times that instruction deliberate action that main controlled node now sends is performed after power-up.In one embodiment, this first Counter Value N1 can be saved in the storage device of controlled node self.In one embodiment, this first Counter Value N1 also can be stored in the independently storage device be separated with controlled node.

Afterwards, in step 803, controlled node receives the Counter Value of the renewal sent from main controlled node with predetermined time interval, i.e. the second Counter Value N2.Same, this second Counter Value N2 also can be saved in the storage device of controlled node self, or is stored in the independently storage device that is separated with controlled node.Should be understood that what the second Counter Value N2 was always updated at different time interval.

Then, in step 804, the Counter Value N1 of reception and Counter Value N2 compares by controlled node, thus performs corresponding actions according to comparative result.

In one embodiment, if Counter Value N1 is equal with Counter Value N2, then controlled node performs the first action, otherwise controlled node performs the second action, respectively as shown in step 805 and 806.In one embodiment, the first action can be that controlled node does not perform any action.In one embodiment, the second action can be the network that controlled node exits main controlled node.In another embodiment, the second action can be that controlled node exits the network of main controlled node and factory reset.In yet another embodiment, second action can be that controlled node changes its mode of operation, such as when controlled node be LED and so on lighting device or containing such lighting device time, lighting device now can switch its illuminating color or adjust its brightness of illumination.

In one embodiment, controlled node can also perform different actions according to the Counter Value N1 received from the difference size of Counter Value N2.In the example of LED as mentioned above, if when difference is in the first difference range, then LED can be switched to the first color, such as, red, and when difference is in the second difference range, LED can be switched to the second color, such as, green.However, it should be understood that and more scope can be set for difference, so that such as regulate color and the brightness of such as lighting device more subtly.

So, controlled node is by the Counter Value that receives its number of times that instruction deliberate action is performed when accessing network of main controlled node from main controlled node and the Counter Value of latest update received at predetermined time interval interval, and controlled node relatively can take corresponding action according to these Counter Values.It should be noted that in fact the predetermined time interval of the Counter Value that controlled node reception upgrades depends on main controlled node sends predetermined time interval from the Counter Value upgraded to controlled node.Should be understood that this predetermined time interval is not particularly limited, but those of ordinary skill in the art instruction according to the present invention can arrange suitable specific predetermined time interval.

As mentioned above, describe according to of the present invention for realizing the method that network node controls.According to invention of the present invention, network node can be made to carry out self-recovery or automatically complete some deliberate action.In addition, method proposed by the invention is simple, efficient, is thus particularly suitable for the equipment of low cost.Should be understood that in superincumbent explanation, the network of main controlled node " controlled node access " can comprise networking and networking and other situations.

Above refer to " embodiment ", 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 ", but should be understood that these statements are only that the object limited does 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 (15)

1. realize the method that network node controls, described method comprises:

First Counter Value is sent to described controlled node when accessing the network of described main controlled node when controlled node by main controlled node, and described first Counter Value instruction is until number of times that when described controlled node accesses the network of described main controlled node, deliberate action is performed;

Described controlled node receives described first Counter Value sent from described main controlled node;

The Counter Value that described main controlled node sends the execution according to described deliberate action with predetermined time interval to described controlled node and upgrades;

Described controlled node receives the Counter Value of the described renewal sent from described main controlled node;

The Counter Value of described first Counter Value received and described renewal compares by described controlled node, thus performs corresponding actions according to comparative result.

2. the method for claim 1, wherein described main controlled node to send the Counter Value of described renewal to described controlled node by sending the packet comprising the Counter Value of described renewal to described controlled node.

3. the method for claim 1, wherein, the quantity of described controlled node is multiple, and wherein, described main controlled node in the following way in a kind of mode send the Counter Value of the renewal be associated to described controlled node: mode of unicast, multicast mode or broadcast mode.

4. the method for claim 1, wherein described deliberate action comprises and discharges the network address of described controlled node and the operation of connection.

5. the method for claim 1, wherein described deliberate action comprises and described controlled plant is powered on or the operation of power-off.

6. realize the method that network node controls, described method comprises:

First Counter Value is sent to described controlled node when accessing the network of described main controlled node when controlled node by main controlled node, and described first Counter Value instruction is until number of times that when described controlled node accesses the network of described main controlled node, deliberate action is performed;

The Counter Value that described main controlled node sends the execution according to deliberate action with predetermined time interval to described controlled node and upgrades,

The Counter Value of described first Counter Value received from described main controlled node and renewal compares by wherein said controlled node, thus performs corresponding actions according to comparative result.

7. method as claimed in claim 6, wherein, described main controlled node to send the Counter Value of described renewal to described controlled node by sending the packet comprising the Counter Value of described renewal to described controlled node.

8. method as claimed in claim 6, wherein, the quantity of described controlled node is multiple, and wherein, described main controlled node in the following way in a kind of mode send the Counter Value of the renewal be associated to described controlled node: mode of unicast, multicast mode or broadcast mode.

9. method as claimed in claim 6, wherein, described deliberate action comprises and discharges the network address of described controlled node and the operation of connection.

10. method as claimed in claim 6, wherein, described deliberate action comprises makes described controlled node power on or the operation of power-off.

11. 1 kinds of methods realizing network node and control, described method comprises:

Controlled node receives the first Counter Value when accessing the network of described main controlled node from described main controlled node, and wherein, described first Counter Value instruction is until number of times that when described controlled node accesses the network of described main controlled node, deliberate action is performed;

The Counter Value that described controlled node receives the execution according to deliberate action with predetermined time interval from described main controlled node and upgrades; And

The Counter Value of described first Counter Value received from described main controlled node and described renewal compares by described controlled node, thus performs corresponding actions according to comparative result.

12. methods as claimed in claim 11, wherein, described controlled node receives the Counter Value of described renewal by the packet comprising the Counter Value of described renewal sent from described main controlled node.

13. methods as claimed in claim 11, wherein, described controlled node is one of multiple controlled node, and wherein, the Counter Value of described renewal be in the following manner in a kind of mode send to described controlled node from described main controlled node: mode of unicast, multicast mode or broadcast mode.

14. methods as claimed in claim 11, wherein, described deliberate action comprises and discharges the network address of described controlled node and the operation of connection.

15. methods as claimed in claim 11, wherein, described deliberate action comprises makes described controlled plant power on or the operation of power-off.