KR101585531B1 - System for controlling street-lamp using plc based on the multi-sources - Google Patents

Abstract

A system for controlling a street lamp using power line communications based on multiple sources according to the present invention is a street lamp controlling system comprising: a panel board device; a control module for controlling an on/off state of each street lamp; and a gateway for conducting communications between the panel board device and the control module. The gateway includes: a first transmission part for transmitting a lighting control signal, which has been input from the panel board device, to the control module via power line communications; and a second transmission part for transmitting control schedule information including the identification information of a street lamp and information on the lighting control of the corresponding street lamp for each time slot via power line communications to the control module. The control module includes: a receiving part for receiving the lighting control signal from the gateway; a first storage part for renewing and storing the control schedule information if the control schedule information received from the gateway corresponds to identification information thereof; a time information generating part for generating time information; and a main control part for controlling a street lamp using the lighting control signal wherein an on/off state of the street lamp is controlled using the control schedule information stored in the first storage part and the time information generated by the time information generating part if the lighting control signal has not been received for a reference set time.

Description

TECHNICAL FIELD [0001] The present invention relates to a streetlight control system using power line communication based on a multi-

The present invention relates to a system for controlling a streetlight, and more particularly, by implementing a plurality of sources for controlling a streetlight, it is possible to more effectively cope with a communication failure, a failure, and a data transmission error, And more particularly to a streetlight control system that can be optimized.

A streetlight is a facility installed on a road, a park, an alley, etc., and is turned on or off through a distribution box that controls a plurality of streetlights in a specific area.

In recent years, as energy saving and social issues related to green energy have become more prominent, lamps installed in street lamps have been replaced by LEDs in sodium and mercury. Through such hardware changes, efforts have been made to save energy, There are also various ways to conserve energy through proper methods.

A conventional generalized method of streetlight control is a method of controlling a streetlight by transmitting an illumination control signal to each streetlight in a distribution box that controls a plurality of streetlights, and controlling the streetlight by the transmitted illumination control signal. As described in Korean Patent Laid-Open Publication No. 10-2011-0010171, such a method is implemented such that the brightness and the illuminance at the time of lighting are different from each other.

However, in the conventional method, since a costly communication line is installed between the streetlight control modules provided in the streetlight in the distributing device, the conventional and general communication lines are constructed And communication control is performed based on this.

Therefore, the conventional streetlight control method is exposed to a communication failure, an error, a failure, a noise, or the like which may occur in a general communication line, and thus the lighting control of the streetlight installed at a distance is not smoothly performed frequently .

Further, when such a problem occurs, it is difficult for the administrator to recognize the occurrence of the problem, and since it takes a considerable time for recovery, the corresponding street lamp is maintained in the lighted state or the lighted state for a considerable period of time Therefore, the efficiency is low in terms of energy saving, and the original function of the differential lighting control can not be properly performed.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a communication line control apparatus and a control method thereof, which are capable of minimizing the influence of a communication line state between a distributing box device and a control module, The control signal or information received can be effectively stored and managed and the control information for controlling the streetlight can be applied in a pluralistic manner in accordance with the normal or abnormal state of the communication line so that the actual streetlight control can be continuously and effectively performed The purpose of the system is to provide.

Other objects and advantages of the present invention will become apparent from the following description, and it will be apparent from the description of the embodiments of the present invention. Further, the objects and advantages of the present invention can be realized by a combination of the constitution shown in the claims and the constitution thereof.

According to another aspect of the present invention, there is provided a streetlight control system using power line communication based on a multi-source, comprising: a distribution unit for controlling a plurality of street lights; a control module provided in the streetlight, And a gateway for performing communication between the distribution unit and the control module, wherein the gateway comprises: a first transmission unit for transmitting an illumination control signal input from the distribution unit to the control module through power line communication; And a second transmission unit for transmitting control schedule information including identification information of the streetlight and information on lighting control of the corresponding streetlight to the control module through power line communication, wherein the control module of the present invention comprises: A receiving unit for receiving the illumination control signal; A first storage unit for updating and storing the control schedule information received from the gateway if the control schedule information corresponds to the identification information of the control schedule information; A time information generating unit for generating time information; And controlling the streetlight using the illumination control signal. If the illumination control signal is not received during the reference set time, the control information stored in the first storage unit and the time information generated by the time information generating unit are used to control the streetlight And a main control unit for controlling light emission.

Preferably, the control module of the present invention may further include a second storage unit for generating and storing statistical illumination information, which is illumination control information for each day and time zone, using one or more illumination control signals received at the corresponding day, The main control unit of the control module is configured to control the streetlight using the statistical illumination information stored in the previous day when the control schedule information is not stored in the first storage unit.

When the stored date of the control schedule information stored in the first storage unit is before m (m is a natural number equal to or greater than 2) from the current day, the main control unit of the present invention stores the statistical illumination information To control the streetlight using the statistical illumination information of the most recent one of the statistical illumination information corresponding to the current day n (n is a natural number smaller than m).

Further, the control module of the present invention may further comprise a transmitting unit for generating and transmitting confirmation information, which is information on the date, the number of times, or the duration of the day on which the streetlight is controlled by the statistical illumination information or the control schedule information, And a Kim signal input unit for receiving a detection signal from an infrared sensor for sensing a change in the infrared wavelength in the sensing area and a number of times of the change. In this case, it is preferable that the main controller of the control module according to the present invention is configured to differentially control the illuminance of the streetlight according to the magnitude of the number of changes of the infrared wavelength included in the sensing signal.

The control module of the present invention may further include a request signal transmitting unit for transmitting a request signal for requesting update of the control schedule information to the distributing box apparatus for the implementation of the more preferred embodiment. The apparatus includes a control information storage unit for storing first control schedule information, which is control schedule information received from a control server; An information storage unit for storing second control schedule information, which is control schedule information transmitted to the control module; When the second control schedule information and the first control schedule information are identical to each other based on a time point at which the request signal is received, transmitting a coincidence signal indicating a coincidence in response to the request signal .

In this case, the request signal transmitter of the present invention may be configured to update the storage time of the control schedule information stored in the first storage unit to the time when the match signal is transmitted when the match signal is transmitted.

In another preferred embodiment of the present invention, when the second control schedule information and the first control schedule information are not identical to each other based on a time point at which the request signal is received, The first control schedule information is updated to the second control schedule information and stored in the information storage unit, in response to the request signal, the selection data in which only data not matching based on the schedule information is selected, .

In this case, the request signal transmitter of the present invention updates the control schedule information stored in the first storage unit using the transmitted sorting data, and updates the storage time of the control schedule information to the time at which the sorting data is transmitted Lt; / RTI >

A streetlight control system using power line communication based on a multi-source source according to the present invention is a system for controlling a streetlight by using a power line communication based on a multi-source source based on a lighting control signal received from a distributing box device, control schedule information including information on lighting control of a corresponding streetlight, By applying the statistical illumination information to the illumination control differently and plurally according to the normal or abnormal state of the communication line, it is possible to perform the streetlight control continuously and effectively by coping with the failure or the like of the communication line more robustly.

 According to another embodiment of the present invention, the control schedule information and the statistical illumination information are continuously updated, but the present invention can provide an advantage that the latest information can be continuously maintained by applying both information on the basis of the generation date .

Further, according to another embodiment of the present invention, it is possible to generate the number-of-times information that the streetlight is controlled by the control schedule information or the statistical illumination information without being controlled by the illumination control signal, It is possible to induce a more active countermeasure to an equipment failure by providing accurate information on whether or not an error, frequency, and return of a communication line is present.

In addition, the control schedule information stored in the control module through the bi-directional communication with the distributor unit can be updated with the latest control schedule information in a simpler and more effective way to minimize the communication traffic, thereby further optimizing the streetlight control.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the detailed description of the invention given below, serve to better understand the technical idea of the invention, And shall not be construed as limited to such matters.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram generally showing a configuration of a streetlight control system using power line communication based on a multi-source, according to a preferred embodiment of the present invention;
2 is a block diagram showing a detailed configuration of a streetlight control system according to a preferred embodiment of the present invention;
FIG. 3 is a flowchart illustrating a process of a streetlight control method according to a preferred embodiment of the present invention.
4 is a flowchart illustrating a process of a streetlight control method according to another preferred embodiment of the present invention.
5 is a flowchart illustrating a process of a streetlight control method according to another preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

FIG. 1 is a diagram generally showing a configuration of a streetlight control system 1000 (hereinafter, referred to as a control system) using power source communication based on a multi-source source according to a preferred embodiment of the present invention. As shown in FIG. 1, the control system 1000 of the present invention includes a control server 400 and a distributing box device 200.

The distributing box apparatus 100 integrally controls the plurality of street lights 10 and controls communication with the control module 100 which may be provided inside the street light 10 as shown in FIG. As shown in FIG. 2, a gateway 300 for performing communication between the distributing box device 200 and the control module 100 is provided.

The control server 400 and the distributing box apparatus 200 are connected to each other through a wired / wireless communication network 5 such that communication between the control server 400 and the distributing box apparatus 200 of the present invention If it is possible to transmit / receive data as a network, it can be realized by various protocols and methods such as Internet, CDMA, WCDMA, etc. without distinguishing between wired and wireless.

The distributing box apparatus 200 corresponds to a structure for controlling a plurality of streetlights 10 in a specific area in charge of itself. Usually, the power line 20 for lighting streetlights is constructed with the distributing box apparatus 200 In order to minimize the installation of additional equipment, it is desirable to use power line communication for lighting control of street lamps.

The control server 400 is a server operated by a government office or the like and communicably connected to a plurality of distribution terminal apparatuses 200 to store, update, and manage status information, operation information, and the like of the distribution terminal apparatuses 200.

Hereinafter, the detailed configuration of the control system 1000 of the present invention and the processing of the present invention implemented through these configurations will be described in detail with reference to FIGS. 2 to 5 attached hereto.

2 is a block diagram showing a detailed configuration of a control module 100, a distributing box device 200 and a gateway 300 constituting the control system 1000 of the present invention. 2, the control module 100 of the present invention includes a receiving unit 110, a first storage unit 120, a second storage unit 130, a time information generating unit 140, a main control unit 150, A sensing signal input unit 160, and a transmission unit 170. [

The distribution terminal apparatus 200 of the present invention may include a control information storage unit 210, an information storage unit 220, a communication unit 230, and a synchronization control unit 240. The gateway 300 that mediates communication between the distributing box device 200 and the control module 100 may include a first transmission unit 310 and a second transmission unit 320.

Prior to a detailed description of the present invention, each component of the present invention shown in FIG. 2 should be understood as a logically distinct component rather than as a physically distinct component.

That is, since each constitution corresponds to a logical constituent element for realizing the technical idea of the present invention, even if each constituent element is constituted integrally or separately, if the function performed by the logical constitution of the present invention can be realized, It is to be understood that any component that performs the same or similar function should be interpreted as falling within the scope of the present invention regardless of the consistency of the name.

The communication unit 230 of the distributing box apparatus 200 according to the present invention transmits the illumination control signal received from the control server 400 to the control module 100 which may be provided inside the streetlight 10. The illumination control signal is a signal containing control commands for turning on / off or illuminance or brightness of a street lamp at a specific time, and can be received from the control server 400 through wired / wireless communication. Bluetooth or the like. Furthermore, the illumination control signal may be stored in a recording medium such as a ROM or the like, and may be mounted on the distributing box apparatus 200 of the present invention.

In addition, the communication unit 230 of the distributing box apparatus 200 transmits control schedule information including identification information of the streetlight and information on lighting control of each streetlight to the control module 100 through power line communication or the like.

The control schedule information may be, for example, a specific time zone (from 17 o'clock to 5 o'clock the following day), a specific day (May 1, 2015) or a specific day The schedule information (timetable) is a collection of information such as lighting, turn-off, and brightness information of a streetlight for a certain period of time (from March 1 to May 31, 2015).

For example, the control schedule information may include a variety of information such as lighting, lighting, illumination control, etc. of a streetlight according to a specific date, time, etc. based on season, sunset time, sunrise time, The control information for each of the lamps may be stored.

The first transmission unit 310 included in the gateway 300 of the present invention transmits the illumination control signal transmitted from the distributing box apparatus 200 to the control module 100 of the present invention using the power line communication, The second transmission unit 320 of the gateway 300 transmits the control schedule information to the control module 100 through power line communication or the like.

The receiving unit 110 of the control module 100 receives the illumination control signal from the gateway 300 and the first storage unit 120 of the control module 100 receives the illumination control signal from the gateway 300, Parses (analyzes) whether the control schedule information corresponds to its own identification information, and stores it if it corresponds to its own identification information.

Since the control schedule information can be newly transmitted periodically or aperiodically, the first storage unit 120 updates the received control schedule information so that the latest information is continuously stored, and furthermore, (S300 in FIG. 3) together with the time information in which the control schedule information is updated to determine the relative freshness or the like.

The control module 100 may further include a time information generator 140 for providing time information. The time information generator 140 may include clock means for periodically generating a clock, An electronic timer, or the like, to generate time information serving as a reference for time zone control of the streetlight.

The main controller 150 of the control module 100 directly controls the lighting of the street lamps, lights, brightness, and the like by directly using the illumination control signals of the distributing box apparatus 200 transmitted through the gateway 300 S320).

The main control unit 150 of the present invention determines whether or not the control schedule information updated and stored in the first storage unit 120 and the control information of the time information generation unit 140 are stored in the first storage unit 120, The lighting of the streetlight is controlled using the time information generated by the streetlight (S330).

The reference set time can be variably set as a default set value (default) to the control module 100 as a time that can be regarded as no communication due to a communication failure or the like, A statistical calculation value for the reception time of the illumination control signal received in the past, and the like.

In this way, the illumination of the street lamp is directly controlled by the illumination control signal received from the distributing box apparatus 200. After receiving the control schedule information in the time period without communication failure, When the control signal is not directly received, the control module 100 itself can control the lighting of the streetlight using the control schedule information.

That is, according to the present invention, even if a communication failure occurs due to such a configuration, control schedule information previously received can be supplementarily utilized in the absence of a fault, so that the lighting of the street lamp can be constantly controlled.

Hereinafter, another preferred embodiment of the present invention will be described in detail with reference to FIG. 4 attached hereto.

In this regard, the control module 100 of the present invention may further include a second storage unit 130. The second storage unit 130 may store one or more illumination control signals And generates and stores statistical illumination information, which is illumination control information for each time frame.

As described above, the illumination control signal corresponds to one event signal as a signal transmitted by time. The second storage unit 130 of the present invention converts the individual illumination control signals into a DB to generate statistical information for the whole day or a specific time period as a whole.

For example, if the current day is k days, the second storage unit 130 stores individual day-by-day statistical illumination information for each of the current day reference past days as k-1, k-2, k-3, . If communication failure occurs 3 days before the current day, statistical illumination information of k-3 days may not be generated.

3, the first storage unit 120 of the present invention stores the received control schedule information together with the input time information when the control schedule information is input (S400).

Then, when the illumination control signal is received from the distributing apparatus 200 within the reference set time, the main controller 150 of the present invention directly controls the streetlight using the received illumination control signal (S420) The second storage unit 130 of the present invention generates and stores statistical illumination information of the day using the received illumination control signal (S430).

The main control unit 150 determines whether there is control schedule information in the first storage unit 120 in step S440 and determines whether the control schedule information exists in the first storage unit 120. If the control schedule information does not exist in the first storage unit 120, The control unit 110 controls the streetlight using the control schedule information stored in the first storage unit 120 and the time information generated internally (S450).

Alternatively, if the control schedule information is not stored in the first storage unit 120 or the stored time corresponds to a past date that is considerably far from the current day, the main control unit 150 of the present invention determines whether the control schedule information The streetlight is controlled using the statistical illumination information stored in the past (S460).

After comparing the control schedule information stored in the first storage unit 120 with the storage time of the statistical illumination information stored in the second storage unit 130 according to the embodiment, It is preferable to control the illumination of the street lamp.

More specifically, when the update stored date of the control schedule information stored in the first storage unit 120 is before m (m is a natural number equal to or greater than 2) days from the current day, the main control unit 150 of the present invention sets the current day reference n and n is a natural number smaller than m), the statistical lighting information of the most recent one of the corresponding statistical lighting information may be used to control the streetlight.

That is, in the case where the control schedule information can be regarded as long-term information, control using the statistical illumination information generated by the control signal information directly received from the distributing box 200 maintains the latest information Lt; / RTI >

However, in the case where it is difficult to confirm the latest information, such as when the information storage / creation dates of both are the same, it is of course possible to configure one of the two to selectively control the streetlight.

In addition, the control module 100 of the present invention may further include a transmission unit 170. The transmission unit 170 transmits the statistical lighting information or the control schedule information, And transmits it to the external control server 400 or the like (S470).

Since the generated confirmation information is generated on the basis of the control schedule information or the statistical illumination information, it corresponds to the information on the assumption that the illumination control signal is not received from the distributing box apparatus 200. That is, since the confirmation information corresponds to information representing a malfunction, a failure, or an error in the communication line between the distributing box device 200 and the control module 100, the manager side can determine whether the specific communication line is malfunctioning And whether or not the failure has been continued can be easily confirmed. In addition, the confirmation information can be used as basic data that can accurately guide appropriate follow-up measures such as repair, replacement, and the like of a specific communication line.

Further, it is possible to indirectly confirm that the specific communication line is normally operating through the fact that the confirmation information is not generated after a specific time.

Meanwhile, the control module 100 of the present invention may further include a sensing signal input unit 160. The sensing signal input unit 160 receives a sensing signal from an infrared sensor 161 that may be installed outside the streetlight 10 And performs the receiving function.

The infrared sensor of the present invention senses the change of the infrared wavelength in the sensing region of the sensor and the number of times of change per unit time, and transmits the sensed signal to the sensing signal input unit 160. When the infrared sensor 161 receives such a sensing signal, the main controller 150 of the present invention controls the illuminance (brightness) of the streetlight according to the number of times of change of the infrared wavelength included in the sensing signal .

The fact that the number of changes of the infrared wavelength per unit time is large means that the movement of objects (people, vehicles, etc.) in the irradiation area of the streetlight is large, so that the relative illumination is controlled to be relatively high, and in the opposite case, So that it is preferable to control the streetlight by organically reflecting the situation of the surrounding environment to which the streetlight is irradiated.

Hereinafter, another preferred embodiment of the present invention will be described in detail with reference to FIG.

The distribution terminal apparatus 200 of the present invention stores the control schedule information in the form that it is received from the control server 400 or installed in the in-apparatus storage device when the apparatus is installed (S510). This control schedule information means schedule information for the turn-off control of the corresponding streetlight during a specific time period or a specific day or a specific period (season, etc.) as described above. After the control schedule information is stored in the initial distribution unit 200, It can be received from the server 400 and updated.

Specifically, the control information storage unit 210 of the distributing box apparatus 200 stores the first control schedule information, which is the control schedule information received from the control server 400, and the information storage unit 220 of the distributing box apparatus 200 As described above, the second control schedule information which is the control schedule information transmitted to the control module 100 (S520).

It should be understood that the first and second control schedule information may be actually the same information as a term of a tool concept used to relatively identify information objects.

For example, assuming that the control schedule information received from the initial control server 400 is A, the first control schedule information stored in the control station storage unit 210 becomes A, and after that, The second control schedule information stored in the information storage unit 220 will also be A if the control schedule information is transmitted in response to the request.

If the control schedule information A is transmitted to the control module 100 and the control schedule information B is newly received from the control server 400 or the like, the first control schedule information stored in the control section storage 210 is B, the second control schedule information stored in the information storage unit 220 storing the second control schedule information, which is the control schedule information transmitted to the control module 100, becomes A, and the mutually stored information is not the same do.

The control module 100 of the present invention may further include a request signal transmitting unit 180. The request signal transmitting unit 180 requests the distribution unit 200 to update the control schedule information And transmits the request signal (S530).

When the request signal is received by the distributor 200 through the gateway 300, the synchronization controller 240 of the distributor 200 transmits the first control schedule information (Information stored in the control information storage unit 210 received from the server) and the second control schedule information (information stored in the information storage unit 220 as control schedule information transmitted to the control module 100) (S540).

If the first and second control schedule information are identical to each other, the synchronization control unit 240 of the present invention transmits a coincidence signal indicating the coincidence in response to the request signal in operation S550.

The request signal transmission unit 180 of the control module 100 maintains the control schedule information stored in the first storage unit 120 of the control module 100 as it is when the match signal is transmitted from the distributing box apparatus 200 And updates the storage time of the control schedule information at the time when the matching signal is transmitted (S560).

According to the configuration of the present invention as described above, only the minimum data indicating the coincidence signal is transmitted without transmitting the entire control schedule information, so that the amount of communication data can be dramatically reduced, The control schedule information can be effectively updated with the latest information as shown in FIG.

Alternatively, if the first and second control schedule information are not the same as the result of the determination processing based on the time when the request signal is received, the synchronization control unit 240 of the present invention controls the control schedule transmitted to the control module 100 It can be considered that the first control schedule information, which is the control schedule information received from the control server 400, is newly received since the second control schedule information which is the information will remain as it is.

In this case, the synchronization control unit 240 of the present invention does not transmit the newly received first control schedule information itself to the control module 100, and does not transmit data that does not match with the second control schedule information based on the first control schedule information Is transmitted in response to the request signal (S570), thereby reducing data traffic and enhancing the accuracy of information transmission.

After transmitting the selection data, the synchronization control unit 240 of the present invention reflects the selection data to the second control schedule information stored in the information storage unit 220, or transmits the first control schedule information to the second control schedule information 2 control schedule information (S580).

When the sorting data is transmitted from the synchronization controller 240 of the distributor 200, the request signal controller 180 of the present invention transmits the control schedule information stored in the first storage unit 120 using the transmitted sorting data At the same time, the storage time of the control schedule information is updated with the time at which the sorting data is transmitted (S590).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not to be limited to the details thereof and that various changes and modifications will be apparent to those skilled in the art. And various modifications and variations are possible within the scope of the appended claims.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It should be understood that various modifications may be made in the ordinary skill in the art without departing from the scope of the present invention

1000: Control system of the present invention
100: control module
110: Receiving unit 120: First storage unit
130: second storage unit 140: time information generation unit
150: main control unit 160: detection signal input unit
170: Transmitting unit 180: Request signaling unit
200: distributor unit
210: control information storage unit 220: information storage unit
230: communication unit 240: synchronization control unit
300: Gateway
310: first transmission unit 320: second transmission unit

Claims (7)

A control system for a streetlight, comprising: a distributing box device for integrally controlling a plurality of street lamps; a control module provided inside the streetlighting lamps for controlling the lighting of each of the streetlights; and a gateway for performing communication between the distributing box device and the control module,
The gateway comprises:
A first transmission unit for transmitting the illumination control signal input from the distribution unit to the control module through power line communication, control schedule information including information on the identification of the streetlight, To the control module through the second transmission unit,
The control module includes:
A first storage unit for updating and storing the control schedule information received from the gateway if the control schedule information corresponds to the identification information of the control schedule information received from the gateway, a time information generating unit for generating time information, The control unit controls the streetlight using the illumination control signal, and if the illumination control signal is not received during the reference set time, the control unit uses the control schedule information stored in the first storage unit and the time information generated by the time information generator, And a request signal transmission unit for transmitting a request signal for requesting update of the control schedule information to the distributor unit,
The distributing box apparatus includes:
A control information storage unit for storing first control schedule information, which is control schedule information received from a control server, an information storage unit for storing second control schedule information, which is control schedule information transmitted to the control module, When the first control schedule information is identical to the second control schedule information based on a time point when the first control schedule information is identical to the first control schedule information,
The request signal transmitter includes:
And the control unit updates the storage time of the control schedule information stored in the first storage unit to the time when the match signal is transmitted when the match signal is transmitted. The apparatus of claim 1,
And a second storage unit for generating and storing statistical illumination information, which is illumination control information for each day and time zone, using at least one illumination control signal received at the corresponding day,
The main control unit of the control module,
Wherein the control unit controls the streetlight using the statistical illumination information stored in a previous day when the control schedule information is not stored in the first storage unit. [3] The apparatus of claim 2,
Wherein the control unit controls the streetlight using the statistical illumination information stored in the second storage unit when the storage date of the control schedule information stored in the first storage unit is m before m (m is a natural number of 2 or more) And the streetlight is controlled using the statistical illumination information of the latest one of the statistical illumination information corresponding to the current day n (n is a natural number smaller than m). The control module according to claim 3,
Further comprising a transmitter for generating and transmitting confirmation information, which is information on the date, number of times, or duration of the day on which the streetlight was controlled by the statistical illumination information or control schedule information, Streetlight control system. The apparatus of claim 1,
Further comprising a detection signal input unit for receiving a detection signal from an infrared sensor for detecting a change in the infrared wavelength in the detection region and a change frequency thereof,
The main control unit of the control module,
Wherein the illuminance of the streetlight illumination is controlled differentially according to the magnitude of the number of changes of the infrared wavelength included in the sensing signal. delete 2. The apparatus of claim 1,
When the second control schedule information and the first control schedule information are not identical based on a time point at which the request signal is received, selecting data that does not match on the basis of the first control schedule information, Signal, updates the first control schedule information with the second control schedule information, stores the updated control schedule information in the information storage unit,
The request signal transmitter includes:
Wherein the control unit updates the control schedule information stored in the first storage unit using the transmitted selection data and updates the storage time of the control schedule information to a time at which the selection data is transmitted. Streetlight control system using.

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