CN103442025A - Wireless network cloud platform system based on lighting nodes - Google Patents

Abstract

The invention provides a wireless network cloud platform system based on lighting nodes. The wireless network cloud platform system comprises a wireless gateway, at least one wireless lighting driver, at least one wireless lighting controller, at least one positioned terminal and a cloud server client side. A cloud server is connected with a wireless gateway, issues configuration information to the at least one wireless lighting driver and the at least one wireless lighting controller for configuration, controls the at least one wireless lighting driver and judges whether faults exist in a lighting line or not according to a current and energy consumption of the lighting line. Position monitoring is carried out on the positioned terminal according to the positioning information of the positioned terminal, the environment in a preset area is monitored according to environment parameters, and monitoring data are displayed to a user. According to the embodiment, wired lighting control is replaced with the wireless lighting, and labor cost and material cost can be saved. In addition, lighting energy consumption is monitored in real time, dimming is carried out according to current illuminance, and therefore electric energy consumption can be saved.

Description

Wireless network cloud plateform system based on lighting nodes

Technical field

The present invention relates to lighting control technology field, particularly a kind of wireless network cloud plateform system based on lighting nodes.

Background technology

Along with the development of modern architecture science technology and popularizing of Informationization Equipment, in modern architecture, the intellectuality of control appliance has become the trend of current architectural development.But for a long time, Intelligent illumination device is always out in the cold at home, and most of buildings still adopt traditional lighting system, not only bad for centralized monitor and management, and in the use of electric energy, efficiency is very low, has wasted a large amount of electric energy.

At present, adopt the dedicated bus of building automatic control to carry out monitoring, illumination, as RS485 bus, CAN bus, HDL-BUS, CEBUS, LonWorks etc.These systems powerful, can realize the Based Intelligent Control to multiple lighting apparatus, but in large scale, expensive, and purposes is single-minded, uses the wired mode difficult wiring, and construction cost is high, versatility is poor.

The Wireless Network that the WIFI of take is representative, because penetration power is poor, safety and poor stability (being easy to be subject to the attack of WIFI equipment of the same type and channel to seize), the illumination that therefore is not suitable for commercial location, industrial site or municipal works is controlled.

In addition, the wireless lighting network system that Zigbee Light Link is representative has appearred on market take in the recent period, can realize that wireless lighting is controlled on a small scale: to the control of local and far-end light fixture, area illumination, the functions such as timing switch, but due to need to be on chip integrated more resources carry out the internal mechanism of processing protocol stack, therefore when network node is more, internal resource consumption seriously even handling property do not catch up with, so problem of a network capacity of ubiquity, its real network scale limited (less than 50 points), limited for brick mix structure or reinforced concrete structure building signal penetration capacity, mainly as the intelligent solution of domestic lighting.

Therefore, need reliable and stable large-scale wireless network to occur, could meet the wireless lighting demand for control as large scale business places such as Commercial Complex, office building, hotels.

Summary of the invention

The present invention is intended at least one of solve the problems of the technologies described above.

For this reason, the object of the invention is to propose a kind of stable, reliable and wireless network cloud plateform system based on lighting nodes capacious, this system is controlled and is substituted wired illumination control with wireless lighting, thereby can save the human and material resources cost, in addition, this system Real-Time Monitoring lighting energy consumption also carries out light modulation according to current illumination, not only environmental protection but also save power consumption.

To achieve these goals, embodiments of the invention have proposed a kind of wireless network cloud plateform system based on lighting nodes, comprise: radio network gateway, at least one wireless lighting driver, at least one wireless lighting controller, at least one terminal that is positioned, cloud server and client, wherein, described at least one wireless lighting driver comprises: electric current and energy consumption monitoring module, position reference module and environmentally sensitive module, described electric current and energy consumption monitoring module are for being monitored electric current and the energy consumption of illuminating line, and the electric current and the energy consumption that monitor are reported to described cloud server, described position reference module is for identifying at least one terminal that is positioned in presumptive area and location, and the locating information of described at least one terminal that is positioned is sent to described cloud server, described environmentally sensitive module is for monitoring the environmental parameter in presumptive area, and described environmental parameter is reported to described cloud server, described at least one wireless lighting controller is for to described at least one wireless lighting driver sending controling instruction, with by described at least one wireless lighting driver drives lighting, described at least one terminal that is positioned is in the scope covered at lighting nodes, carry out communication with described position reference module, calculate distance parameter and obtain at least one terminal relative position that is positioned, by the position reference module, locating information being sent to described cloud server, described cloud server is connected with described radio network gateway, configuration information is issued to described at least one wireless lighting driver and described at least one wireless lighting controller by described radio network gateway, to be configured, and according to user instruction, described at least one wireless lighting driver is controlled, and judge according to electric current and the energy consumption of illuminating line whether described illuminating line exists fault, and according to the locating information of described at least one terminal that is positioned of described position reference module monitors to described at least one terminal position monitoring that is positioned, and according to described environmental parameter, the environment in presumptive area is monitored, and monitor data is shown to the user, and described client is for carrying out alternately with described cloud server, and send described configuration information and described user instruction to described cloud server, and reception is from the feedback information of described cloud server, and is shown to the user.

The wireless network cloud plateform system based on lighting nodes according to the embodiment of the present invention, control and substitute wired illumination control with wireless lighting, thereby can save manpower and material resources cost, simultaneously, this system detects in real time lighting energy consumption and carries out light modulation according to current illumination, not only environmental protection but also save power consumption; Further, the Real-Time Monitoring of this system to electric current and energy consumption in the wireless lighting network, for the illuminating line fault, with respect to the investigation process of a large amount of cables in existing illuminator, can realize rapidly accurately location faulty line, reduces the investigation time; In addition, this system can be in real time monitored the temperature of specific region, hazardous gas etc., thereby realizes the intelligent early-warning of taking precautions against natural calamities; This system can also and be searched the location of personnel, article and vehicle in specific region, thereby realizing that the specific region stream of people dredges with vehicle dredges etc.

In addition, the wireless network cloud plateform system based on lighting nodes according to the above embodiment of the present invention can also have following additional technical characterictic:

In an embodiment of the present invention, described by least one wireless lighting driver drives lighting, specifically comprise: described lighting is carried out to switch control, color adaptation and brightness regulation.

In an embodiment of the present invention, described environmental parameter comprises: the parameter of temperature, humidity, illumination, CO2, cigarette sense and hazardous gas.

In an embodiment of the present invention, described at least one wireless lighting driver is also regulated the brightness of described lighting automatically for the illumination according to described environmental parameter.

In an embodiment of the present invention, described cloud server also judges temperature province distribution, cigarette emotion condition area distribution and the hazardous gas Regional Distribution of Registered of described presumptive area for the temperature parameter according to described environmental parameter, cigarette sense parameter and hazardous gas parameter, in order to realize fire prevention and take precautions against natural calamities according to temperature province distribution, cigarette emotion condition area distribution and the hazardous gas Regional Distribution of Registered of described presumptive area.

In an embodiment of the present invention, the locating information of described at least one terminal that is positioned according to described position reference module monitors is to described at least one terminal position monitoring that is positioned, further comprise: by least one terminal that is positioned, send Location Request to 3 position reference modules of closing on, described 3 position reference modules are after getting described Location Request, send wireless signal to described at least one terminal that is positioned, and receive the wireless signal of the described equipment feedback of being positioned, described 3 position reference modules are shaken according to oikocryst in hardware respectively and frequency multiplier circuit calculates wireless signal by described 3 position reference modules transmission and feeds back to described 3 times that the position reference module spends, and by radio network gateway, the described time is sent to described cloud server, described cloud server was calculated according to constraint triangle and the described time of the relative position coordinates system foundation of described 3 position reference modules, obtain described at least one terminal relative position in described constraint triangle that is positioned, and obtain the particular location of described wireless localization apparatus in presumptive area according to described relative position.

In an embodiment of the present invention, described at least one terminal that is positioned comprises: personnel, article and/or vehicle.

In an embodiment of the present invention, the locating information of described at least one terminal that is positioned according to described position reference module monitors is to described at least one terminal position monitoring that is positioned, further comprise: according to the locating information of described personnel and/or vehicle, described cloud server can obtain the positional information of the interior a plurality of personnel of being positioned of presumptive area and/or vehicle, positional information according to described a plurality of be positioned personnel and/or vehicles, look for designated person and/or vehicle, and according to the positional information of described a plurality of personnel of being positioned and/or vehicle in the situation that personnel and/or vehicle is intensive carries out dredging of personnel and/or vehicle in presumptive area.

In an embodiment of the present invention, described cloud server is also controlled for directly described lighting being carried out to switch control, color adaptation, timing controlled and scene, and illumination condition, power consumption and the environmental parameter of the described wireless network platform system based on node of Real-Time Monitoring.

Additional aspect of the present invention and advantage part in the following description provide, and part will become obviously from the following description, or recognize by practice of the present invention.

The accompanying drawing explanation

Above-mentioned and/or additional aspect of the present invention and advantage, the description in conjunction with following accompanying drawing to embodiment will become obviously and easily understanding, wherein:

Fig. 1 is the structure chart of the wireless network cloud plateform system based on lighting nodes according to an embodiment of the invention; And

The configuration diagram that Fig. 2 is the wireless network cloud plateform system based on lighting nodes of a specific embodiment according to the present invention.

Embodiment

Below describe embodiments of the invention in detail, the example of described embodiment is shown in the drawings, and wherein same or similar label means same or similar element or the element with identical or similar functions from start to finish.Be exemplary below by the embodiment be described with reference to the drawings, only for explaining the present invention, and can not be interpreted as limitation of the present invention.

In description of the invention, it will be appreciated that, term " " center ", " vertically ", " laterally ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", orientation or the position relationship of indications such as " outward " are based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, rather than device or the element of indication or hint indication must have specific orientation, with specific orientation structure and operation, therefore can not be interpreted as limitation of the present invention.In addition, term " first ", " second " be only for describing purpose, and can not be interpreted as indication or hint relative importance.

In description of the invention, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be done broad understanding, for example, can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; Can be mechanical connection, can be also to be electrically connected to; Can be directly to be connected, also can indirectly be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, can concrete condition understand above-mentioned term concrete meaning in the present invention.

Describe the wireless network cloud plateform system based on lighting nodes according to the embodiment of the present invention in detail below in conjunction with accompanying drawing.

Fig. 1 is the structure chart of the wireless network cloud plateform system based on lighting nodes according to an embodiment of the invention.

As shown in Figure 1, wireless network cloud plateform system 100 based on lighting nodes, comprising: radio network gateway 110, at least one wireless lighting driver 120, at least one wireless lighting controller 130, at least one terminal 140 that is positioned, cloud server 150 and client 160 according to an embodiment of the invention.

At least one wireless lighting driver 120 comprises: electric current and energy consumption monitoring module 121, position reference module 122 and environmentally sensitive module 123, electric current and energy consumption monitoring module 121 are monitored for the electric current to illuminating line and energy consumption, and the electric current and the energy consumption that monitor are reported to cloud server 150, position reference module 122 is identified and location at least one terminal 140 that is positioned in presumptive area, and the locating information of at least one terminal 140 that is positioned is sent to cloud server 150, environmentally sensitive module 123 is for monitoring the environmental parameter in presumptive area, and environmental parameter is reported to cloud server 150.Wherein, presumptive area is predefined zone, is for example parking lot.

At least one wireless lighting controller 130, at least one wireless lighting driver 120 sending controling instruction, drives lightings to pass through at least one wireless lighting driver 120.Wherein, in a preferred embodiment of the invention, at least one wireless lighting controller 130 comprises controlled in wireless panel or Digiplex.Particularly, by least one wireless lighting driver 120, drive lighting, be specially: 120 pairs of lightings of at least one wireless lighting driver carry out switch control, color adaptation and brightness regulation.

At least one terminal 140 that is positioned is in the scope covered at lighting nodes, carry out communication with position reference module 122, calculate distance parameter and obtain the relative position of at least one terminal 140 that is positioned, and by position reference module 122, locating information is sent to cloud server 150.Specific as follows, send Location Request to 3 position reference modules of closing on by least one terminal 140 that is positioned, these 3 position reference modules are after getting Location Request, send wireless signal at least one terminal 140 that is positioned, and receive the wireless signal of at least one terminal 140 feedback that is positioned, 3 position reference modules are shaken and are calculated wireless signal by 3 position reference modules transmissions and feed back to the time that 3 position reference modules spend with frequency multiplier circuit according to oikocryst in hardware respectively, and by radio network gateway 110, this time is sent to cloud server 150, cloud server 150 was calculated according to constraint triangle and the above-mentioned time of the relative position coordinates system foundation of 3 position reference modules, obtain at least one terminal 140 relative position in the constraint triangle that is positioned, and obtain at least one terminal 140 particular location in presumptive area that is positioned according to this relative position.Wherein, in one embodiment of the invention, at least one terminal 140 that is positioned comprises: personnel, article and/or vehicle.

Cloud server 150 is connected with radio network gateway 110, configuration information is issued to at least one wireless lighting driver 120 and at least one wireless lighting controller 13 by radio network gateway 110, to be configured, and according to user instruction, at least one wireless lighting driver 120 is controlled, and judge according to electric current and the energy consumption of illuminating line whether illuminating line exists fault, and the locating information of at least one terminal 140 that is positioned of monitoring according to position reference module 122 is carried out position monitoring at least one terminal 140 that is positioned, and according to environmental parameter, the environment in presumptive area is monitored, and monitor data is shown to the user.Particularly, if there is fault in illuminating line, can be rapidly and find out accurately concrete faulty line, thus can save the time of investigation fault.

In one embodiment of the invention, above-mentioned cloud server 150 carries out position monitoring according to the locating information of at least one terminal 140 that is positioned of position reference module 122 monitorings at least one terminal 140 that is positioned, further comprise: according to the locating information of personnel and/or vehicle, cloud server 150 can obtain the positional information of the interior a plurality of personnel of being positioned of presumptive area and/or vehicle, positional information according to the plurality of be positioned personnel and/or vehicle, look for designated person and/or vehicle, and according to the positional information of a plurality of personnel of being positioned and/or vehicle in the situation that personnel and/or vehicle is intensive carries out dredging of personnel and/or vehicle in presumptive area.

In addition, in another embodiment of the present invention, the environmental parameter of environmentally sensitive module 123 monitorings comprises: the parameter of temperature, humidity, illumination, CO2, cigarette sense and hazardous gas.Particularly, based on above-mentioned environmental parameter, cloud server 150 is also for for example, temperature in presumptive area (room area), humidity, illumination, CO2, the parameter of cigarette sense and hazardous gas is monitored and is analyzed, and according to temperature parameter, temperature province in cigarette sense parameter and hazardous gas parameter judgement presumptive area distributes, cigarette emotion condition area distribution and hazardous gas Regional Distribution of Registered, in order to distribute according to the temperature province of this presumptive area, cigarette emotion condition area distribution and hazardous gas Regional Distribution of Registered are realized the monitoring that in this presumptive area, good fire prevention is taken precautions against natural calamities, thereby eliminating potential safety hazard.

Further, at least one wireless lighting driver 120 is also for the brightness of the automatic adjusting illuminating lamp tool of the illumination according to above-mentioned environmental parameter.Particularly, for example: when the illumination in the presumptive area environment is stronger, the brightness of adjusting illuminating lamp tool is dimmed automatically at least one wireless lighting driver 120, when the illumination in the presumptive area environment is stronger, the brightness grow of adjustable illuminating light fixture, thereby but saves energy.

Client 160 is for carrying out alternately with cloud server 150, and sends configuration information and user instructions to cloud server 150, and receives the feedback information from cloud server 150, and is shown to the user.Wherein, in one embodiment of the invention, client 160 comprises: the client software program of smart mobile phone, panel computer or PC.

In above-mentioned example, in brief, be that the user passes through client 160 to cloud server 150 transmission configuration informations and corresponding user instruction, cloud server 150 is configured at least one wireless lighting driver 120 and at least one wireless lighting controller 130 according to this configuration information, and according to this user instruction, at least one wireless lighting controller 130 is controlled, particularly, control at least one wireless lighting controller 130 at least one wireless lighting driver 120 sending controling instruction, at least one wireless lighting driver 120 drives lighting according to this control command.In addition, electric current and energy consumption monitoring result that cloud server 150 reports according to electric current and energy consumption monitoring module 121 are monitored illuminating line, to search the fault in illuminating line, and monitoring information is fed back to client 160, client 160 is shown to the user by this monitoring information, the locating information of at least one terminal 140 that is positioned that cloud server 150 also sends according to position reference module 122 realizes at least one the be positioned location of terminal 140 and dredging of personnel and/or vehicle, and cloud server 150 is also monitored the environment in presumptive area according to the environmental parameter of environmentally sensitive module 123 monitorings, and monitor data is shown to the user.

In addition, cloud server 150 also can directly carry out switch control, color adaptation, timing controlled and scene to all lightings to be controlled, and Real-Time Monitoring is somebody's turn to do illumination condition, power consumption and the environmental parameter of the wireless network platform system 100 based on node.

For the above-mentioned wireless network cloud plateform system based on lighting nodes of describing in conjunction with Fig. 1 being carried out to more concrete, comprehensively description, below in conjunction with Fig. 2, the wireless network cloud plateform system based on lighting nodes with concrete example to the embodiment of the present invention is described.

As shown in Figure 2, be the configuration diagram of the wireless network cloud plateform system based on lighting nodes of the specific embodiment according to the present invention.In Fig. 2, this system comprises: smart mobile phone and lamp control application program, panel computer and lamp control application program, Upper system client and software, Upper system server (being the cloud server 150 in Fig. 1), a plurality of wireless lighting driver (being at least one the wireless lighting driver 120 in Fig. 1), a plurality of wireless lighting controller (being at least one the wireless lighting controller 130 in Fig. 1) and a plurality of terminal that is positioned (being at least one terminal 140 that is positioned in Fig. 1).Wherein, smart mobile phone and lamp control application program, panel computer and lamp control application program and Upper system client and software are above-mentioned client 160.

As shown in Figure 2, smart mobile phone and lamp control application program, panel computer and lamp control application program and Upper system client and software communicate by Upper system network (being Ethernet or WIFI) and Upper system server, the Upper system server is connected with a plurality of wireless lighting drivers by radio network gateway, and a plurality of wireless lighting drivers intercom mutually with a plurality of wireless lighting controllers and a plurality of terminal that is positioned.

Particularly, above-mentioned radio network gateway is used for setting up the wireless lighting network, and is connected with the Upper system server, and the wireless lighting network that a plurality of radio network gateway is set up can form a more jumbo wireless lighting network by bridge joint.

A plurality of wireless lighting controllers belong to the node of wireless lighting network, it can be the form of panel or remote controller, a plurality of wireless lighting driver nodes in the wireless lighting network are sent to wireless instructions, by wireless instructions, control a plurality of wireless lighting driver drives lightings.

A plurality of wireless lighting drivers also belong to the node of wireless lighting network, and it is arranged on illuminating line, for receiving the control signal of a plurality of wireless lighting controllers, lighting are carried out to switch, color and brightness regulation; Electric current and energy consumption monitoring module, environmentally sensitive module also can be installed to realize energy consumption monitoring and the environmental monitoring to the network region within the jurisdiction; Also can be used as location reference point and load location algorithm, realize the indoor positioning of personnel, article or the vehicle etc. of network region within the jurisdiction.

The Upper system server connects the wireless lighting network by radio network gateway, for configuring the control relation of a plurality of wireless lighting controllers and a plurality of wireless lighting drivers; Also can directly control switch, color adaptation, brightness regulation, timing controlled and the scene of all light fixtures of wireless lighting network controls; And can Real-Time Monitoring illumination condition, power consumption, the environmental parameter of whole wireless lighting network, carry out indoor occupant and article location, and location-based information service pushing, stream of people's monitoring, traffic flow monitoring etc.

Mobile terminal application program (being smart mobile phone and lamp control application program, panel computer and lamp control application program and Upper system client and software in Fig. 2), for the illumination controlling application program in smart mobile phone and/or panel computer installation, configures the control relation of a plurality of wireless lighting controllers and a plurality of wireless lighting drivers; Also can directly control switch and the brightness regulation of all light fixtures of wireless lighting network; In addition, also for configuring the scene lighting control model.

In addition, in a specific embodiment of the present invention, the network architecture feature of being somebody's turn to do the wireless network cloud plateform system based on lighting nodes comprises:

MANET: the wireless network cloud platform node of network parameter coupling, automatic networking in network range, configure separately without gateway.

Selfreparing: wireless network cloud platform node is because of reason deviated from network such as interference, wait disturbing after eliminating, automatically recover to network, or the avoid interference thing, by around other routing nodes automatically recover to network.

Multi-hop covers: realize telecommunication by the multi-hop mode between wireless network cloud platform node, therefore whole wireless network cloud platform can cover very on a large scale.

The communication link redundancy: when the communication link of certain wireless network cloud platform node is obstructed because of interference, this node selects another available link to realize the communication with destination node automatically.

The terminal low-power consumption: terminal node adopts dormancy mechanism, carries out work under wake-up states, and the most of the time is in resting state, to realize low-power consumption at ordinary times.

Further, the wireless lighting network of mentioning in above-mentioned example, wherein large capacity networking scale feature comprises:

Hardware characteristics-wireless lighting network node processor: 32, the above dominant frequency CPU of 16MHz, disposal ability promotes, to guarantee the processing speed requirement of witched-capacity network node.

Hardware characteristics-wireless lighting network node running memory: more than 32K, to guarantee to store the routing iinformation of witched-capacity network node.

The topological structure of procotol: tree topology, in the situation that every one-level node capacity is limited, increases the overall network capacity.Particularly, in tree topology, below father node, the child node of some can be arranged, each child node can be used as again the father node of next stage child node, the space layout of whole like this topological structure can infinitely be extended, and the overall network capacity is not subject to the restriction of every one-level child node capacity.

The management node timeslice of procotol is distributed: the multiple communication mechanism self adaptation switching based on Beacon pattern and Non-Beacon pattern, every one-level father node Sampling network real-time communication amount size is carried out the mechanism switching to guarantee that communication is without conflict on the one hand, can realize the increase of every one-level node capacity on the other hand, thereby increase the overall network capacity.Wherein, Beacon pattern: add sheet Beacon signal lock in time in transmitting procedure, make to need the information of synchronous transmission to be able to synchronous transmission, the introducing of each Beacon can increase the requirement of node energy consumption.The Non-Beacon pattern: the network node required for lightweight transport is realized simultaneous asynchronous data transmissions, and low-power mode, used the local topology of this pattern can increase every grade of nodes.

The network node data transmission of procotol: node transmission capacity buffering area and transmitting-receiving confirmation buffering area are set, node transmission capacity buffering area and transmitting-receiving confirmation buffering area are set: node transmission capacity buffering area is guaranteed the multi-group data transmission in order one by one of the required transmission of data transmission nodal itself, transmitting-receiving confirmation buffering area is realized receiving and dispatching acknowledge message and is obtained in order one by one, to guarantee the transmission stability of witched-capacity network node, prevent packet loss.

Further, the wireless network cloud plateform system based on lighting nodes according to an embodiment of the invention, its feature of controlled in wireless for lighting nodes comprises:

Switch is controlled: a plurality of wireless lighting drivers are serially connected on illuminating line, receive wireless control signal, drive switch adhesive or the disconnection of light fixture on illuminating line.

Brightness regulation: for the LED light fixture, a plurality of wireless lighting drivers receive wireless control signals, use the PWM mode to drive LED light fixture on illuminating line, LED lamp switch duty ratio of time is regulated, thereby realized the brightness regulation of LED light fixture.

Color adaptation: for the primitive colours LED combination lamp, a plurality of wireless lighting drivers receive wireless control signal, use the PWM mode to drive primitive colours LED combination lamp on illuminating line, duty ratio switching time to every kind of primary colored lamps of this combination lamp is regulated respectively, thereby realizes the color adaptation of primitive colours LED combination lamp.

Scene is controlled: on the application program of Upper system software or mobile terminal, many the illuminating lines for difference illumination occasion carry out upper marshalling, carry out the unification of control command for corresponding group and send, the adjusting of each group light fixture is controlled and is represented a kind of scene control.Thereby, by defining different scenes, reach the scene of a large amount of light fixtures in certain limit is controlled.

The multiple control mode of minute authority flexibly: Upper system software, mobile terminal application program, wireless switching panel, remote controller all can be controlled the light fixture in presumptive area, and wherein Upper system software has the control of highest weight limit and maximum magnitude.By the authority (control area limits and priority limits) that different control modes is set on Upper system software, restriction is as control area and the control priority of the control modes such as wireless switching panel and remote controller, reach to the hierarchical of control area on a large scale flexibly comprehensive the and orderly control and management of various ways.

In addition, as a concrete example, the wireless lighting system can be by target application occasions such as wireless lighting network coverage large scale business places, except the switch control and brightness regulation that itself realize the region within the jurisdiction illumination, can also take this wireless network as carrier, realize current detecting, energy consumption monitoring, line fault wireless diagnostics, temperature-humidity monitoring, illuminance monitoring, CO to illuminating line ₂monitoring, monitoring of hazardous gas etc., and to utilize this wireless lighting network be computing platform, and the personnel in network coverage, article/assets, vehicle etc. are identified and located.Particularly as follows:

Electric current and energy consumption monitoring module are set on a plurality of wireless lighting drivers, realize current monitoring and energy consumption monitoring to illuminating line.And for the illuminating line fault, can accurately locate rapidly faulty line, reduce the investigation time.

On a plurality of wireless lighting drivers, the environmentally sensitive module is set, temperature, humidity, illumination, the CO of presumptive area is provided by the wireless lighting network ₂, the environmental parameter monitorings such as cigarette sense, hazardous gas, and, according to the illumination size, the wireless lighting driver is regulated brightness of illumination automatically.

The Upper system server obtains the temperature information of whole indoor (being presumptive area) environment, can form the indoor temperature area distribution, realizes the monitoring to superheat region; Same, Upper system can obtain the hazardous gas of whole indoor environment and the area distribution of cigarette emotion condition, indoor every environmental parameter is monitored, thereby realized the intelligent early-warning that indoor fire safety is taken precautions against natural calamities.

Further, this system arranges the position reference module on a plurality of wireless lighting drivers, realizes indoor occupant location and/or article location, and the Information Push Service based on personnel positions is provided.

In addition, a plurality of wireless lighting drivers can be used as the intelligent node of whole building, electric current and energy consumption except loading current Sensor monitoring illuminating line, and loading environment Sensor monitoring ambient temperature and humidity, illumination, CO2, cigarette sense, hazardous gas etc., can also be as the position reference node, load electric wave flight time location algorithm, to the node that is positioned in zone, provide location information service.Particularly as follows:

Personnel positioning is specifically comprised: personnel are hand-held or dress wireless localization apparatus, this equipment belongs to the node of whole wireless network, this positioning equipment can be initiated Location Request to 3 nearest wireless lighting drivers, after the wireless lighting driver obtains this Location Request, send wireless signal to wireless localization apparatus, and receive the wireless signal that wireless localization apparatus returns immediately, shake and calculate signal through the time that spent back and forth with frequency multiplier circuit by oikocryst in hardware.After 3 wireless lighting drivers calculate respectively this time, unification is crossed radio network gateway by this information exchange and is sent to the Upper system server, the Upper system server was calculated according to constraint triangle and 3 times of the relative position coordinates system foundation of these 3 wireless lighting drivers, obtain the relative position of wireless localization apparatus in this constraint triangle, and then obtain this wireless localization apparatus at indoor particular location.

In like manner, according to the above-mentioned method to personnel positioning, can position article and vehicle.It should be noted that, when article are positioned, wireless localization apparatus is arranged on the article that need location; When vehicle is positioned, wireless localization apparatus is arranged on the vehicle that needs location.

For location-based information service pushing, particularly, wireless localization apparatus is arranged on to the smart mobile phone bonnet, and carry out near-field communication or directly be connected by data wire with smart mobile phone, once personnel enter the room area that can carry out information service pushing, the Upper system server gets current personnel's concrete zone, send the corresponding information service by operator to this smart mobile phone, perhaps directly this information is sent to wireless localization apparatus, wireless localization apparatus is by data wire or near-field communication, send the information service regional based on this to this smart mobile phone.

In addition, for personnel, look for the stream of people and dredge, can realize by personnel positioning.It is the positional information that the soft server of Upper system is grasped numerous personnel of being positioned in presumptive area, and then can realize looking for of designated person, simultaneously can be in the situation that indoorly crowdedly carry out effective personnel according to the personnel positions information of grasping and dredge, particularly, can realize by information service pushing or indoor broadcast system.

In like manner, according to the above-mentioned method of dredging with the stream of people that personnel are looked for, can be looked for and be dredged vehicle.It should be noted that, vehicle is being looked for while dredging with vehicle, wireless localization apparatus is arranged on the vehicle that needs location.

The wireless network cloud plateform system based on lighting nodes according to the embodiment of the present invention, control and substitute wired illumination control with wireless lighting, thereby can save manpower and material resources cost, simultaneously, this system detects in real time lighting energy consumption and carries out light modulation according to current illumination, not only environmental protection but also save power consumption; Further, the Real-Time Monitoring of this system to electric current and energy consumption in the wireless lighting network, for the illuminating line fault, with respect to the investigation process of a large amount of cables in existing illuminator, can realize rapidly accurately location faulty line, reduces the investigation time; In addition, this system can be in real time monitored the temperature of specific region, hazardous gas etc., thereby realizes the intelligent early-warning of taking precautions against natural calamities; This system can also and be searched the location of personnel, article and vehicle in specific region, thereby realizing that the specific region stream of people dredges with vehicle dredges etc.

In the description of this specification, the description of reference term " embodiment ", " some embodiment ", " example ", " concrete example " or " some examples " etc. means to be contained at least one embodiment of the present invention or example in conjunction with specific features, structure, material or the characteristics of this embodiment or example description.In this manual, the schematic statement of above-mentioned term not necessarily referred to identical embodiment or example.And the specific features of description, structure, material or characteristics can be with suitable mode combinations in any one or more embodiment or example.

Although illustrated and described embodiments of the invention, those having ordinary skill in the art will appreciate that: in the situation that do not break away from principle of the present invention and aim can be carried out multiple variation, modification, replacement and modification to these embodiment, scope of the present invention is by claim and be equal to and limit.

Claims (9)

1. the wireless network cloud plateform system based on lighting nodes, is characterized in that, comprising: radio network gateway, at least one wireless lighting driver, at least one wireless lighting controller, at least one terminal that is positioned, cloud server and client, wherein,

Described at least one wireless lighting driver comprises: electric current and energy consumption monitoring module, position reference module and environmentally sensitive module, described electric current and energy consumption monitoring module are for being monitored electric current and the energy consumption of illuminating line, and the electric current and the energy consumption that monitor are reported to described cloud server, described position reference module is for identifying at least one terminal that is positioned in presumptive area and location, and the locating information of described at least one terminal that is positioned is sent to described cloud server, described environmentally sensitive module is for monitoring the environmental parameter in presumptive area, and described environmental parameter is reported to described cloud server,

Described at least one wireless lighting controller is for to described at least one wireless lighting driver sending controling instruction, with by described at least one wireless lighting driver drives lighting;

Described at least one terminal that is positioned is in the scope covered at lighting nodes, carry out communication with described position reference module, calculate distance parameter and obtain the relative position of described at least one terminal that is positioned, and by described position reference module, locating information is sent to described cloud server;

Described cloud server is connected with described radio network gateway, configuration information is issued to described at least one wireless lighting driver and described at least one wireless lighting controller by described radio network gateway, to be configured, and according to user instruction, described at least one wireless lighting driver is controlled, and judge according to electric current and the energy consumption of illuminating line whether described illuminating line exists fault, and according to the locating information of described at least one terminal that is positioned of described position reference module monitors to described at least one terminal position monitoring that is positioned, and according to described environmental parameter, the environment in presumptive area is monitored, and monitor data is shown to the user, and

Described client is used for carrying out alternately with described cloud server, and sends described configuration information and described user instruction to described cloud server, and receives the feedback information from described cloud server, and is shown to the user.

2. the Wi-Fi cloud plateform system based on lighting nodes according to claim 1, is characterized in that, described by least one wireless lighting driver drives lighting, specifically comprises:

Described lighting is carried out to switch control, color adaptation and brightness regulation.

3. the wireless network cloud plateform system based on lighting nodes according to claim 1, is characterized in that, described environmental parameter comprises: the parameter of temperature, humidity, illumination, CO2, cigarette sense and hazardous gas.

4. the wireless network cloud plateform system based on lighting nodes according to claim 3, is characterized in that, described at least one wireless lighting driver is also regulated the brightness of described lighting automatically for the illumination according to described environmental parameter.

5. the wireless network cloud plateform system based on lighting nodes according to claim 3, it is characterized in that, described cloud server also judges temperature province distribution, cigarette emotion condition area distribution and the hazardous gas Regional Distribution of Registered of described presumptive area for the temperature parameter according to described environmental parameter, cigarette sense parameter and hazardous gas parameter, in order to realize fire prevention and take precautions against natural calamities according to temperature province distribution, cigarette emotion condition area distribution and the hazardous gas Regional Distribution of Registered of described presumptive area.

6. the wireless network cloud plateform system based on lighting nodes according to claim 1, it is characterized in that, the locating information of described described at least one terminal that is positioned according to described position reference module monitors, to described at least one terminal position monitoring that is positioned, further comprises:

Send Location Request to 3 position reference modules of closing on by least one terminal that is positioned, described 3 position reference modules are after getting described Location Request, send wireless signal to described at least one terminal that is positioned, and receive the wireless signal of described at least one terminal feedback that is positioned, described 3 position reference modules are shaken according to oikocryst in hardware respectively and frequency multiplier circuit calculates wireless signal by described 3 position reference modules transmission and feeds back to described 3 times that the position reference module spends, and by radio network gateway, the described time is sent to described cloud server, described cloud server was calculated according to constraint triangle and the described time of the relative position coordinates system foundation of described 3 position reference modules, obtain described at least one terminal relative position in described constraint triangle that is positioned, and obtain described at least one terminal particular location in presumptive area that is positioned according to described relative position.

7. the wireless network cloud plateform system based on lighting nodes according to claim 6, is characterized in that, described at least one terminal that is positioned comprises: personnel, article and/or vehicle.

8. according to claim 1 and the 7 described wireless network cloud plateform systems based on lighting nodes, it is characterized in that, the locating information of described at least one terminal that is positioned according to described position reference module monitors, to described at least one terminal position monitoring that is positioned, further comprises:

Locating information according to described personnel and/or vehicle, described cloud server can obtain the positional information of the interior a plurality of personnel of being positioned of presumptive area and/or vehicle, positional information according to described a plurality of be positioned personnel and/or vehicles, look for designated person and/or vehicle, and according to the positional information of described a plurality of personnel of being positioned and/or vehicle in the situation that personnel and/or vehicle is intensive carries out dredging of personnel and/or vehicle in presumptive area.

9. the wireless network cloud plateform system based on lighting nodes according to claim 1, it is characterized in that, described cloud server is also controlled for directly described lighting being carried out to switch control, color adaptation, timing controlled and scene, and illumination condition, power consumption and the environmental parameter of the described wireless network platform system based on node of Real-Time Monitoring.

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