CN101854672A - Service platform subsystem, information interaction system and information interaction method - Google Patents

Abstract

The invention discloses a service platform subsystem, an information interaction system and an information interaction method. The information interaction system comprises a sensing network subsystem and the service platform subsystem, wherein the sensing network subsystem comprises first node equipment; the service platform subsystem comprises a receiving unit, a processing unit and a transmitting unit; the receiving unit is used for receiving a first working parameter value of the first node equipment; the processing unit is used for calculating a second working parameter value of second node equipment associated with the first node equipment according to the first working parameter value; and the transmitting unit is used for transmitting the first working parameter value and the second working parameter value to the first node equipment and the second node equipment of the sensing network subsystem respectively, and the first node equipment and the second node equipment adjust respective working parameters respectively. The technical scheme of the invention can realize energy balance of the node equipment, and fulfill the purposes of environmental protection and energy conservation.

Description

A kind of service platform subsystem, information interaction system and information interacting method

Technical field

The present invention relates generally to sensing net field, is meant a kind of service platform subsystem, information interaction system and information interacting method especially.

Background technology

In various objects such as the electrical network that proposes inductor is embedded and is provided to global every nook and cranny in the world, railway, bridge, tunnel, highway, and generally connected, formed so-called " Internet of Things ".Then by supercomputer and " cloud computing integrates " Internet of Things "; make and human manage production and live in meticulousr and dynamic mode; thus reach global " wisdom " state, in the whole nation and even global range, started the research boom of " Internet of Things ".At present consistently think that the framework of Internet of Things comprises: application layer, data mining, calculating decision-making, network/Access Layer, merge that access, information stores, sensing layer, intelligence embed, sign perception and collaborative interaction etc., and the key technology of Internet of Things comprises that object identification, architectural framework, communication and network, safety and privacy, service discovery and search, software and hardware, energy obtain and storage, the miniature miniaturization of equipment, standard or the like.Its typical case uses and is mainly Smart Home, medical treatment, logistics, agricultural, security protection, traffic or the like every field.

From above introduction as can be known, the Internet of Things implementation is mainly terminal equipment by gateway monitoring sensor net network node at present.Terminal equipment generally all is by realizing information interaction between terminal equipment and the gateway having certain wireless communication module on the gateway, and general communication technology module that has certain short-range communication protocols and the sensing net that has equal modules of adopting of gateway carries out information interaction.

For at present common Internet of Things implementation such as intelligent domestic system etc., the shortcoming of its existence is when changing the operating state of a certain node device of sensing net, the operating state of change other node devices associated therewith that can't in time mate.

Summary of the invention

The present invention proposes a kind of service platform subsystem, information interaction system and information interacting method, in changing the sensing network subsystem during operating parameter values of a certain node device, the operating parameter values of other node device of change that can mate, thereby the realization balancing energy reaches environmental protection, purpose of energy saving.

Technical scheme of the present invention is achieved in that

A kind of information interaction system comprises sensing network subsystem, service platform subsystem, and described sensing network subsystem comprises first node equipment;

Described service platform subsystem comprises:

Receiving element is used to receive first operating parameter values of described first node equipment;

Processing unit is used for according to described first operating parameter values, calculates second operating parameter values with the Section Point equipment of described first node device association;

Transmitting element, be used for described first operating parameter values and described second operating parameter values are sent to respectively the described first node equipment and the described Section Point equipment of described sensing network subsystem, adjust separately running parameter respectively by described first node equipment and described Section Point equipment.

Preferably, described information interaction system also comprises terminal equipment;

Described first operating parameter values for the user by the input of described terminal equipment, be used to change the operating parameter values of described first node equipment work parameter.

Preferably, described first operating parameter values is the described first node apparatus operating parameters value that described sensing network subsystem sends.

Preferably, described sensing network subsystem also comprises the ZigBee network coordinator;

Described first node equipment and described Section Point equipment are respectively arranged with the ZigBee chip;

Described ZigBee network coordinator is connected with described Section Point equipment with the described first node equipment that is provided with the ZigBee chip by the ZigBee router.

Preferably, described service platform subsystem is the network business platform subsystem, and described network business platform subsystem also comprises the website as interactive unit;

Described terminal equipment is visited described network business platform subsystem by the wiring logging-on function or the mode that connects described website of getting online without being tethered to a cable.

A kind of service platform subsystem is applied in the information interaction system, and described information interaction system also comprises the sensing network subsystem, and described sensing network subsystem comprises first node equipment, and described service platform subsystem comprises:

Receiving element is used to receive first operating parameter values of described first node equipment;

Processing unit is used for according to described first operating parameter values, calculates second operating parameter values with the Section Point equipment of described first node device association;

Transmitting element, be used for described first operating parameter values and described second operating parameter values are sent to respectively the described first node equipment and the described Section Point equipment of described sensing network subsystem, adjust separately running parameter respectively by described first node equipment and described Section Point equipment.

Preferably, described first operating parameter values is that the user imports by terminal equipment, is used to change the operating parameter values of described first node equipment work parameter.

A kind of information interacting method is applied in the information interaction system, and described information interaction system comprises sensing network subsystem, service platform subsystem, and described sensing network subsystem comprises first node equipment, and described information interacting method comprises:

Described service platform subsystem receives first operating parameter values of described first node equipment;

Described service platform subsystem is according to described first operating parameter values, calculates second operating parameter values with the Section Point equipment of described first node device association;

Described service platform subsystem is sent to the described first node equipment and the described Section Point equipment of described sensing network subsystem respectively with described first operating parameter values and described second operating parameter values, adjusts separately running parameter respectively by described first node equipment and described Section Point equipment.

Preferably, described first operating parameter values is that the user imports by terminal equipment, is used to change the operating parameter values of described first node equipment work parameter.

Preferably, described first operating parameter values is the described first node apparatus operating parameters value that described sensing network subsystem sends.

Technical solution of the present invention is utilized the balancing energy principle, in changing the sensing network subsystem during operating parameter values of a certain node device, and the operating parameter values of other node device of change that can mate, thus the realization balancing energy reaches environmental protection, purpose of energy saving.Further, terminal equipment of the present invention is by the mode access service platform subsystem of wiring logging-on function or wireless Internet access, make Internet enabled terminal equipment all can closely or at a distance monitor in real time, all can conduct interviews node device to the sensing network subsystem.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of a kind of information interaction system first embodiment of the present invention;

Fig. 2 is the structural representation of sensing network subsystem preferred embodiment described in the present invention;

Fig. 3 is the schematic flow sheet of a kind of information interacting method first embodiment of the present invention;

Fig. 4 is the schematic flow sheet of a kind of information interacting method second embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that is obtained under the creative work prerequisite.

With reference to Fig. 1, show the structural representation of a kind of information interaction system first embodiment of the present invention.Described information interaction system comprises sensing network subsystem 110, service platform subsystem 120 and terminal equipment 130.

Described sensing network subsystem 110 generally includes a plurality of node devices 113, described a plurality of node device 113 connects into a wired or wireless network by communication module, as in intelligent domestic system, various household electrical appliance are node device, and various household electrical appliance connect into a wired or wireless network by router or other communication module.

With reference to Fig. 2, be the structural representation of the subsystem of sensing network described in the present invention 110 preferred embodiments.Described sensing network subsystem 110 is based on the ZigBee communication technology.

ZigBee is the synonym of IEEE (Institute of Electrical and Electronics Engineers, IEEE) 802.15.4 agreement.Technology according to this agreement regulation is the wireless communication technology of a kind of short distance, low-power consumption.This title derives from the Eight characters dance of honeybee, since honeybee (bee) be by circle in the air and " drone " " dancing " of shaking wing to transmit pollen place azimuth information with the companion (zig), that is to say that the such mode of honeybee dependence has constituted the communication network in the colony.

ZigBee has following characteristics: 1, low-power consumption, several weeks of the bluetooth of comparing, WLAN (WirelessLocal Area Networks, WLAN (wireless local area network)) a few hours, ZigBee can continue a journey several months even several years under the situation of No. 5 dry cell power supplies of two joints.Reason has 2 points, and the one, ZigBee itself is a low-power device, power consumption is lower; The 2nd, the powered battery terminal equipment mosts of the time such as nodes such as the transducer in the ZigBee network, control module all are in sleep state, have only and activate or just be waken up during regular renewal work.2, ZigBee has advantage cheaply.ZigBee comes cost squeeze by significantly simplifying communications protocol, its agreement is less than 1/10th of bluetooth, memory size is reduced like this, the cpu performance requirement reduces, and 8051 common single-chip microcomputers add that the ZigBee wireless module just can the powerful radio node of composition function.3, ZigBee also has the characteristics of high power capacity and high safety, and that ZigBee can adopt is starlike, sheet and mesh network topology, and by a host node management plurality of sub node, maximum host nodes can be managed 254 child nodes; Host node also can be formed the big net of 65000 nodes at most by the last layer network node control simultaneously.ZigBee also provides three level security patterns in addition: no security settings, the symmetric cryptography that uses the access control inventory to prevent illegally to obtain data, adopt Advanced Encryption Standard (AES128), to determine its security attribute flexibly, good fail safe also is that control system is necessary.

Described sensing network subsystem 110 comprises ZigBee network coordinator 111, ZigBee router one 12 and is provided with the node device 113 of ZigBee chip that described ZigBee network coordinator 111 is connected with the described node device 113 that is provided with the ZigBee chip by described ZigBee router one 12.

Described ZigBee router one 12 is used for performing routing operations.Described ZigBee router one 12 is also referred to as the ZigBee repeater, described ZigBee router one 12 not only connects described ZigBee network coordinator 111 and described node device 113, also communication mutually between the described ZigBee router one 12, therefore can the extended network coverage rate by described ZigBee router one 12, described ZigBee router one 12 connects by two paths usually at least, and can be its neighbours' forwarding information.

Described ZigBee network coordinator 111 is described node device 113 to be linked together by ZigBee form a kind of equipment of network.

In the present invention, can communicate to connect by ZigBee between described sensing network subsystem 110 and the described service platform subsystem 120, can connect by other wired or wireless mode yet, the present invention does not carry out any qualification to this.

Need to prove that in the present embodiment, described receiving element is specially first receiving element 121, described processing unit is specially first processing unit 122, and described transmitting element is specially first transmitting element 123.

In the present embodiment, described service platform subsystem 120 comprises:

First receiving element 121 is used to receive first operating parameter values of user by the described first node equipment work of the change parameter of described terminal equipment 130 inputs.

First processing unit 122 is used for calculating according to described first operating parameter values second operating parameter values of described sensing network subsystem 110 and the Section Point equipment of described first node device association.

Described first processing unit 122 is according to described first operating parameter values, calculates second operating parameter values with the Section Point equipment of described first node device association according to the balancing energy matching principle.

First transmitting element 123, be used for described first operating parameter values and described second operating parameter values are sent to respectively the described first node equipment and the described Section Point equipment of described sensing network subsystem 110, adjust separately running parameter respectively by described first node equipment and described Section Point equipment.

First node equipment of the present invention and Section Point equipment are not what refer in particular to, and any one node device in the described sensing network subsystem 110 can become first node equipment or Section Point equipment.

In the present invention, the running parameter of described node device is meant the parameter such as power, volume of node device.The user as opening or closed node equipment, regulates the size of node device power by first operating parameter values of terminal equipment 130 inputs change node device running parameter, regulates the volume of node device etc.

In the present invention, described service platform subsystem 120 preferred network service platform subsystems 120, described network business platform subsystem 120 also comprises the website as interactive unit, and described terminal equipment 130 is visited described network business platform subsystem 120 by the wiring logging-on function or the mode that connects described website of getting online without being tethered to a cable.Like this, the user can pass through the website of terminal equipment 130 visits as interactive unit, and is changed first operating parameter values of node device running parameter by the input of described website.And, described website can also show the operating parameter values of each node device, entering described website by the user by terminal equipment 130 checks, make terminal equipment all can closely or at a distance monitor in real time to sensing network subsystem 110 with function of surfing the Net, therefore, as long as terminal equipment has wired or wireless function of surfing the Net, all can conduct interviews to sensing network subsystem 110.

Described first processing unit 122 is according to described first operating parameter values, use balanced principle according to the node device energy, calculate the coupling operating parameter values of node device in the whole sensing network subsystem 110 according to certain mathematics rule, preferred in the present invention the employing at certain hour point with the operating power average that mathematical algorithm or other mathematical programmings of weighted average calculates interdependent node equipment goes out interdependent node apparatus operating parameters value according to this power mean value computation then.

Turn on television set as the user by terminal equipment, need calculate the operating parameter values of related node device with it such as lighting apparatus, air-conditioning this moment, the user regulates television sound volume for another example, described processing unit can carry out analysis and judgement according to the balancing energy method, send then instruct to node device when regulating television sound volume, can regulate the volume of other equipment in other adjustable equipment such as the family, so that better meet user's demand.

Existing the node device of incidence relation to be meant among the present invention can interactive node device, as when turning on television set, can turn down the power of lighting apparatus, and then television set and lighting apparatus are the node devices that has incidence relation.

Second running parameter that calculates is regulated the operating state of node device automatically by sensing network subsystem 110, data after the adjusting can be presented to the user by the website in the mode of form or curve, so that the user can grasp the operating state of each node device constantly, and can further regulate based on this.

Terminal equipment 130 of the present invention can be mobile terminal devices such as mobile phone, also can be fixed terminal equipment, and the present invention does not limit this.When terminal equipment 130 is mobile phone, mobile phone can pass through WAP (Wireless Application Protocol, WAP (wireless application protocol)) or HTTP (HyperText TransferProtocol, HTML (Hypertext Markup Language)) website of mode access service platform subsystem 120 such as, thus can monitor or control sensing network subsystem 110.

In second embodiment of information interaction system of the present invention, described receiving element is specially second receiving element, and described processing unit is specially second processing unit, and described transmitting element is specially second transmitting element.

In the present embodiment, described service platform subsystem 120 comprises:

Second receiving element is used for receiving first operating parameter values of described sensing network subsystem 110 first node equipment.

Described first node equipment can be the some node devices in the described sensing network subsystem 110, also can be several or all node devices.

Second processing unit is used for according to the balancing energy matching principle, calculates second operating parameter values of Section Point equipment in the described sensing network subsystem 110 according to first operating parameter values of described first node equipment.

Second transmitting element, be used for described first operating parameter values and described second operating parameter values are sent to respectively the node device of described sensing network subsystem 110, adjust separately running parameter respectively according to described first operating parameter values and described second operating parameter values by described node device.

The difference of the present embodiment and first embodiment is, be that the user is when regulating the operating state of a certain node device among first embodiment, calculate the coupling running parameter of other node device by service platform subsystem 120, thereby adjust the operating parameter values of node device in the sensing network subsystem 110.And present embodiment is automatically the running parameter of node device in the sensing network subsystem 110 to be carried out the double optimization adjusting by service platform subsystem 120, and node device reaches balancing energy in the sensing network subsystem 110 thereby make, and realizes the purpose of node, environmental protection.

First node equipment of the present invention and Section Point equipment are not what refer in particular to, and any one node device in the described sensing network subsystem 110 can become first node equipment or Section Point equipment.

Technical solution of the present invention is utilized the balancing energy principle, in changing the sensing network subsystem during operating parameter values of a certain node device, and the operating parameter values of other node device of change that can mate, thus the realization balancing energy reaches environmental protection, purpose of energy saving.Further, terminal equipment of the present invention is by the mode access service platform subsystem of wiring logging-on function or wireless Internet access, make Internet enabled terminal equipment all can closely or at a distance monitor in real time, all can conduct interviews node device to the sensing network subsystem.

The invention also discloses a kind of service platform subsystem, described service platform subsystem is applied in the information interaction system, described information interaction system also comprises the sensing network subsystem, described sensing network subsystem comprises first node equipment, and described information interaction system can also comprise terminal equipment.

Described service platform subsystem comprises:

Receiving element is used to receive first operating parameter values of described first node equipment.

Processing unit is used for according to described first operating parameter values, calculates second operating parameter values with the Section Point equipment of described first node device association according to the balancing energy matching principle.

Transmitting element, be used for described first operating parameter values and described second operating parameter values are sent to respectively the described first node equipment and the described Section Point equipment of described sensing network subsystem, adjust separately running parameter respectively by described first node equipment and described Section Point equipment.

In one embodiment, described first operating parameter values of stating is that the user imports by terminal equipment, is used to change the operating parameter values of described first node equipment work parameter.

In another embodiment, described first operating parameter values is the described first node apparatus operating parameters value that described sensing network subsystem sends.

With reference to Fig. 3, show the schematic flow sheet of a kind of information interacting method first embodiment of the present invention, described information interacting method is applied in the described information interaction system of Fig. 1.Described information interacting method comprises:

Step S310, receive first operating parameter values of user by the described first node equipment work of the change parameter of terminal equipment input.

In the present invention, described service platform subsystem preferred network service platform subsystem, described network business platform subsystem comprises the website as interactive unit, and described terminal equipment is visited described network business platform subsystem by the wiring logging-on function or the mode that connects described website of getting online without being tethered to a cable.Like this, the user can be by the terminal equipment visit network as interactive unit, and is changed the operating parameter values of node device running parameter by the input of described website.And, described website can also show the operating parameter values of each node device, enter described website by the user by terminal equipment and check, make terminal equipment all can closely or at a distance monitor in real time the sensing network subsystem with function of surfing the Net.

Terminal equipment of the present invention can be mobile terminal devices such as mobile phone, also can be fixed terminal equipment, and the present invention does not limit this.When terminal equipment is mobile phone, mobile phone can pass through WAP (Wireless Application Protocol, WAP (wireless application protocol)) or HTTP (HyperText TransferProtocol, HTML (Hypertext Markup Language)) website of mode access service platform subsystem such as, thus first operating parameter values that changes described first node apparatus operating parameters on the website of described service platform subsystem, imported by terminal equipment.

Step S320, calculate in the described sensing network subsystem second operating parameter values with the Section Point equipment of described first node device association according to described first operating parameter values.

According to described first operating parameter values, calculate second operating parameter values with the Section Point equipment of described first node device association according to the balancing energy matching principle.

Step S330, described first operating parameter values and described second operating parameter values be sent to the described first node equipment and the described Section Point equipment of described sensing network subsystem respectively.

Step S340, described first node equipment and described Section Point equipment are adjusted separately running parameter respectively according to described first operating parameter values and described second operating parameter values.

With reference to Fig. 4, show the schematic flow sheet of a kind of information interacting method second embodiment of the present invention, described information interacting method comprises:

First operating parameter values of first node equipment in step S410, the described sensing network subsystem of reception.

Step S420, calculate second operating parameter values of Section Point equipment in the described sensing network subsystem.

According to the balancing energy matching principle, calculate second operating parameter values of Section Point equipment in the described sensing network subsystem according to first operating parameter values of described first node equipment.

Step S430, described first operating parameter values and described second operating parameter values be sent to the node device of described sensing network subsystem respectively.

Step S440, described node device adjust separately running parameter respectively according to described first operating parameter values and described second operating parameter values.

Need to prove that the method for the invention embodiment is corresponding with described system embodiment, therefore, the description of the part reference system embodiment relevant portion of not describing in detail in method embodiment part gets final product.

Technical solution of the present invention is utilized the balancing energy principle, in changing the sensing network subsystem during operating parameter values of a certain node device, and the operating parameter values of other node device of change that can mate, thus the realization balancing energy reaches environmental protection, purpose of energy saving.

One of ordinary skill in the art will appreciate that; in each method embodiment of the present invention; the sequence number of described each step can not be used to limit the sequencing of each step; for those of ordinary skills; under the prerequisite of not paying creative work, the priority of each step is changed also within protection scope of the present invention.

The above only is preferred embodiment of the present invention, and is in order to restriction the present invention, within the spirit and principles in the present invention not all, any modification of being done, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. an information interaction system is characterized in that, comprises sensing network subsystem, service platform subsystem, and described sensing network subsystem comprises first node equipment;

Described service platform subsystem comprises:

Receiving element is used to receive first operating parameter values of described first node equipment;

Processing unit is used for according to described first operating parameter values, calculates second operating parameter values with the Section Point equipment of described first node device association;

Transmitting element, be used for described first operating parameter values and described second operating parameter values are sent to respectively the described first node equipment and the described Section Point equipment of described sensing network subsystem, adjust separately running parameter respectively by described first node equipment and described Section Point equipment.

2. information interaction system according to claim 1 is characterized in that described information interaction system also comprises terminal equipment;

Described first operating parameter values for the user by the input of described terminal equipment, be used to change the operating parameter values of described first node equipment work parameter.

3. information interaction system according to claim 1 is characterized in that, described first operating parameter values is the described first node apparatus operating parameters value that described sensing network subsystem sends.

4. according to each described information interaction system of claim 1 to 3, it is characterized in that described sensing network subsystem also comprises the ZigBee network coordinator;

Described first node equipment and described Section Point equipment are respectively arranged with the ZigBee chip;

Described ZigBee network coordinator is connected with described Section Point equipment with the described first node equipment that is provided with the ZigBee chip by the ZigBee router.

5. information interaction system according to claim 2 is characterized in that, described service platform subsystem is the network business platform subsystem, and described network business platform subsystem also comprises the website as interactive unit;

Described terminal equipment is visited described network business platform subsystem by the wiring logging-on function or the mode that connects described website of getting online without being tethered to a cable.

6. a service platform subsystem is applied in the information interaction system, and described information interaction system also comprises the sensing network subsystem, and described sensing network subsystem comprises first node equipment, it is characterized in that, described service platform subsystem comprises:

Receiving element is used to receive first operating parameter values of described first node equipment;

Processing unit is used for according to described first operating parameter values, calculates second operating parameter values with the Section Point equipment of described first node device association;

Transmitting element, be used for described first operating parameter values and described second operating parameter values are sent to respectively the described first node equipment and the described Section Point equipment of described sensing network subsystem, adjust separately running parameter respectively by described first node equipment and described Section Point equipment.

7. service platform subsystem according to claim 6 is characterized in that, described first operating parameter values is that the user imports by terminal equipment, is used to change the operating parameter values of described first node equipment work parameter.

8. an information interacting method is applied to it is characterized in that in the information interaction system that described information interaction system comprises sensing network subsystem, service platform subsystem, and described sensing network subsystem comprises first node equipment, and described information interacting method comprises:

Described service platform subsystem receives first operating parameter values of described first node equipment;

Described service platform subsystem is according to described first operating parameter values, calculates second operating parameter values with the Section Point equipment of described first node device association;

Described service platform subsystem is sent to the described first node equipment and the described Section Point equipment of described sensing network subsystem respectively with described first operating parameter values and described second operating parameter values, adjusts separately running parameter respectively by described first node equipment and described Section Point equipment.

9. information interacting method according to claim 8 is characterized in that, described first operating parameter values is that the user imports by terminal equipment, is used to change the operating parameter values of described first node equipment work parameter.

10. information interacting method according to claim 8 is characterized in that, described first operating parameter values is the described first node apparatus operating parameters value that described sensing network subsystem sends.

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