CN107660044A - A kind of interior lighting system and control method based on mesh networks - Google Patents

Abstract

The present embodiments relate to a kind of interior lighting system and control method based on mesh networks, the illuminator includes multiple sensor terminal nodes, multiple lamp terminal node, protocol conversion apparatus and control platforms；Multiple sensor terminal nodes and multiple lamp terminal node composition mesh networks, mesh networks communicate to connect control platform by protocol conversion apparatus；Sensor terminal node includes the first radio communication device and movable signal acquisition sensor, and movable signal acquisition sensor is electrically connected with first radio communication device, the first beacon base stations are configured with the first radio communication device；Lamp terminal node includes the second radio communication device and lighting device, and lighting device is electrically connected with second radio communication device, the 2nd beacon base stations are configured with second radio communication device.The embodiment of the present invention can be realized to be illuminated on demand, in the case where not influenceing illumination, saves energy resource consumption.

Description

A kind of interior lighting system and control method based on mesh networks

Technical field

The present embodiments relate to field of intelligent control, more particularly to a kind of interior lighting system based on mesh networks and Control method.

Background technology

With the popularization of vehicle, the application of underground parking is increasingly extensive.Due to underground parking natural light daylighting effect Difference, it is therefore desirable to which special illuminator illuminates.Underground parking typically uses common fluorescent lamp lighting, fluorescent lamp base at present This is in normal bright state, to facilitate the user for entering underground parking.

Realize in process of the present invention, inventor has found that at least there are the following problems in correlation technique：

There is obvious " tidal phenomena " in the lighting demand of underground parking, i.e. the difference of peak period and low-valley interval are bright It is aobvious, but traditional fluorescent lamp will not change brightness because of this species diversity, not reach the purpose illuminated on demand, when causing low ebb The energy waste of section.

The content of the invention

The purpose of the embodiment of the present invention is to provide a kind of interior lighting system and control method based on mesh networks, can root According to the lighting device in the indoor places such as lighting demand intelligent control underground parking, energy waste is avoided.

In a first aspect, the embodiments of the invention provide a kind of interior lighting system based on mesh networks, the illumination system System includes multiple sensor terminal nodes, multiple lamp terminal node, protocol conversion apparatus and control platforms；

Multiple sensor terminal nodes and multiple lamp terminal node composition mesh networks, the mesh networks The control platform is communicated to connect by the protocol conversion apparatus；

The sensor terminal node includes the first radio communication device and movable signal acquisition sensor, the mobile letter Number collection sensor is electrically connected with first radio communication device, and first is configured with first radio communication device Beacon base stations；

The lamp terminal node includes the second radio communication device and lighting device, and the lighting device is electrically connected with institute The second radio communication device is stated, the 2nd beacon base stations are configured with second radio communication device；

The movable signal acquisition sensor is used for the mobile message for gathering target, and first radio communication device is used for Obtain the first position information of the mobile message and the first beacon base stations, and by the mobile message and described One positional information is sent to the control platform, and the control platform is used to be believed according to the mobile message and the first position Breath the first control information of generation, and first control information is sent to the illumination corresponding with the first position information Terminal node, second radio communication device are used to receive first control information, and according to first control information Control the illumination condition of the lighting device.

Optionally, first radio communication device is additionally operable to generate the second control information according to the mobile message, and Second control information is sent to the lamp terminal node corresponding with first radio communication device, second nothing Line communicator is additionally operable to receive second control information, and controls the lighting device according to second control information Illumination condition.

Optionally, the lamp terminal node also includes brightness detection sensor, and the brightness detection sensor electrically connects Connect second radio communication device；

The brightness detection sensor is used for the monochrome information for detecting lighting device, and second radio communication device is also used Confirm in the second place information for obtaining the monochrome information and the 2nd beacon base stations, and according to the monochrome information The malfunction of the lighting device, and the malfunction and the second place information are sent to the control platform.

Optionally, the control platform is believed according to the mobile message and the control of first position information generation first Breath, and first control information is sent to the lamp terminal node corresponding with the first position information, including:

The motion track of the target is obtained according to the mobile message；

First control information is generated according to the motion track and the first position information, and the described first control is believed Breath is sent to the lamp terminal node corresponding with the first position information, to pass through the second radio communication device control The lighting device made in the target moving direction front region is illuminated, and the target moving direction front region is according to institute State motion track and the first position information determines.

Optionally, first radio communication device and second radio communication device are Bluetooth chip.

Optionally, the illuminator also includes communication terminal, the communication terminal and control platform communication connection；

The first beacon base stations and the 2nd beacon base stations are used to send broadcast singal by predeterminated frequency, described Broadcast singal includes the positional information of the first beacon base stations or the 2nd beacon base stations, and the communication terminal is used In the reception broadcast singal, and the intensity of the broadcast singal and the broadcast singal is sent to control platform, it is described Control platform is additionally operable to determine that the position of the communication terminal is believed according to the intensity of the broadcast singal and the broadcast singal Breath, and the positional information of the communication terminal is sent to the communication terminal.

Optionally, the protocol conversion apparatus is gateway.

Optionally, the movable signal acquisition sensor is dual technology sensor, and the brightness detection sensor passes for light sensation Sensor.

Optionally, the lighting device includes the relay and illuminating lamp being electrically connected with, the relay and described second Radio communication device is electrically connected with.

Second aspect, the embodiments of the invention provide a kind of room lighting control method based on mesh networks, the control Method processed is applied to control platform, and the control platform communicates to connect multiple sensor terminal nodes and multiple lamp terminal sections Point, the multiple sensor terminal node include with multiple lamp terminal nodes composition mesh networks, methods described：

Obtain the mobile message of target and the first beacon of sensor terminal node of sensor terminal node collection The first position information of base station；

First control information is generated according to the mobile message and the first position information, and the described first control is believed Breath is sent to lamp terminal node corresponding with the first position information, so that the lamp terminal node is according to described first Control information controls the illumination condition of the lamp terminal node.

Optionally, it is described that first control information is generated according to the mobile message and the first position information, and by institute State the first control information and be sent to the lamp terminal node corresponding with the positional information, so that the lamp terminal node The illumination condition of the lamp terminal node is controlled according to first control information, including：

The motion track of the target is obtained according to the mobile message；

First control information is generated according to the motion track and the first position information, and the described first control is believed Breath is sent to the lamp terminal node corresponding with the first position information, so that the target moving direction front region Interior lamp terminal node is illuminated, and the target moving direction front region is according to the motion track and described first Confidence breath determines.

The beneficial effect of the embodiment of the present invention is：The embodiment of the present invention detects target by movable signal acquisition sensor Mobile message, by the first radio communication device by the mobile message of the target of acquisition and the first position of the first beacon base stations Information is sent to control platform, and which region someone is control platform may determine that according to the mobile message and first position information Or vehicle needs to illuminate, so as to generate the first control information, and first control information is sent to the illumination of respective regions Terminal node, so that the lighting device of the respective regions is illuminated.So lighting device may be at non-illumination state, only When there is mobile target, the lighting device for moving target region is in illumination condition, illuminated on demand with realizing, In the case of not influenceing illumination, energy resource consumption is saved.

Brief description of the drawings

One or more embodiments are illustrative by the picture in corresponding accompanying drawing, these exemplary theorys The bright restriction not formed to embodiment, the element for having same reference numbers label in accompanying drawing are expressed as similar element, removed Non- have a special statement, and composition does not limit the figure in accompanying drawing.

Fig. 1 is the structural representation of the interior lighting system provided in an embodiment of the present invention based on mesh networks；

Fig. 2 be the interior lighting system based on mesh networks of the invention one embodiment in sensor terminal node knot Structure schematic diagram；

Fig. 3 be the interior lighting system based on mesh networks of the invention one embodiment in lamp terminal node structure Schematic diagram；

Fig. 4 be the interior lighting system based on mesh networks of the invention one embodiment in lamp terminal node structure Schematic diagram；

Fig. 5 be the interior lighting system based on mesh networks of the invention one embodiment in lamp terminal node structure Schematic diagram；

Fig. 6 is the structural representation of the interior lighting system provided in an embodiment of the present invention based on mesh networks；

Fig. 7 is the schematic flow sheet of the room lighting control method provided in an embodiment of the present invention based on mesh networks.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is Part of the embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

The embodiments of the invention provide a kind of interior lighting system for being based on mesh networks (wireless mesh network), Ke Yiyong Illumination in underground parking, can be used for the illumination in other similar indoor places, such as indoor sport place, classroom Illumination.

Fig. 1 is refer to, Fig. 1 is the structural representation of the interior lighting system provided in an embodiment of the present invention based on mesh networks Figure, as shown in figure 1, the interior lighting system based on mesh networks includes multiple sensor terminal nodes 10, multiple illuminations Terminal node 20, protocol conversion apparatus 30 and control platform 40.Multiple sensor terminal nodes 10 and multiple lamp terminal nodes 20 composition mesh networks, mesh networks communicate to connect control platform 40 by protocol conversion apparatus 30.

Mesh networks are also referred to as multihop network, are a kind of new wireless networks technologies different from conventional wireless network. Each node in mesh networks can send and receive signal, and each node can be with one or more peer node Carry out direct communication.Mesh networks from other existing networks based on different Data Transport Protocols, therefore connect other nothings , can not direct communication connection when line LAN or internet.Realize that mesh networks and control are flat by protocol conversion apparatus 30 The interconnection of platform 40, such control platform 40 can be based on existing WLAN or internet carries out data transmission, it is not necessary to Networking is re-started based on mesh networks.Multiple sensor terminal nodes 10 and lamp terminal node 20 are formed into mesh networks, The unified communication connection that each terminal node and external control platform 40 are realized by protocol conversion apparatus 30, without setting volume Outer routing node, saves number of network node, reduces cost.Multiple sensor terminal nodes 10 and lamp terminal node 20 Correct position indoors can be arranged, sensor terminal and lamp terminal are provided separately as different mesh nodes, can So that the set location of sensor terminal is more flexible, so as to increase the accuracy of sensor detection.

Wherein, protocol conversion apparatus 30 can be that gateway etc. can be mutual by two different real-time performances of Data Transport Protocol Device even, control platform 40 can be home server or cloud server etc..

Specifically, please with reference to Fig. 2-Fig. 4, sensor terminal node 10 includes the first radio communication device 12 and movement Signal acquisition sensor 11, movable signal acquisition sensor 11 are electrically connected with the first radio communication device 12.First radio communication The first beacon base stations 121 are configured with device 12, each first beacon base stations 121 are equipped with the position letter of the base station Breath, i.e. first position information.Movable signal acquisition sensor 11 is used for the mobile message for gathering the targets such as people or vehicle, mobile Signal acquisition sensor can use dual technology sensor, infrared sensor and ultrasonic sensor etc..First radio communication fills The radio communication device with wireless sending and receiving function and operation processing function, such as Bluetooth chip can be used by putting 12.

First radio communication device 12 is used to obtain the mobile message and the first position information and transmit the shifting Dynamic information and the first position information are to control platform 40, then by control platform 40 according to the mobile message and first position Information generates the first control information, by the way that first control information is sent into corresponding lamp terminal node 20, realizes control The control of bright device 21.First radio communication device 12 can also directly generate the second control information according to the mobile message, lead to Cross and second control information is sent directly to corresponding lamp terminal node 20, realize the control of illumination apparatus 21.

Lamp terminal node 20 includes the second radio communication device 22 and lighting device 21, and lighting device 21 is electrically connected with the Two radio communication devices 22, the 2nd beacon base stations 221, each 2nd beacon bases are configured with the second radio communication device 22 Stand 221 positional informations for being equipped with the base station, i.e. second place information.Second radio communication device 22, which can use, has nothing The radio communication device of line sending and receiving function and operation processing function, such as Bluetooth chip.Second radio communication device 22 is used to connect The first control information of the transmission of control platform 40 or the second control information of the first radio communication device 12 transmission are received, with basis The illumination condition of first control information or the second control information control lighting device 21.Further, lighting device 21 wraps Relay 211 and illuminating lamp 212 are included, relay 211 is electrically connected with the second radio communication device 22.Second radio communication device 22 can control the illumination condition of illuminating lamp 212 by relay 211, such as control illuminating lamp 212 is lighted and extinguished, and Adjust brightness of illuminating lamp 212 etc..For example, someone or vehicle light illuminating lamp, long-time nobody or vehicle when moving When mobile, extinguish illuminating lamp；When someone or vehicle move, illuminating lamp 212, long-time nobody or vehicle movement are lightened When, dim illuminating lamp 212.

The embodiment of the present invention realizes that the control of illumination apparatus 21 includes but is not limited to following two modes：

In the first way, movable signal acquisition sensor 11 is by the mobile letter of the targets such as the people collected or vehicle Breath is sent to the first radio communication device 12, and the first radio communication device 12 obtains the mobile message, and obtains first position letter Breath, mobile message and first position information are then sent to control platform 40, control platform 40 is according to mobile message and the One positional information generates the first control information, and first control information is sent into illumination corresponding with first position information eventually End node 20, the second radio communication device 22 receives first control information, and controls lighting device according to the first control information 21。

When there is the targets such as vehicle or people in motion, movable signal acquisition sensor 11 will collect the mobile letter of target Breath, with reference to first position information, for control platform 40 it is known that there is the particular location of mobile target, control platform 40 controls phase The lighting device 21 for closing region is illuminated, to provide illumination for vehicle or people.Further, after certain interval of time, if Do not receive control information again, the second radio communication device 22 can control lighting device 21 no longer to illuminate, with realize on demand according to It is bright.

Specifically, in the first way, can be first according to movement using the control of the illumination apparatus 21 of control platform 40 The motion track of information acquisition target, the first control information is generated according to the motion track and the first position information, and First control information is sent to the lamp terminal node 20 corresponding with the first position information, with by described Second radio communication device 22 controls the lighting device in the target moving direction front region to be illuminated, target movement Direction front region can determine according to the motion track and the first position information.First obtain vehicle or the shifting of people Dynamic rail mark, its direction of motion is may determine that according to motion track, and vehicle can be controlled according to the direction of motion and first position information Or the lighting device 21 in the front region of people is illuminated.

In the second way, movable signal acquisition sensor 11 is by the mobile letter of the targets such as the people collected or vehicle Breath is sent to the first radio communication device 12, and the first radio communication device 12 obtains the mobile message, and according to the mobile message The second control information is generated, and second control information is sent to and the sensor end including first radio communication device 12 Lamp terminal node 20 corresponding to end node 10, the second radio communication device 22 receive the second control information, and according to the second control Information processed controls lighting device 21., it is necessary to set sensor in the first radio communication device 12 in advance in the second way The corresponding relation of terminal node 10 and lamp terminal node 20, several photographs can be controlled by a sensor terminal node 10 is corresponding Bright terminal node 20.

Both the above mode, i.e., lighting device 21 is controlled by control platform 40 and controlled by the first radio communication device 12 Lighting device 21 processed.In a particular application, it can be controlled, can also be used second all the time using first way all the time Mode is controlled, and can also be controlled with reference to both the above mode illumination apparatus 21.Such as when external network is unstable When, corresponding lighting device 21 can be controlled by the first radio communication device 12, when external network is stable, can be passed through Control platform 40 is come lighting device 21 corresponding to controlling.

The embodiment of the present invention, the mobile message of target is detected by movable signal acquisition sensor 11, it is wireless by first The first position information of the mobile message of the target of acquisition and the first beacon base stations is sent to control platform by communicator 12 40, control platform 40 may determine which region someone or vehicle need to shine according to the mobile message and first position information It is bright, so as to generate the first control information, and first control information is sent to the lamp terminal node of respective regions, so that should The lighting device of respective regions is illuminated.So lighting device need not be constantly in illumination condition, only when the mobile mesh of appearance Timestamp, the lighting device for moving target region is just set to be in illumination condition, it is possible to achieve to illuminate on demand, do not influenceing to illuminate In the case of, save energy consumption.

Optionally, as shown in figure 5, in the other embodiment of the illuminator, lamp terminal node 20 also includes bright Detection sensor 23 is spent, brightness detection sensor 23 is electrically connected with the second radio communication device 22, and brightness detection sensor 23 is used In the monochrome information of detection lighting device 21, the second radio communication device 22 is additionally operable to obtain the monochrome information and second The second place information of beacon base stations 221, and the malfunction according to monochrome information confirmation lighting device 21, and will The malfunction and the second place information are sent to the control platform 40.

When lighting device 21 breaks down, for example, the luminance shortage of lighting device 21 or when not working completely, the second nothing Line communicator 22 detects the monochrome information of lighting device 21 by brightness detection sensor 23, is judged according to the monochrome information Whether lighting device 21 is in malfunction, if there is failure, then reports the failure to control platform 40, and report this simultaneously The second place information for the 2nd beacon base stations that lighting device 21 is located at.So property attendant can track appearance event The particular location of the lighting device 21 of barrier, human cost is reduced while improving maintenance efficiency.Wherein, brightness detection sensor 23 Photosensitive sensors can be used.

Optionally, as shown in fig. 6, in the other embodiment of the illuminator, the illuminator also includes communication Terminal 50, communication terminal 50 and control platform 40 communicate to connect.

First beacon base stations 121 and the 2nd beacon base stations 221 are used to send broadcast singal, institute by predeterminated frequency Stating broadcast singal includes the positional information of the first beacon base stations 121 or the 2nd beacon base stations 221, i.e., first position information or Person second place information.Communication terminal 50 is used to receive the broadcast singal, and the broadcast singal and the broadcast are believed Number intensity be sent to control platform 40, control platform 40 is additionally operable to according to the strong of the broadcast singal and the broadcast singal Degree determines the positional information of the communication terminal 50, and the positional information of the communication terminal 50 is sent into the communication terminal 50。

Specifically, after communication terminal 50 receives the broadcast singal, the signal intensity of the broadcast singal can be obtained (Received Signal Strength Indication, RSSI).Control platform 40 is stored with distance corresponding to signal intensity Information, after control platform 40 receives the signal intensity of the broadcast singal of the transmission of communication terminal 50, by searching above-mentioned corresponding pass System, the distance between communication terminal 50 and base station can be obtained according to the signal intensity.The broadcast singal that control platform 40 receives In include the positional information of base station, by the distance and the positional information of base station, utilize trilateration and Taylor (Taylor) Series expansion method can obtain the positional information of communication terminal 50.

The embodiment of the present invention makes beacon base stations by pre- by setting Beacon base stations on each mesh network nodes If frequency sends broadcast singal, as long as user opens the indoor map in communication terminal 50, it is possible to according to communication terminal 50 Positional information the position of oneself is oriented in map, so as to realize indoor navigation function, applied to large parking lot Occasion, the function are picked up the car for user and provided conveniently.Wherein, communication terminal can be smart mobile phone, tablet personal computer or personal meter Calculation machine etc..

Optionally, the control function of the above-mentioned illumination apparatus 21 of control platform 40 can be by operation program instruction come real It is existing.Described program instruction is stored in the memory of control platform 40, the programmed instruction can be by the place of control platform 40 Manage device perform, the programmed instruction by control platform 40 computing device when, the computing device following methods of control platform 40：

The mobile message of the target of the collection of acquisition movable signal acquisition sensor 11 and the first of the first beacon base stations Positional information；

First control information is generated according to the mobile message and the first position information, and the described first control is believed Breath is sent to the lamp terminal node 20 corresponding with the first position information, so that the basis of lamp terminal node 20 First control information controls the illumination of the lighting device 21.

Specifically, the processor loading described program instruction of control platform 40 performs following operation so that according to the movement Information and the first position information generate the first control information, and first control information is sent to and described first The lamp terminal node corresponding to confidence breath, so that the lamp terminal node is according to controlling first control information The illumination of lamp terminal node：

The motion track of the target is obtained according to the mobile message；

First control information is generated according to the motion track and the first position information, and the described first control is believed Breath is sent to the lamp terminal node corresponding with the first position information, so that the target moving direction front region Interior lighting device 21 is illuminated, and the target moving direction front region is according to the motion track and the first position Information determines.

Optionally, the control function of the above-mentioned illumination apparatus 21 of first radio communication device 12 can also pass through operation program Instruct to realize.Described program instruction is stored in the memory of the first radio communication device 12, the programmed instruction can be with By the computing device of the first radio communication device 12, the programmed instruction is by the computing device of the first radio communication device 12 When, the computing device following methods of the first radio communication device 12：

Obtain the mobile message of the target of the collection of movable signal acquisition sensor 11；

According to the mobile message of target generate the second control information, and send second control information to first nothing The lamp terminal node 20 corresponding to line communicator 12, so that the lamp terminal node 20 is according to the described second control Information processed controls the illumination of the lighting device 21.

Optionally, the control function of the above-mentioned illumination apparatus 21 of second radio communication device 22 can also pass through operation program Instruct to realize.Described program instruction is stored in the memory of the second radio communication device 22, the programmed instruction can be with By the computing device of the second radio communication device 22, the programmed instruction is by the computing device of the second radio communication device 12 When, the computing device following methods of the second radio communication device 22：

First control information is received, and the lighting device is controlled according to first control information.

Optionally, the processor of the second radio communication device 22 be additionally operable to load described program instruct and perform：

Second control information is received, and the lighting device is controlled according to second control information.

Optionally, the processor of the second radio communication device 22 be additionally operable to load described program instruct and perform：

The monochrome information and the second place information of the 2nd beacon base stations are obtained, and is believed according to the brightness Breath confirms the malfunction of the lighting device, and the malfunction and the second place information are sent into the control Platform.

Accordingly, as shown in fig. 7, the embodiment of the present invention additionally provides a kind of room lighting controlling party based on mesh networks Method, the control method can apply to above-mentioned control platform 40, and methods described includes：

101：The mobile message of the target of acquisition sensor terminal node collection and the first of sensor terminal node The first position information of beacon base stations；

102：First control information is generated according to the mobile message and the first position information, and described first is controlled Information processed is sent to the lamp terminal node corresponding with the first position information so that the lamp terminal node according to First control information controls the illumination of the lamp terminal node.

The embodiment of the present invention detects the mobile message of target by movable signal acquisition sensor, passes through the first radio communication The first position information of the mobile message of the target of acquisition and the first beacon base stations is sent to control platform by device, and control is flat Platform may determine which region someone or vehicle need to illuminate according to the mobile message and first position information, so as to generate First control information, and first control information is sent to the lamp terminal node of respective regions, so that the respective regions Lighting device is illuminated.So lighting device may be at non-illumination state, only when there is mobile target, just make movement The lighting device of target region is in illumination condition, is illuminated with realizing, in the case where not influenceing illumination, saved on demand Energy resource consumption.

Specifically, in some embodiments of methods described, it is described to be believed according to the mobile message and the first position Breath the first control information of generation, and first control information is sent to the illumination corresponding with the first position information Terminal node, so that the lamp terminal node controls the illumination of the lamp terminal node according to first control information, Including：

The motion track of the target is obtained according to the mobile message；

First control information is generated according to the motion track and the first position information, and the described first control is believed Breath is sent to the lamp terminal node corresponding with the first position information, so that the target moving direction front region Interior lamp terminal node is illuminated, and the target moving direction front region is according to the motion track and described first Confidence breath determines.

Finally it should be noted that：The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；At this Under the thinking of invention, it can also be combined between the technical characteristic in above example or different embodiments, step can be with Realized with random order, and many other changes of the different aspect of the present invention as described above be present, for simplicity, they do not have Have and provided in details；Although the present invention is described in detail with reference to the foregoing embodiments, the ordinary skill people of this area Member should be understood：It can still modify to the technical scheme described in foregoing embodiments, or to which part skill Art feature carries out equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from each reality of the present invention Apply the scope of a technical scheme.

Claims (11)

1. a kind of interior lighting system based on mesh networks, it is characterised in that it is whole that the illuminator includes multiple sensors End node, multiple lamp terminal node, protocol conversion apparatus and control platforms；

Multiple sensor terminal nodes and multiple lamp terminal node composition mesh networks, the mesh networks pass through The protocol conversion apparatus communicates to connect the control platform；

The sensor terminal node includes the first radio communication device and movable signal acquisition sensor, and the movable signal is adopted Collect sensor and be electrically connected with first radio communication device, the first beacon bases are configured with first radio communication device Stand；

The lamp terminal node includes the second radio communication device and lighting device, and the lighting device is electrically connected with described the Two radio communication devices, the 2nd beacon base stations are configured with second radio communication device；

The movable signal acquisition sensor is used for the mobile message for gathering target, and first radio communication device is used to obtain The mobile message and the first position information of the first beacon base stations, and by the mobile message and described first Confidence breath is sent to the control platform, and the control platform is used to be given birth to according to the mobile message and the first position information The lamp terminal corresponding with the first position information is sent into the first control information, and by first control information Node, second radio communication device is used to receive first control information, and is controlled according to first control information The illumination condition of the lighting device.

2. the interior lighting system according to claim 1 based on mesh networks, it is characterised in that first channel radio T unit is additionally operable to generate the second control information according to the mobile message, and sends second control information to described the The lamp terminal node corresponding to one radio communication device, second radio communication device are additionally operable to receive second control Information processed, and according to the illumination condition of second control information control lighting device.

3. the interior lighting system according to claim 1 based on mesh networks, it is characterised in that the lamp terminal section Point also includes brightness detection sensor, and the brightness detection sensor is electrically connected with second radio communication device；

The brightness detection sensor is used for the monochrome information for detecting lighting device, and second radio communication device is additionally operable to obtain The monochrome information and the second place information of the 2nd beacon base stations are taken, and according to confirming the monochrome information The malfunction of lighting device, and the malfunction and the second place information are sent to the control platform.

4. the interior lighting system according to claim 1 based on mesh networks, it is characterised in that the control platform root Generate the first control information according to the mobile message and the first position information, and by first control information be sent to The lamp terminal node corresponding to the first position information, including:

The motion track of the target is obtained according to the mobile message；

First control information is generated according to the motion track and the first position information, and first control information is sent out The lamp terminal node corresponding with the first position information is sent to, to control institute by second radio communication device The lighting device stated in target moving direction front region is illuminated, and the target moving direction front region is according to the shifting Dynamic rail mark and the first position information determine.

5. according to the interior lighting system based on mesh networks described in claim 1-4 any one, it is characterised in that described First radio communication device and second radio communication device are Bluetooth chip.

6. the interior lighting system according to claim 5 based on mesh networks, it is characterised in that the illuminator is also Including communication terminal, the communication terminal and control platform communication connection；

The first beacon base stations and the 2nd beacon base stations are used to send broadcast singal, the broadcast by predeterminated frequency Signal includes the positional information of the first beacon base stations or the 2nd beacon base stations, and the communication terminal is used to connect The broadcast singal is received, and the intensity of the broadcast singal and the broadcast singal is sent to control platform, the control Platform is additionally operable to determine the positional information of the communication terminal according to the intensity of the broadcast singal and the broadcast singal, and The positional information of the communication terminal is sent to the communication terminal.

7. the interior lighting system according to claim 6 based on mesh networks, it is characterised in that the protocol conversion dress It is set to gateway.

8. the interior lighting system according to claim 6 based on mesh networks, it is characterised in that the movable signal is adopted Integrate sensor as dual technology sensor, the brightness detection sensor is photosensitive sensors.

9. the interior lighting system according to claim 6 based on mesh networks, it is characterised in that the lighting device bag The relay and illuminating lamp of electric connection are included, the relay is electrically connected with second radio communication device.

10. a kind of room lighting control method based on mesh networks, it is characterised in that it is flat that the control method is applied to control Platform, the control platform communicate to connect multiple sensor terminal nodes and multiple lamp terminal nodes, and the multiple sensor is whole End node includes with multiple lamp terminal nodes composition mesh networks, methods described：

Obtain the mobile message of target and the first beacon base stations of sensor terminal node of sensor terminal node collection First position information；

First control information is generated according to the mobile message and the first position information, and first control information is sent out Lamp terminal node corresponding with the first position information is sent to, so that the lamp terminal node is according to the described first control Information controls the illumination condition of the lamp terminal node.

11. the room lighting control method according to claim 10 based on mesh networks, it is characterised in that the basis The mobile message and the first position information generate the first control information, and first control information is sent to and institute The lamp terminal node corresponding to positional information is stated, so that the lamp terminal node controls according to first control information The illumination condition of the lamp terminal node, including：

The motion track of the target is obtained according to the mobile message；

First control information is generated according to the motion track and the first position information, and first control information is sent out The lamp terminal node corresponding with the first position information is sent to, so that in the target moving direction front region Lamp terminal node is illuminated, and the target moving direction front region is believed according to the motion track and the first position Breath determines.