CN105634766A - Network control management method and network control management device - Google Patents

Abstract

The invention discloses a network control management method and a network control management device, wherein the network control management method comprises the steps of loading an abstract management layer on connecting equipment which simultaneously supports a low-speed network interface and a high-speed network interface, wherein the abstract management layer is below the third layer of an open system interconnecting OSI seven-layer network reference model of the high-speed network and above a second medium accessing layer MAC, and furthermore the abstract management layer is above the management plane of the low-speed network; and performing control management on the low-speed network by the abstract management layer through the management plane of the low-speed network. The network control management method and the network control management device settle a problem of incapability of effectively fusing the high-speed network and the low-speed network and realizing unified management and resource saving in related technology. Furthermore the network control management method and the network control management device realize effective fusion between the high-speed network and the low-speed network and realize effects of unified management for the low-speed network and the high-speed network and saving resource.

Description

Network control management method and device

Technical field

The present invention relates to the communications field, in particular to a kind of network control management method and device.

Background technology

Indoor networking is just being marched toward wire/wireless, at a high speed/mixed on low speed network construction form. Answering the networking requirement of user's diversification, the tissue such as IEEE and ITU has issued the wireless technology standard such as the cable technology standards such as IEEE1901, G.hn, and 802.11ah, to carry data, and all kinds of low-speed applications such as high-speed applications and Smart Home such as audio frequency and video. Is so problem come: how unified management indoor high-speed network and slow network?

Ieee standardization tissue is formulating new P1905.1 standard, the medium that this standard is home network provides a level of abstraction, Fig. 1 is the protocol hierarchy schematic diagram of IEEEP1905.1 level of abstraction in correlation technique, as shown in Figure 1, this level of abstraction is positioned on all kinds of high speed MAC/PHY layer, below LLC layer, home network medium such as IEEEP1901 for isomery, IEEE802.11, IEEE802.3 and MoCA1.1 provides the Service Access Point (ServiceAccessPoint of a general control and data plane, referred to as SAP), by this level of abstraction, high-level network management can be carried out. such as, when subscriber equipment is connected to the link supporting different technologies, it is no longer necessary to input different passwords, it is only necessary to click button simply. IEEEP1905.1 can complete equipment and find and configuration, can set up secure connection, and provide the Network Management Function of some other advanced person. this level of abstraction takes out operation information concrete in detail also for each the link being currently in use, and converges the data by different link transmit-receives, thus achieving the seamless connection of various interconnection technique in home network.

IEEEP1905.1 provides a lot of key functions, has a lot of advantage, can be used to realize home network of future generation, as follows:

1) ease for use: as a kind of technology satisfied the needs of consumers, it is essential, network configuration and use are transparent to consumer. IEEEP1905.1 be network increase equipment, set up safety chain and intelligently management network provide general configuration method.

2) congestion management: holding load balanced and can limiting network congested, it is ensured that the reliability of network and the quality of content.

3) safety: operator wishes solid and reliable security mechanism, simultaneously in order to avoid too much is visited or telephone service after sale, this kind of security mechanism must enough simply promote ease for use. Equipment clicks button and just can configure, it is to avoid input password this kind of complex operations.

4) realize higher reliability with diagnosing by monitoring: be provided that consistent diagnosis, additionally, operator can also remote control network, repair possible damage in advance, to prevent Consumer's Experience to be affected.

5) self-service installation: a new generation's home network must support simple installation, discovery and self-service configuration.

6) general interconnection: new generation network to realize the transparency thoroughly, it is necessary to make user any one room from family to be connected on network, and user needs not know about them by any interface communication. Additionally, from a room (and interface) transfer to another room (and interface) time, link switching must be seamless.

IEEEP1905.1 provides a kind of effective technology, conscientiously to solve the realistic problem existed in the home network of today, only solves these problems, and operator could dispose hybrid network surely.

(Fig. 2 is Zigbee network protocol hierarchy figure in correlation technique to Zigbee, as shown in Figure 2), the low speed short distance low power consumption network such as Zwave, RF is generally adopted non-IP technology, the feature of this kind of network is the protocol hierarchy close coupling such as PHY/MAC/NETWORK/APPLICATION, and agreement is usually in the MCU of the equipment of being loaded into and processes, this kind of MCU resource is less, RAM is from a few k��tens k sizes, frame format is also adopted by each self-defining short frame, and MAC Address and traditional ethernet mac also differ. For this quasi-protocol, it cannot be carried out unified management by P1905.1 in the hierarchical structure of standard definition.

For low speed short distance low power consumption network, generally can building management system in Internet or application layer, this needs definition Server, Client, MIB and relevant interaction protocol, compares IEEEP1905.1 more complex, also takies more software and hardware resources.

Therefore, in existing correlation technique, express network and slow network can not effective integration, accomplish unified management, resource intensive.

Summary of the invention

The invention provides a kind of network control management method and device, at least to solve in correlation technique, express network and slow network can not effective integration, accomplish unified management, the problem of resource intensive.

According to an aspect of the present invention, provide a kind of network control management method, including: support at the same time the connection equipment of slow network interface and high speed network interfaces loads abstract management level, wherein, described abstract management level are positioned under the Open System Interconnection OSI seven layer network reference model third layer of described express network, on second layer Medium Access Layer MAC, it is positioned on the management plane of described slow network simultaneously; The described abstract management level management plane by described slow network, is controlled management to described slow network.

Preferably, the described abstract management level management plane by described slow network, has carried out control management to described slow network and has included: described abstract management level are to the network topology structure inquiry request message of described slow network management plane sending node information and/or described slow network; Described abstract management level receive the nodal information of described slow network management plane return and/or the network topology structure of described slow network.

Preferably, the described abstract management level management plane by described slow network, described slow network is carried out control management and has included: described abstract management level have sent the node battery information for inquiring about the first destined node to described slow network management plane; When described battery electric quantity is lower than predetermined threshold, receive the battery alarm information of described first destined node that described slow network management platform reports.

Preferably, the described abstract management level management plane by described slow network, described slow network is carried out control management and has included: the power save mode that described abstract management level send the second destined node to described slow network management plane has changed order; Described abstract management level receive the operating result after described slow network management plane changes from the described node state that described second destined node receives.

Preferably, at the described abstract management level management plane by described slow network, described slow network has been carried out control management after, also include: described abstract management level by described slow network is controlled management after obtain control result be adapted to the data form unified with described express network; Described abstract management level by the high speed after collecting, slow network data are unified reports upper layer entity.

Preferably, described slow network includes at least one of: Zigbee network, Zwave network, radio frequency network, visible light communication network, blueteeth network.

According to a further aspect in the invention, provide a kind of network control managing device, including: load-on module, abstract management level are loaded on the connection equipment support at the same time slow network interface and high speed network interfaces, wherein, described abstract management level are positioned under the Open System Interconnection OSI seven layer network reference model third layer of described express network, on second layer Medium Access Layer MAC, are positioned on the management plane of described slow network simultaneously; Control module, be applied to described abstract management level, for by the management plane of described slow network, described slow network being controlled management.

Preferably, described control module includes: the first sending module, is used for the network topology structure inquiry request message to described slow network management plane sending node information and/or described slow network; First receiver module, the network topology structure of nodal information and/or described slow network for receiving the return of described slow network management plane.

Preferably, described control module includes: the second sending module, for sending the node battery information for inquiring about the first destined node to described slow network management plane; Second receiver module, for when described battery electric quantity is lower than predetermined threshold, receiving the battery alarm information of described first destined node that described low strap network management platform reports.

Preferably, described control module includes: the 3rd sending module, and the power save mode for sending the second destined node to described slow network management plane changes order; 3rd receiver module, for receiving the operating result after described slow network management plane changes from the described node state that described second destined node receives.

Preferably, this device also includes: adaptation module, is applied to described abstract management level, for by described slow network is controlled management after obtain control result be adapted to the data form unified with described express network; Reporting module, is used for being applied to described abstract management level, for by the high speed after collecting, slow network data are unified reports upper layer entity.

Preferably, described slow network includes at least one of: Zigbee network, Zwave network, radio frequency network, visible light communication network, blueteeth network.

Pass through the present invention, adopt and the connection equipment supporting slow network interface and high speed network interfaces at the same time loads abstract management level, wherein, described abstract management level are positioned under the Open System Interconnection OSI seven layer network reference model third layer of described express network, on second layer Medium Access Layer MAC, it is positioned on the management plane of described slow network simultaneously; The described abstract management level management plane by described slow network, described slow network is controlled management, solve in correlation technique, express network and slow network can not effective integrations, accomplish unified management, the problem of resource intensive, and then reached the effective integration of express network and slow network, realize the unified management to slow network and express network, the effect of resource intensive.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the part of the application, and the schematic description and description of the present invention is used for explaining the present invention, is not intended that inappropriate limitation of the present invention. In the accompanying drawings:

Fig. 1 is the protocol hierarchy schematic diagram of IEEEP1905.1 level of abstraction in correlation technique;

Fig. 2 is Zigbee network protocol hierarchy figure in correlation technique;

Fig. 3 is the flow chart of network control management method according to embodiments of the present invention;

Fig. 4 is the structured flowchart of network control managing device according to embodiments of the present invention;

Fig. 5 is the preferred structure block diagram one controlling module 44 in network control managing device according to embodiments of the present invention;

Fig. 6 is the preferred structure block diagram two controlling module 44 in network control managing device according to embodiments of the present invention;

Fig. 7 is the preferred structure block diagram three controlling module 44 in network control managing device according to embodiments of the present invention;

Fig. 8 is the preferred structure block diagram of network control managing device according to embodiments of the present invention;

Fig. 9 is the hierarchical chart merged with slow network at a high speed according to embodiments of the present invention;

Figure 10 is the flow chart of the query script of high speed according to embodiments of the present invention and slow network fusion;

Figure 11 is the flow chart of the battery alarm of high speed according to embodiments of the present invention and slow network fusion;

Figure 12 is the flow chart of the administration of energy conservation of high speed according to embodiments of the present invention and slow network fusion;

Figure 13 is the network architecture schematic diagram merged with slow network at a high speed according to the preferred embodiment of the present invention.

Detailed description of the invention

Below with reference to accompanying drawing and describe the present invention in detail in conjunction with the embodiments. It should be noted that when not conflicting, the embodiment in the application and the feature in embodiment can be mutually combined.

Providing a kind of network control management method in the present embodiment, Fig. 3 is the flow chart of network control management method according to embodiments of the present invention, as it is shown on figure 3, this flow process comprises the steps:

Step S302, support at the same time the connection equipment of slow network interface and high speed network interfaces loads abstract management level, wherein, abstract management level are positioned under the Open System Interconnection OSI seven layer network reference model third layer of express network, on second layer Medium Access Layer MAC, it is positioned on the management plane of slow network simultaneously;

Step S304, the abstract management level management plane by slow network, slow network is controlled management.

Pass through above-mentioned steps, by supporting the connection equipment of slow network interface and high speed network interfaces loads abstract management level at the same time, wherein, abstract management level are positioned under the Open System Interconnection OSI seven layer network reference model third layer of express network, on second layer Medium Access Layer MAC, it is positioned on the management plane of slow network simultaneously, solve in correlation technique, express network and slow network can not effective integrations, accomplish unified management, the problem of resource intensive, and then reached the effective integration of express network and slow network, realize the unified management to slow network and express network, the effect of resource intensive.

Preferably, the abstract management level management plane by slow network, slow network is carried out control management and can include multiple, illustrated separately below.

Such as, abstract management level can to the network topology structure inquiry request message of slow network management plane sending node information and/or slow network; Afterwards, this slow network management plane corresponding inquiry request message is sent to affiliated node; Abstract management level receive the nodal information of slow network management plane return and/or the network topology structure of slow network.

Again such as, abstract management level can also send the node battery information for inquiring about the first destined node to slow network management plane; When battery electric quantity is lower than predetermined threshold, receive the battery alarm information of the first destined node that low strap network management platform reports.

Further for example, abstract management level can also send the power save mode change order of the second destined node to slow network management plane; Abstract management level receive the operating result after slow network management plane changes from the node state that the second destined node receives.

Preferably, at the abstract management level management plane by slow network, slow network has been carried out control management after, also include: abstract management level by slow network is controlled management after obtain the data form that control result is adapted to and express network is unified; Abstract management level by the high speed after collecting, slow network data are unified reports upper layer entity.

It should be noted that above-mentioned slow network can include multiple, for instance, it is possible to at least one of: Zigbee network, Zwave network, radio frequency network, visible light communication network, blueteeth network.

Additionally providing a kind of network control managing device in the present embodiment, this device is used for realizing above-described embodiment and preferred implementation, has be carried out repeating no more of explanation. As used below, term " module " can realize the software of predetermined function and/or the combination of hardware. Although the device described by following example preferably realizes with software, but hardware, or the realization of the combination of software and hardware is also likely to and is contemplated.

Fig. 4 is the structured flowchart of network control managing device according to embodiments of the present invention, and as shown in Figure 4, this device includes load-on module 42 and controls module 44, below this device is illustrated.

Load-on module 42, abstract management level are loaded on the connection equipment support at the same time slow network interface and high speed network interfaces, wherein, abstract management level are positioned under the Open System Interconnection OSI seven layer network reference model third layer of express network, on second layer Medium Access Layer MAC, it is positioned on the management plane of slow network simultaneously; Control module 44, be applied to abstract management level, be connected to above-mentioned load-on module 42, for by the management plane of slow network, slow network being controlled management.

Fig. 5 is the preferred structure block diagram one controlling module 44 in network control managing device according to embodiments of the present invention, as it is shown in figure 5, this control module 44 includes: the first sending module 52 and the first receiver module 54, below this control module 44 is illustrated.

First sending module 52, is used for the network topology structure inquiry request message to slow network management plane sending node information and/or slow network; First receiver module 54, is connected to above-mentioned first sending module 52, the network topology structure of nodal information and/or slow network for receiving the return of slow network management plane.

Fig. 6 is the preferred structure block diagram two controlling module 44 in network control managing device according to embodiments of the present invention, and as shown in Figure 6, this control module 44 includes: the second sending module 62 and the second receiver module 64, below this control module 44 is illustrated.

Second sending module 62, for sending the node battery information for inquiring about the first destined node to slow network management plane; Second receiver module 64, is connected to above-mentioned second sending module 62, for when battery electric quantity is lower than predetermined threshold, receiving the battery alarm information of the first destined node that low strap network management platform reports.

Fig. 7 is the preferred structure block diagram three controlling module 44 in network control managing device according to embodiments of the present invention, as it is shown in fig. 7, this control module 44 includes: the 3rd sending module 72 and the 3rd receiver module 74, below this control module 44 is illustrated.

3rd sending module 72, the power save mode for sending the second destined node to slow network management plane changes order; 3rd receiver module 74, is connected to above-mentioned 3rd sending module 72, for receiving the operating result after slow network management plane changes from the node state that the second destined node receives.

Fig. 8 is the preferred structure block diagram of network control managing device according to embodiments of the present invention, and as shown in Figure 8, this device, except including all modules shown in Fig. 4, also includes: adaptation module 82 and reporting module 84, below this device is illustrated.

Adaptation module 82, is connected to above-mentioned control module 44, is applied to abstract management level, for by slow network is controlled management after obtain the data form that control result is adapted to and express network is unified; Reporting module 84, is connected to above-mentioned adaptation module 82, is used for being applied to abstract management level, for by the high speed after collecting, slow network data are unified reports upper layer entity.

Preferably, above-mentioned slow network can include multiple, for instance, it is possible to include at least one of: Zigbee network, Zwave network, radio frequency network, visible light communication network, blueteeth network.

For the problems referred to above in correlation technique, in the present embodiment, provide a kind of high speed and the scheme of mixed on low speed network unified management, Fig. 9 is the hierarchical chart merged with slow network at a high speed according to embodiments of the present invention, as it is shown in figure 9, support at the same time to load abstract management level on the connection equipment of slow network interface and high speed network interfaces, these abstract management level are positioned under the tcp/ip layer of all kinds of express network, on MAC/PHY layer, it is positioned on the management plane of slow network simultaneously; Abstract management level access the management plane of slow network, to parameter enforcement management such as the node essential information in slow network, battery information, topology status, power save modes.

Figure 10 is the flow chart of the query script of high speed according to embodiments of the present invention and slow network fusion, and as shown in Figure 10, this flow process comprises the steps:

Step S1002, abstract management level are to slow network management plane sending node information/topological structure inquiry request message;

Step S1004, slow network management plane is to the topological structure of abstract management level return node information and slow network, and nodal information is specifically including but not limited to physical address, launches signal/received signal strength, MAC Address, neighbor node etc.

Figure 11 is the flow chart of the battery alarm of high speed according to embodiments of the present invention and slow network fusion, and as shown in figure 11, this flow process comprises the steps:

Step S1102, the battery electric quantity of low speed node sends battery alarm message to slow network management plane when setting threshold value lower than certain;

Step S1104, slow network management plane sends battery alarm information to abstract management level, and user can change battery after receiving alarm by hand.

Figure 12 is the flow chart of the administration of energy conservation of high speed according to embodiments of the present invention and slow network fusion, and as shown in figure 12, this flow process comprises the steps:

Step S1202, abstract management level change order to slow network management plane sending node power save mode;

Step S1204, slow network management plane changes order to slow network node sending node power save mode;

Step S1206, slow network node sends operating result to slow network management plane;

Step S1208, slow network management plane returns operating result to abstract management level, abstract management level by adaptive for the management parameters of acquisition/be converted to unified data form; After aforesaid operations, abstract management level are the unified information reporting hybrid network to upper strata, or interacts with the abstract management level of miscellaneous equipment.

Illustrate below in conjunction with detailed description of the invention.

Figure 13 is the network architecture schematic diagram merged with slow network at a high speed according to the preferred embodiment of the present invention, as shown in figure 13, Zigbee gateway includes Zigbee interface, WiFi interface, Ethernet interface, the gateway the superiors process Zigbee Frame, undertake the function of data conversion between Zigbee network and WiFi/ Ethernet, specifically include Zigbee Frame and be encapsulated as TCP/IP/MAC frame and decapsulation;

Abstract management level access the management plane of Zigbee network;

Abstract management level inquire about the nodal information of Zigbee network to Zigbee management plane, and Zigbee management plane returns the nodal information of network;

Abstract management level inquire about Zigbee network topology to Zigbee management plane, and Zigbee management plane returns network topology data;

Abstract management level inquire about the battery information of Zigbee node to Zigbee management plane, and Zigbee management plane returns battery information, and Zigbee node such as battery electric quantity is too low, and Zigbee management plane reports battery alarm to abstract management level;

Abstract management level change order to Zigbee management plane sending node power save mode, Zigbee management plane changes order to Zigbee node sending node power save mode, Zigbee node sends operating result to slow network management plane, and Zigbee management plane returns operating result to abstract management level;

The node parameter that abstract management level will obtain, topological structure, node battery information, the information such as power save mode is adapted to the data form unified with express network;

Abstract management level collect at a high speed, slow network data are unified reports main process equipment.

Obviously, those skilled in the art should be understood that, each module of the above-mentioned present invention or each step can realize with general calculation element, they can concentrate on single calculation element, or it is distributed on the network that multiple calculation element forms, alternatively, they can realize with the executable program code of calculation element, thus, can be stored in storage device is performed by calculation element, and in some cases, shown or described step can be performed with the order being different from herein, or they are fabricated to respectively each integrated circuit modules, or the multiple modules in them or step are fabricated to single integrated circuit module realize. so, the present invention is not restricted to the combination of any specific hardware and software.

These are only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations. All within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within protection scope of the present invention.

Claims (12)

1. a network control management method, it is characterised in that including:

Support at the same time the connection equipment of slow network interface and high speed network interfaces loads abstract management level, wherein, described abstract management level are positioned under the Open System Interconnection OSI seven layer network reference model third layer of described express network, on second layer Medium Access Layer MAC, it is positioned on the management plane of described slow network simultaneously;

The described abstract management level management plane by described slow network, is controlled management to described slow network.

2. method according to claim 1, it is characterised in that the described abstract management level management plane by described slow network, has carried out control management to described slow network and has included:

Described abstract management level are to the network topology structure inquiry request message of described slow network management plane sending node information and/or described slow network;

Described abstract management level receive the nodal information of described slow network management plane return and/or the network topology structure of described slow network.

3. method according to claim 1, it is characterised in that the described abstract management level management plane by described slow network, has carried out control management to described slow network and has included:

Described abstract management level send the node battery information for inquiring about the first destined node to described slow network management plane;

When described battery electric quantity is lower than predetermined threshold, receive the battery alarm information of described first destined node that described slow network management platform reports.

4. method according to claim 1, it is characterised in that the described abstract management level management plane by described slow network, has carried out control management to described slow network and has included:

The power save mode that described abstract management level send the second destined node to described slow network management plane changes order;

Described abstract management level receive the operating result after described slow network management plane changes from the described node state that described second destined node receives.

5. method according to claim 1, it is characterised in that at the described abstract management level management plane by described slow network, after having carried out described slow network controlling management, also includes:

Described abstract management level by described slow network is controlled management after obtain control result be adapted to the data form unified with described express network;

Described abstract management level by the high speed after collecting, slow network data are unified reports upper layer entity.

6. method according to any one of claim 1 to 5, it is characterised in that described slow network includes at least one of:

Zigbee network, Zwave network, radio frequency network, visible light communication network, blueteeth network.

7. a network control managing device, it is characterised in that including:

Load-on module, abstract management level are loaded on the connection equipment support at the same time slow network interface and high speed network interfaces, wherein, described abstract management level are positioned under the Open System Interconnection OSI seven layer network reference model third layer of described express network, on second layer Medium Access Layer MAC, it is positioned on the management plane of described slow network simultaneously;

Control module, be applied to described abstract management level, for by the management plane of described slow network, described slow network being controlled management.

8. device according to claim 7, it is characterised in that described control module includes:

First sending module, is used for the network topology structure inquiry request message to described slow network management plane sending node information and/or described slow network;

First receiver module, the network topology structure of nodal information and/or described slow network for receiving the return of described slow network management plane.

9. device according to claim 7, it is characterised in that described control module includes:

Second sending module, for sending the node battery information for inquiring about the first destined node to described slow network management plane;

Second receiver module, for when described battery electric quantity is lower than predetermined threshold, receiving the battery alarm information of described first destined node that described low strap network management platform reports.

10. device according to claim 7, it is characterised in that described control module includes:

3rd sending module, the power save mode for sending the second destined node to described slow network management plane changes order;

3rd receiver module, for receiving the operating result after described slow network management plane changes from the described node state that described second destined node receives.

11. device according to claim 7, it is characterised in that also include:

Adaptation module, is applied to described abstract management level, for by described slow network is controlled management after obtain control result be adapted to the data form unified with described express network;

Reporting module, is used for being applied to described abstract management level, for by the high speed after collecting, slow network data are unified reports upper layer entity.

12. the device according to any one of claim 7 to 11, it is characterised in that described slow network includes at least one of:

Zigbee network, Zwave network, radio frequency network, visible light communication network, blueteeth network.