CN204335019U - Intelligent illumination management system, OLT and optical network device - Google Patents

Abstract

The utility model relates to optical communication field, discloses a kind of Intelligent illumination management system, OLT and optical network device, this Intelligent illumination management system, comprise: optical line terminal OLT, for collecting and processing reporting information, and produce control signal, in control signal, comprise the first control command; Optical fiber; Light splitter toy, by optical fiber reception control signal, and is divided into N road signal by control signal, or the signal tandem of N road is exported; Optical network device, for obtaining control signal from signal Zhong mono-tunnel, N road, and collects the information reporting OLT of illuminator; Illuminator, perception flow of personnel, receives the control signal that optical network device is sent to by short-distance wireless transmission mode; And perform the first control command, to control illuminator.

Description

Intelligent illumination management system, OLT and optical network device

Technical field

The utility model relates to optical communication field, particularly relates to a kind of Intelligent illumination management system, OLT and optical network device.

Background technology

The implementation method of current intelligent lighting controls mainly contains three kinds: (1) Bluetooth; (2) ZigBee; (3) Wi-Fi, specifically:

(1) Bluetooth implementation method, adopt distributed network structure and fast frequency hopping and short packet technology, be operated in the 2.4GHz ISM band of global general-use, data rate reaches more than 3Mbps, effectively can simplify the communication between mobile communication terminal device, also can communication between simplified apparatus and internet Internet, thus transfer of data becomes efficient more rapidly.

(2) ZigBee implementation method, wherein the characteristic of ZigBee be low-power consumption, low cost, low rate (250Kbps), closely, short time-delay, high power capacity.But because not supporting time-multiplexed channel access, can not support very well for real-time business.

Wherein, closely refer to the distance between adjacent node, transmission range is generally between 10 ~ 100m, if by the relay of route and inter-node communication, transmission range can be farther; High power capacity refers to that ZigBee can adopt starlike, sheet and mesh network topology, manages some child nodes, maximum host node ALARA Principle 254 child nodes by a host node.Host node also by last layer network node control, can form at most the large net of 65000 nodes simultaneously.

(3) Wi-Fi implementation method, Wi-Fi technology achieves higher bandwidth (transmission rate can reach more than 300Mbps), stronger radiofrequency signal (can cover farther distance), but its power consumption is larger, potential safety hazard is larger, hacker can use outward directed high-gain aerial at a few km, to invade unconsciously and to steal family or Working information.

As can be seen here, intelligent lighting technology in the past mainly controls based on wireless technology, because wireless coverage transmission range is far away, so easily by hacker's acquisition of information, and destroy enterprise's illumination or company-related information, and then cause economic loss, namely there is the technical problem that fail safe is low.In addition, long-distance transmissions or middle control signal through walls easily weakened.Further, controlled in wireless is comparatively disperseed, and is unfavorable for carrying out centralized control and optimum management to illuminator.

Utility model content

The utility model provides a kind of Intelligent illumination management system, OLT and optical network device, the technical problem that when being controlled illuminator by controlled in wireless mode in prior art to solve, fail safe is low.

First aspect, the utility model embodiment provides a kind of Intelligent illumination management system, comprising:

Optical line terminal OLT, for collecting and processing reporting information, and produces control signal, comprises the first control command in described control signal;

Optical fiber;

Light splitter toy, receives described control signal by described optical fiber, and described control signal is divided into N road signal, or the signal tandem of N road is exported;

Optical network device, for obtaining described control signal from signal Zhong mono-tunnel, described N road, and collects the information reporting OLT of illuminator;

Illuminator, described illuminator is used for perception flow of personnel, and receives the described control signal that described optical network device is sent to by short-distance wireless transmission mode; And perform described first control command, to control described illuminator.

Optionally, described illuminator, also for: detect the personnel's parameter obtaining described illuminator place environment;

Described optical network device, also for:

Receive described personnel's parameter that described illuminator sends;

Described personnel's parameter is sent to described OLT, produces described control signal to make described OLT by described personnel's parameter.

Optionally, described illuminator, also for:

Perform described first control command, to regulate the intensity of illumination of at least one lamp in described illuminator; And/or

Perform described first control command, to control the quantity of the lamp being in opening in described illuminator; And/or

Perform described first control command, to control the region of the lamp being in opening in described illuminator.

Optionally, described optical network device, also for:

Receive the second control command, described second control command is produced by the user of described optical network device;

Described second control command is sent to other optical network device under described OLT management, to be controlled the illuminator that corresponding optical network device manages by described second control command; Or

Described second control command is sent other OLT be connected as described OLT, to be controlled the illuminator that corresponding OLT manages by described second control command; Or

Described second control command is sent to OLT by network, to be controlled the illuminator that corresponding OLT manages by described second control command.

Second aspect, the utility model embodiment provides a kind of optical line terminal OLT, comprising:

First receiver, for receiving personnel's parameter of the illuminator that optical network device is sent to by optical fiber;

Controller, for obtaining described personnel's parameter, and producing control signal based on described personnel's parameter, comprising the first control command in described control signal;

First transmitter, for described control signal is sent to described optical network device by long-distance optical fiber, described control signal is sent to described illuminator by described optical network device by short-distance wireless transmission mode, to be controlled described illuminator by described first control command.

Optionally, described first control command is used for: the intensity of illumination regulating at least one lamp in described illuminator; And/or

Control the quantity of the lamp being in opening in described illuminator; And/or

Control the region of the lamp being in opening in described illuminator.

The third aspect, the utility model embodiment provides a kind of optical network device, comprising:

Second receiver, for receiving the control signal that optical line terminal OLT is sent to by optical fiber, comprises the first control command in described control signal;

Second transmitter, for described control signal is sent to illuminator by short-distance wireless transmission mode, to control described illuminator by described first control command.

Optionally, described second receiver, also for:

Receive personnel's parameter of the described illuminator place environment that described illuminator sends;

Described second transmitter, also for: described personnel's parameter is sent to described OLT, produces described control signal to make described OLT by described personnel's parameter.

Optionally, described second receiver, also for:

Receive the second control command, described second control command is produced by the user of described optical network device;

Described second transmitter, also for:

Described second control command is sent to other optical network device under described OLT management, to be controlled the illuminator that corresponding optical network device manages by described second control command; Or

Described second control command is sent other OLT be connected as described OLT, to be controlled the illuminator that corresponding OLT manages by described second control command; Or

Described second control command is sent to OLT by network, to be controlled the illuminator that corresponding OLT manages by described second control command.

The utility model beneficial effect is as follows:

In the utility model embodiment, provide a kind of Intelligent illumination management system, comprising: optical line terminal OLT, for collecting and processing reporting information, and produce control signal, in control signal, comprise the first control command; Optical fiber; Light splitter toy, by optical fiber reception control signal, and is divided into N road signal by control signal, or the signal tandem of N road is exported; Optical network device, for obtaining control signal from signal Zhong mono-tunnel, N road, and collects the information reporting OLT of illuminator; Illuminator, illuminator is used for perception flow of personnel, and receives the control signal that optical network device is sent to by short-distance wireless transmission mode; And perform the first control command, to control illuminator.Also, namely, in the utility model embodiment, control signal is long-range to be transmitted by optical fiber, and then improves the fail safe of transmission, reduces radiation; In addition, the degree that control signal is weakened is reduced; And centralized control can be carried out by OLT to illuminator, thus control mode is optimized more.

Accompanying drawing explanation

Fig. 1 is the structure chart of the Intelligent illumination management system of the utility model embodiment first aspect;

Fig. 2 is the structure chart of the optical line terminal of the utility model embodiment second aspect;

Fig. 3 is the structure chart of the optical network device of the utility model embodiment third aspect;

Fig. 4 is the flow chart of the lighting system control method of the utility model embodiment fourth aspect;

Fig. 5 is the flow chart of the lighting system control method of the utility model embodiment the 5th aspect.

Embodiment

The utility model provides a kind of Intelligent illumination management system, OLT and optical network device, the technical problem that when being controlled illuminator by controlled in wireless mode in prior art to solve, fail safe is low.

The utility model embodiment general thought is as follows:

Provide a kind of Intelligent illumination management system, comprising: optical line terminal OLT, for collecting and processing reporting information, and produce control signal, in control signal, comprise the first control command; Optical fiber; Light splitter toy, by optical fiber reception control signal, and is divided into N road signal by control signal, or the signal tandem of N road is exported; Optical network device, for obtaining control signal from signal Zhong mono-tunnel, N road, and collects the information reporting OLT of illuminator; Illuminator, illuminator is used for perception flow of personnel, and receives the control signal that optical network device is sent to by short-distance wireless transmission mode; And perform the first control command, to control illuminator.Also, namely, in the utility model embodiment, control signal is long-range to be transmitted by optical fiber, and then improves the fail safe of transmission, reduces radiation; In addition, the degree that control signal is weakened is reduced; And centralized control can be carried out by OLT to illuminator, thus control mode is optimized more.

In order to better understand technique scheme, below by accompanying drawing and specific embodiment, technical solutions of the utility model are described in detail, the specific features being to be understood that in the utility model embodiment and embodiment is the detailed description to technical solutions of the utility model, instead of the restriction to technical solutions of the utility model, when not conflicting, the technical characteristic in the utility model embodiment and embodiment can combine mutually.

First aspect, the utility model embodiment provides a kind of Intelligent illumination management system, please refer to Fig. 1, comprising:

OLT (Optical Line Terminal: optical line terminal) 10, for collecting and processing reporting information, and produces control signal, comprises the first control command in control signal; Under normal circumstances, OLT10 plays overall control;

Optical fiber 11, optical fiber 11 is generally used for the transmission carrying out data;

Light splitter toy 12, by optical fiber 11 reception control signal, and is divided into N road signal by control signal, Light splitter toy 12 the N road signal that divides all identical, and all include control signal;

Optical network device 13, for obtaining control signal from signal Zhong mono-tunnel, N road, and collect the information reporting OLT of illuminator, optical network device 13 is such as: ONU (Optical Network Unit: optical network device) or ONT (Optical network terminal, Optical Network Terminal) etc., the utility model embodiment is not restricted;

Illuminator 14, described illuminator 14 for perception flow of personnel, and receives the control signal that optical network device 13 is sent to by short-distance wireless transmission mode; And perform the first control command, to control illuminator.Short-distance wireless transmission mode is such as: bluetooth, ZigBee, Wi-Fi etc.

In specific implementation process, OLT10 can manage multiple optical network device 13, and together with the wireless control interface needed for illuminator 14 or wireline interface can being designed into optical network device 13, and then an optical network device 13 can manage multiple illuminator again, and all optical network devices 13 are all registered to OLT10, and then can realize controlling the entirety of illuminator 14 by OLT10.

As further preferred embodiment, illuminator 14, also for: detect the personnel's parameter obtaining illuminator 14 place environment;

Optical network device 13, also for:

Receive personnel's parameter that illuminator 14 sends; And

Personnel's parameter is sent to OLT10, produces control signal to make OLT10 by personnel's parameter.

In specific implementation process, illuminator 14 can comprise multiple lamp, this multiple lamp can be distributed in different regions, and illuminator 14 can also arrange transducer, for testing staff's parameter, transducer is such as: light sensor, temperature sensor, infrared sensor, acoustic sensor etc., just can detect acquisition personnel parameter by one or more in these transducers.

Such as: by light sensor surveyed area intensity of illumination, when region intensity of illumination is very low, then corresponding region nobody is described, if region intensity of illumination is higher, then illustrates that there is people in corresponding region; By temperature sensor surveyed area temperature, if the temperature in all regions is all identical, then nobody is described, and if have the temperature of subregion different from the temperature in other region and close with body temperature, then illustrate that corresponding region exists people; Also can surveyed area temperature by infrared sensor, and then can determine whether corresponding region has people by regional temperature; Surveyed area sound size can determine whether there is people by acoustic sensor, if certain region sound is greater than predetermined threshold value, then illustrates to there is people, if the sound in multiple region is all greater than predetermined threshold value, then illustrate that there is people etc. in multiple region.

Wherein, personnel's parameter is such as: whether certain region exists the personnel amount etc. in personnel, certain region.

In specific implementation process, illuminator 14 performs the first different control commands, different control procedures can be realized to illuminator 14, three kinds of enumerating below are wherein introduced, certainly, in specific implementation process, be not limited to following three kinds of situations, in addition, when not conflicting, three kinds of situations can combinationally use below.

The first, illuminator 14, also for: perform the first control command, to regulate the intensity of illumination of at least one lamp in illuminator;

In specific implementation process, suppose as shown in Figure 1, whole field of illumination is divided into 00 ~ 09 totally 10 sub regions, wherein detect that area 00 has people to exist by the transducer of illuminator 14, and people advances towards the direction of the lamp near area 00, then by this information transmission to OLT10, OLT10 after receiving the information, produce the intensity of illumination grow of the lamp of the first control command control area 00; Again such as, detect that area 01 has people to exist by the transducer of illuminator 14, and advance towards the direction away from area 01, then by this information transmission to OLT10, OLT10 after receiving the information, produces the intensity of illumination of the lamp of the first control command control area 01 dimmed etc.;

The second, illuminator 14, also for: perform the first control command, to control the quantity of the lamp being in opening in illuminator;

Such as, detect that the personnel amount of area 03 is in increase, be then sent to OLT10 by this information by illuminator 14, after receiving the information, produce the quantity being in the lamp of opening in the first control command control area 03 increases OLT10; Again such as, the transducer of illuminator 14 detects that the personnel of area 07 are in minimizing, be then sent to OLT10 by this information, and OLT10 after receiving the information, produces the quantity being in the lamp of opening in the first control command control area 07 and reduces; When the personnel of area 07 reduce to zero, it is 0 that OLT10 produces the quantity being in the lamp of opening in the first control command control area 07.

The third, illuminator 14, also for: perform the first control command, to control the region of the lamp being in opening in illuminator.

Such as, the lamp of whole illuminator 14 is all in closed condition, the transducer of illuminator 14 detects that area 05 exists personnel, then this information is sent to OLT10, OLT10 after receiving the information, produce the first control command, and be sent to illuminator 14, this first control command is area 05 for controlling to be in illuminator 14 the lamp region of opening.

As further preferred embodiment, described optical network device 13, also for:

Receive the second control command, described second control command is produced by the user of described optical network device 13;

Described second control command is sent to other optical network device under described OLT management, to be controlled the illuminator that corresponding optical network device manages by described second control command; Or

Described second control command is sent other OLT be connected as described OLT, to be controlled the illuminator that corresponding OLT manages by described second control command; Or

Second control command is sent to OLT by network, to be controlled the illuminator that corresponding OLT manages by the second control command.

In specific implementation process, user can in the room operations intelligent lighting controls program (APP as on mobile phone) at the place of arbitrary optical network device, and then produce the second control command, thus manage by the second control command the illuminator that other arbitrary optical network devices administer, also the second control command can be sent to OLT10 in addition, then other coupled OLT is sent to by OLT10, corresponding OLT then sends it to the illuminator of its administration, and then realizes controlling the illuminator that other OLT administers.Or, directly by network, the second control command can be sent to OLT, and then the second control command is sent to corresponding optical network device 13 by the OLT of correspondence, then by optical network device 13, second control command is sent to corresponding illuminator 14, and then by the second control command, illuminator 14 is controlled.

Second aspect, conceives based on same utility model, and the utility model embodiment provides a kind of optical line terminal OLT 10, please refer to Fig. 2, comprising:

First receiver 20, for receiving personnel's parameter of the illuminator 14 that optical network device 13 is sent to by optical fiber;

Controller 21, for obtaining personnel's parameter, and producing control signal based on personnel's parameter, comprising the first control command in control signal;

First transmitter 22, for control signal is sent to optical network device 13, control signal is sent to illuminator 14 by optical network device 13 by short-distance wireless transmission mode, to be controlled illuminator 14 by the first control command.

Optionally, the first control command is used for: the intensity of illumination regulating at least one lamp in illuminator 14; And/or

Control the quantity being in the lamp of opening in illuminator 14; And/or

Control the region being in the lamp of opening in illuminator 14.

The third aspect, conceives based on same utility model, and the utility model embodiment provides a kind of optical network device 13, please refer to Fig. 3, comprising:

Second receiver 30, for receiving the control signal that optical line terminal OLT 10 is sent to by optical fiber, comprises the first control command in control signal;

Second transmitter 31, for control signal is sent to illuminator 14 by short-distance wireless transmission mode, to be used for controlling illuminator 14 by the first control command.

Optionally, the second receiver 30, also for:

Receive personnel's parameter of the illuminator 14 place environment that illuminator 14 sends;

Second transmitter 31, also for: personnel's parameter is sent to OLT10, with make OLT10 by personnel's parameter produce control signal.

Described second receiver 30, also for:

Receive the second control command, described second control command is produced by the user of described optical network device;

Described second transmitter 31, also for:

Described second control command is sent to other optical network device under described OLT management, to be controlled the illuminator that corresponding optical network device manages by described second control command; Or

Described second control command is sent other OLT be connected as described OLT, to be controlled the illuminator that corresponding OLT manages by described second control command; Or

Second control command is sent to OLT by network, to be controlled the illuminator that corresponding OLT manages by the second control command.

Fourth aspect, conceives based on same utility model, and the utility model embodiment provides a kind of illuminator 14 control method, is applied in OLT10, please refer to Fig. 4, comprising:

Step S401: the personnel's parameter receiving the illuminator 14 that optical network device 13 is sent to by optical fiber 11;

Step S402: produce control signal based on personnel's parameter, comprise the first control command in control signal;

Step S403: control signal is sent to optical network device 13, control signal is sent to illuminator 14 by optical network device 13 by short-distance wireless transmission mode, to be controlled illuminator 14 by the first control command.

Optionally, the first control command is used for: the intensity of illumination regulating at least one lamp in illuminator 14; And/or

Control the quantity being in the lamp of opening in illuminator 14; And/or

Control the region being in the lamp of opening in illuminator 14.

5th aspect, conceives based on same utility model, and the utility model embodiment provides a kind of illuminator 14 control method, is applied in optical network device 13, please refer to Fig. 5, comprising:

Step S501: receive the control signal that optical line terminal OLT 10 is sent to by optical fiber 11, comprise the first control command in control signal;

Step S502: control signal is sent to illuminator 14 by short-distance wireless transmission mode, to control illuminator 14 by the first control command.

Optionally, before the control signal that reception optical line terminal OLT 10 is sent to by optical fiber 12, method also comprises:

Receive personnel's parameter of the illuminator 14 place environment that illuminator 14 sends;

Personnel's parameter is sent to OLT10, produces control signal to make OLT10 by personnel's parameter.

Optionally, described method also comprises:

Receive the second control command, described second control command is produced by the user of described optical network device 13;

Described second control command is sent to other optical network device under described OLT10 management, to be controlled the illuminator that corresponding optical network device manages by described second control command; Or

Described second control command is sent other OLT be connected as described OLT10, to be controlled the illuminator that corresponding OLT manages by described second control command; Or

Second control command is sent to OLT by network, to be controlled the illuminator that corresponding OLT manages by the second control command.

The one or more embodiment of the utility model, at least has following beneficial effect:

Provide a kind of Intelligent illumination management system, comprising: optical line terminal OLT, for collecting and processing reporting information, and produce control signal, in control signal, comprise the first control command; Optical fiber; Light splitter toy, by optical fiber reception control signal, and is divided into N road signal by control signal, or the signal tandem of N road is exported; Optical network device, for obtaining control signal from signal Zhong mono-tunnel, N road, and collects the information reporting OLT of illuminator; Illuminator, illuminator is used for perception flow of personnel, and receives the control signal that optical network device is sent to by short-distance wireless transmission mode; And perform the first control command, to control illuminator.Also, namely, in the utility model embodiment, control signal is long-range to be transmitted by optical fiber, and then improves the fail safe of transmission, reduces radiation; In addition, the degree that control signal is weakened is reduced; And centralized control can be carried out by OLT to illuminator, thus control mode is optimized more.

Although described preferred embodiment of the present utility model, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the utility model scope.

Obviously, those skilled in the art can carry out various change and modification to the utility model and not depart from spirit and scope of the present utility model.Like this, if these amendments of the present utility model and modification belong within the scope of the utility model claim and equivalent technologies thereof, then the utility model is also intended to comprise these change and modification.

Claims (9)

1. an Intelligent illumination management system, is characterized in that, comprising:

Optical line terminal OLT, for collecting and processing reporting information, and produces control signal, comprises the first control command in described control signal;

Optical fiber;

Light splitter toy, receives described control signal by described optical fiber, and described control signal is divided into N road signal, or the signal tandem of N road is exported;

Optical network device, for obtaining described control signal from signal Zhong mono-tunnel, described N road, and collects the information reporting OLT of illuminator;

Illuminator, described illuminator is used for perception flow of personnel, and receives the described control signal that described optical network device is sent to by short-distance wireless transmission mode; And perform described first control command, to control described illuminator.

2. the system as claimed in claim 1, is characterized in that, described illuminator, also for: detect the personnel's parameter obtaining described illuminator place environment;

Described optical network device, also for:

Receive described personnel's parameter that described illuminator sends;

Described personnel's parameter is sent to described OLT, produces described control signal to make described OLT by described personnel's parameter.

3. the system as claimed in claim 1, is characterized in that, described illuminator, also for:

Perform described first control command, to regulate the intensity of illumination of at least one lamp in described illuminator; And/or

Perform described first control command, to control the quantity of the lamp being in opening in described illuminator; And/or

Perform described first control command, to control the region of the lamp being in opening in described illuminator.

4. the system as described in as arbitrary in claim 1-3, is characterized in that, described optical network device, also for:

Receive the second control command, described second control command is produced by the user of described optical network device;

Described second control command is sent to other optical network device under described OLT management, to be controlled the illuminator that corresponding optical network device manages by described second control command; Or

Described second control command is sent other OLT be connected as described OLT, to be controlled the illuminator that corresponding OLT manages by described second control command;

Described second control command is sent to OLT by network, to be controlled the illuminator that corresponding OLT manages by described second control command.

5. an optical line terminal OLT, is characterized in that, comprising:

First receiver, for receiving personnel's parameter of the illuminator that optical network device is sent to by optical fiber;

Controller, for obtaining described personnel's parameter, and producing control signal based on described personnel's parameter, comprising the first control command in described control signal;

First transmitter, for described control signal is sent to described optical network device by long-distance optical fiber, described control signal is sent to described illuminator by described optical network device by short-distance wireless transmission mode, to be controlled described illuminator by described first control command.

6. OLT as claimed in claim 5, it is characterized in that, described first control command is used for: the intensity of illumination regulating at least one lamp in described illuminator; And/or

Control the quantity of the lamp being in opening in described illuminator; And/or

Control the region of the lamp being in opening in described illuminator.

7. an optical network device, is characterized in that, comprising:

Second receiver, for receiving the control signal that optical line terminal OLT is sent to by optical fiber, comprises the first control command in described control signal;

Second transmitter, for described control signal is sent to illuminator by short-distance wireless transmission mode, to control described illuminator by described first control command.

8. optical network device as claimed in claim 7, is characterized in that, described second receiver, also for:

Receive personnel's parameter of the described illuminator place environment that described illuminator sends;

Described second transmitter, also for: described personnel's parameter is sent to described OLT, produces described control signal to make described OLT by described personnel's parameter.

9. optical network device as claimed in claim 7, is characterized in that, described second receiver, also for:

Receive the second control command, described second control command is produced by the user of described optical network device;

Described second transmitter, also for:

Described second control command is sent to other optical network device under described OLT management, to be controlled the illuminator that corresponding optical network device manages by described second control command; Or

Described second control command is sent other OLT be connected as described OLT, to be controlled the illuminator that corresponding OLT manages by described second control command; Or

Described second control command is sent to OLT by network, to be controlled the illuminator that corresponding OLT manages by described second control command.