KR101917096B1 - Apparatus for inducing safe walking using beacon signal and the method by using the same - Google Patents

Abstract

The present invention provides safety gait guidance devices for each streetlight provided at predetermined intervals on a road, a residential street, or the like, and when adjusting the illuminance, lighting, illumination direction, The safe walking information apparatus receives a beacon signal transmitted from a transmitter carried by the user and confirms the unique ID. The controller then brightens the illuminance of the street lamp based on the identified unique ID information, brightens the beacon signal intensity A safety gait induction device using a beacon signal to control the operation of the street lamp, the camera and the microphone according to the direction of the vehicle, thereby inducing a safe walking of the user moving at the corresponding position at night and thereby reducing the fear of crime; It is about the method.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a safety gait induction device using a beacon signal,

The present invention provides safety gait guidance devices for each streetlight provided at predetermined intervals on a road, a residential street, or the like, and when adjusting the illuminance, lighting, illumination direction, The safe walking information apparatus receives a beacon signal transmitted from a transmitter carried by the user and confirms the unique ID. The controller then brightens the illuminance of the street lamp based on the identified unique ID information, brightens the beacon signal intensity A safety gait induction device using a beacon signal to control the operation of the street lamp, the camera and the microphone according to the direction of the vehicle, thereby inducing a safe walking of the user moving at the corresponding position at night and thereby reducing the fear of crime; It is about the method.

Street lighting is installed at regular intervals for the safety of people who are walking in areas where there is a high risk of crime or accidents, such as residential areas and back streets.

LED street lamps are mainly used to minimize power consumed by streetlights. Until the sunrise time after sunset time, conventionally, a method of irradiating light with a constant illumination regardless of whether there is a person walking or not is used.

However, such a method of irradiating the constant light causes a waste of electric power because light of a certain degree of illumination is irradiated even when there is no person walking.

In order to solve this problem, intelligent LED street lamps, which are operated in response to human movements, have been developed and used to solve the problem of power consumption. That is, a technique of changing the illuminance by sensing a movement or noise of a person, or detecting the proximity distance to a person and changing the illuminance is introduced and used.

However, since the streetlight driving method using the conventional human motion recognition method as described above requires a high-priced motion recognition sensor for each streetlight, the system implementation cost is greatly increased, There is a problem that electric power is wasted due to a motion recognition error caused by an environmental factor such as a wind or an impact, and the like.

Therefore, in the present invention, when controlling the illuminance of a street lamp provided at predetermined intervals on a road, a residential street, and the like by a safety gait induction device according to the movement state of a user, a beacon signal transmitted from a transmitter, And controls the direction of the camera so that the direction of the microphone operates in a direction in which the beacon signal is present, so that the corresponding position is detected at night And suggest a way to induce safe walking of the user on the move.

Next, a brief description will be given of the prior arts that exist in the technical field of the present invention, and technical matters which the present invention intends to differentiate from the prior arts will be described.

Korean Patent Laid-Open Publication No. 2016-0065690 (Jun. 06, 2016) discloses a wireless communication system including a receiving beacon for communicating with a portable terminal or a portable beacon; A gateway for receiving information on a control object detected from at least one of a receiving beacon, a sensor, and an image pickup apparatus, and transmitting the received information to an integrated control server; Receiving and storing at least one of the identification information and indoor / outdoor location information of the control object sensed by the reception beacon, the image sensing information of the control object picked up by the image pickup device, and the information sensed by the sensor, And an integrated control server for performing a security function including access control, departure detection, movement route tracking, and emergency situation detection based on the stored information of the control object. .

The prior art is a technique for performing a security function based on location information and identification information of a user detected by a beacon.

On the other hand, according to the present invention, a beacon signal transmitted from a transmitter carried by a user is received by a safety gait induction device, and a unique ID is confirmed. Brightness of the operated street light is brightened for a preset time, Both are different technologies because they are technological configurations that can control the operation of camera or microphone based on signal strength or direction information.

Korean Patent Laid-Open Publication No. 2016-0055476 (2016.05.18.) Discloses a road sign recognition system for recognizing the position coordinates of a road structure for acquiring relevant information of the road structure and enabling mutual information exchange, And to provide a beacon device, a method, and an operation method for providing various information by grasping a location.

The prior art provides an effect that a beacon device installed in each road structure and a detection device of a portable terminal communicate with each other and a message window is output to a display panel of the portable terminal through the augmented reality.

On the other hand, the present invention differs from the technology for outputting the information related to the road structure to the portable terminal as augmented reality through mutual communication of beacon signals as in the prior art, in which a beacon signal from a transmitter When receiving the light, it is obvious that the technique is a technique that controls the operation of the camera or the microphone based on the beacon signal strength and direction information by adjusting the illuminance of the operated street light for a predetermined time, .

In accordance with the level of executives and visitors of government offices, companies, etc., Korean Laid-Open Patent No. 2015-0107151 (2015.09.23.) Discloses mobile functions (camera, Bluetooth, NFC, WiFi, USB, etc.) And a security system using a beacon sensor capable of providing a restriction, an access restriction notification, and the like.

The above-mentioned prior art provides an effect of preventing security data such as a company, a government office, and the like from being leaked to the outside by a mobile phone of a guest or an employee.

On the other hand, the present invention is not a technique for preventing leakage of data to a mobile using a beacon signal, and is a technique for adjusting the illuminance in a safety gait induction apparatus receiving a beacon signal transmitted from a transmitter possessed by a user. The difference in technology is obvious.

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 safety gait induction device provided in each streetlight, which is capable of emitting a beacon signal in a direction in which a beacon signal intensity is the greatest based on a beacon signal transmitted from a transmitter A safety gait induction device using a beacon signal for controlling a direction of a camera and controlling a direction of a microphone to operate in a direction in which a beacon signal exists so as to induce a safe walking of a user moving at night, The purpose is to provide.

In addition, the present invention realizes a transmitter that periodically transmits a beacon signal including a unique ID as an accessory such as a necklace or a ring, or a dongle that connects to a connection port of a communication terminal, Another object of the present invention is to provide a safety gait induction apparatus using a beacon signal and a method thereof so as to be easily manufactured.

In addition, according to the present invention, when a user of a communication terminal sets a start point and a destination through an application provided by a service operator, a path from the current position to the destination is recommended based on the position information of the streetlight that performs illumination control through a beacon signal It is another object of the present invention to provide a safety gait induction apparatus using a beacon signal and a method thereof so as to be able to assist in a night shift in an unfamiliar place as well as a safe home.

The safety gait induction apparatus using a beacon signal according to an embodiment of the present invention receives a beacon signal transmitted from a transmitter and extracts an ID, and determines whether the extracted ID is a registered ID to perform an operation control of the street light A beacon signal processor; And a control unit for controlling lighting, lighting, dimming, illumination direction, or a combination of the streetlights based on a result of the identification of the beacon signal.

The control unit maintains the illuminance of the street lamp at a minimum state after the sunset time and maintains the minimum illuminance and drives the illuminance of the street lamp at the maximum illuminance for a set time according to the result of ID verification of the beacon signal And performs a dimming operation to lower the illuminance to the minimum illuminance when the set time has elapsed.

The safety gait induction apparatus may further include a memory for storing a control program used in the safety gait induction apparatus and periodically updating and storing ID information for performing operation control of the streetlight; And a communication unit for performing a communication connection with the management server through the network communication network and performing data communication related to the control server used for the management server and the safe walking guidance apparatus and the ID for performing the operation control of the streetlight .

At this time, the beacon signal processing unit checks whether the ID is a registered ID to perform the operation control of the streetlight through the matching of the extracted ID with the ID registered in the memory, To the management server, and confirms whether the registered ID is an ID registered in order to control the operation of the streetlight based on the notification result of the management server.

When the source and destination setting information is transmitted from the communication terminal that drives the application, the management server transmits the beacon signal to the destination from the origin set by the user based on the location information of the streetlight, , And provides the generated recommendation route to the communication terminal.

The transmitter is formed in the form of an accessory such as a necklace or a ring, and is driven by a battery power source to transmit a beacon signal every predetermined period.

The transmitter is formed in a dongle shape connected to a connection port of the communication terminal, and is driven by the power source of the communication terminal to transmit a beacon signal every predetermined period.

Also, in the beacon signal processing unit using the beacon signal according to an embodiment of the present invention, in the beacon signal processing unit, the beacon signal transmitted from the transmitter is received to extract an ID, and the extracted ID is used to perform operation control of the street lamp A beacon signal checking step of checking whether the registered ID is registered; And a control unit controlling the lighting, lighting, dimming, lighting direction, or a combination thereof of the streetlight based on a result of the identification of the beacon signal.

And the streetlight control step may include: a maximum illumination operation step of driving the illuminance of the street lamp at a maximum illuminance in a state where the illuminance of the street lamp is kept at a minimum state from sunset time to sunrise time in the control unit; Determining whether a predetermined set time has elapsed in the control unit; And a lowest lighting operation step of lowering the illuminance of the streetlight driving at the maximum illuminance to the minimum illuminance by the control unit when the set time has elapsed as a result of the determination.

In the beacon signal checking step, the beacon signal processing unit checks whether the ID is a registered ID to perform the operation control of the streetlight through the matching of the extracted ID with the ID registered in the memory, And transmits the extracted ID to the management server via the communication unit. Then, the control unit confirms whether the registered ID is an ID registered for performing the operation control of the streetlight based on the notification result of the management server.

The safety gait induction method further includes a step of, when the source and destination setting information is transmitted from the communication terminal performing the application driving before the beacon signal checking step, Generating a recommendation route from a departure point to a destination set by the user based on the location information of the recommendation route and providing the generated recommendation route to the communication terminal.

In the beacon signal checking step, the transmitter for transmitting a beacon signal is formed in the form of an accessory such as a necklace or a ring, and is driven by a battery power source to transmit a beacon signal every predetermined cycle.

In the beacon signal checking step, the transmitter for transmitting a beacon signal is formed in a dongle shape connected to a connection port of the communication terminal, and is driven by the power source of the communication terminal to transmit a beacon signal every predetermined period .

As described above, according to the safety gait induction apparatus and method using the beacon signal of the present invention, the safety gait induction apparatus provided in each streetlight receives a beacon signal from a transmitter carried by the user, After confirming the ID, since the operation of the street lamp, the camera, and the microphone is controlled according to the intensity or the direction of the beacon signal, the user who is moving is bright It is possible to carry out the safe walking through the illuminated distance, thereby greatly reducing the fear of the occurrence of crime.

In addition, since the illuminance adjustment of the street light is performed based on the reception of the beacon signal, power consumption due to a sensor malfunction due to an operation recognition error or an external force (e.g., wind, pressure, etc.) It has the effect of reducing waste.

In addition, since a transmitter that periodically transmits a beacon signal can be easily manufactured in the form of an accessory or a dongle, the service can be used at a low cost.

In addition, when the user of the communication terminal sets the starting point and the destination using the application provided by the service operator, the operator can adjust the route from the current position to the destination based on the position information of the streetlight that performs illumination control through the beacon signal It is possible to induce a safe return of the user as well as to enable a safe night shift even if the user is unfamiliar with the place and to inform the family or acquaintance of the travel route in advance, .

1 is a conceptual diagram for explaining a safety gait induction process using a beacon signal to which the present invention is applied.
FIG. 2 is a schematic view of a safety gait induction apparatus using a beacon signal according to an embodiment of the present invention. Referring to FIG.
Fig. 3 is a detailed view of the configuration of the safety gait induction device of Fig. 2. Fig.
4 is a flowchart illustrating an operation of a method for inducing a safe walking using a beacon signal according to an exemplary embodiment of the present invention.
FIG. 5 is a flowchart illustrating an operation procedure of the streetlight illumination control step of FIG. 4 in detail.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a safety gait induction apparatus and method using a beacon signal according to the present invention will be described in detail with reference to the accompanying drawings. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. Like parts are designated with like reference numerals throughout the specification.

1 is a conceptual diagram for explaining a safety gait induction process using a beacon signal to which the present invention is applied.

As shown in FIG. 1, a beacon signal transmitted from a transmitter of a user using a back road, a residential alley or the like is received at night, a street light of an area where the user is located is brightly adjusted based on the received beacon signal, A safety gait inducing device for guiding the user to the safe walking is controlled by controlling the operation of the street light, the camera and the microphone according to the intensity and direction of the signal.

The safety gait induction device installed on each of the streetlamps may be provided with an ID information for performing the illumination control of the streetlamp based on the operation of the user who purchased the transmitter that transmits the beacon signal to use the streetlight control service, (1).

For example, when a user who purchases a transmitter that transmits a beacon signal directly accesses a management server operated by a service operator or drives an application of a smartphone, the ID of a beacon signal designated for each purchased transmitter Once registered, the management server stores and manages the corresponding ID information, or provides the ID information to each safety gait guide device so as to store and manage the ID information.

In this case, the transmitter is formed as an accessory of a necklace or a ring, and is configured to transmit a beacon signal through the battery power at predetermined intervals, or to form a dongle to connect to a connection port of the communication terminal, It is generally configured to be transmitted every predetermined period. However, the present invention is not limited to this, and it is needless to say that any form can be used as long as it can generate and transmit a beacon signal.

After registering the ID of the beacon signal for the streetlight illuminance adjustment service, if the user drives the power of the transmitter owned by the user to move from the current position to the target position at night ([2]), The beacon signal is transmitted (3).

Then, the beacon signal is received from the safety gait guide installed in the streetlight located at a close distance according to the user's walking, and the ID included in the received beacon signal is registered to the registered ID (4).

That is, in the safety gait system, it is checked whether or not the IDs of the beacon signals received from the transmitter match the registered IDs in order to adjust the illuminance of the street lamps stored in the transmitter, ID is transmitted to the management server, and it is confirmed whether or not the ID is a registered ID in order to control the illuminance of the street lamp based on the notification result of the management server.

When the ID of the beacon signal transmitted from the transmitter is confirmed, the safety gait induction device adjusts the illuminance of the street light, which is currently maintained at the basic illuminance, to the maximum during the set time so that the street light is brightly illuminated. (5). At this time, in addition to the above control method, the safety gait induction device adjusts the illuminance of the street light which is currently maintained at the basic illumination to maximally illuminate the street light. When the pedestrian passes the corresponding position (that is, It is possible to perform dimming control for lowering the maximum illuminance state back to the basic illuminance. The safety gait induction device adjusts the direction of the camera in a direction in which the intensity of the beacon signal is the largest when the streetlight is additionally provided with a camera or a microphone in addition to the streetlight control function. In the direction of the arrow.

This street dimming control is repeated until the user reaches the target point and turns off the transmitter (⑥).

Therefore, according to the operation of the safety gait induction device, the user walking to the target point at night can perform the safe walking through the streetlight light driven at the maximum illuminance according to the movement direction of the user.

On the other hand, when the source and destination setting information is transmitted from the communication terminal on the basis of the application driving operation of the user on the side of the operator (i.e., management server) operating the safe walking device, It is possible to provide a service for providing the generated recommendation route to the communication terminal after generating a recommended route from the origin to the destination based on the location information.

In this case, the recommendation route can be provided to the family member or the acquaintance by the user of the communication terminal. Thus, the user can safely go home and smoothly move the nighttime at unfamiliar places.

FIG. 2 is a schematic view illustrating a configuration of a safety gait induction apparatus using a beacon signal according to an embodiment of the present invention. FIG. 3 is a detailed block diagram of the safety gait induction apparatus of FIG.

As shown in FIG. 2, the apparatus of the present invention includes a transmitter 100, a safe walking guidance device 200, a management server 300, and the like.

The transmitter 100 is a device that periodically transmits a beacon signal carried by a user to adjust the illumination brightness of the streetlight at night, and the beacon signal includes unique ID information.

At this time, the transmitter 100 is generally formed as an independent necklace or a ring accessory. In this case, the transmitter 100 is driven by the battery power supplied therein, and transmits a beacon signal every predetermined cycle.

In addition, the transmitter 100 may be formed in a dongle form connected to a connection port of a communication terminal (for example, a smart phone) in addition to the accessory type as described above. In this case, And transmits it every set period.

It is also noted that the transmitter 100 can be configured in any known manner as long as it can generate and transmit a beacon signal.

3, the safety gait induction apparatus 200 includes a beacon signal processing unit 210 including a receiving unit 212 and an ID checking unit 214, a streetlight 220, a memory 230, a communication unit 240 A control unit 250, and the like.

The beacon signal processing unit 210 includes a receiving unit 212 for receiving a beacon signal transmitted from the transmitter 100 and extracting an ID of the beacon signal from the receiving unit 212, And an ID checking unit 214 for checking whether the ID is an ID that has been set.

The ID identifying unit 214 of the beacon signal processing unit 210 determines whether or not the ID extracted from the receiving unit 212 and the ID registered in the memory 230 are identical to each other A method of confirming whether or not the registered ID is performed in order to adjust the illuminance of the streetlight through matching and a method of transmitting the ID extracted by the receiving unit 212 to the management server 300 through the communication unit 240, And a method of confirming whether or not the registered ID is used to perform the illumination adjustment of the streetlight based on the notification result of the user.

The streetlight 220 is typically implemented as an LED, and operates based on the control of the controller 250, operating at a reference illuminance (e.g., the lowest illuminance) up to sunrise after sunset time and receiving a beacon signal After operating at maximum illuminance, there is no reception of beacon signal and it operates with basic illuminance again.

The memory 230 stores a control program used in the safety gait induction apparatus. In order to adjust the illuminance of the streetlight 220, ID information of beacon signals registered by each user is periodically updated and stored in the management server 300, so that an ID included in the beacon signal received from the transmitter 100 So that it is possible to directly confirm whether or not the ID is a pre-registered ID for the purpose of adjusting the lamp illumination.

In this case, when the ID included in the beacon signal received from the transmitter 100 is checked through the management server 300 not directly by the safety gait inductor 200 whether or not the ID included in the beacon signal is a pre-registered ID , The ID information of the beacon signal registered by each user for controlling the streetlight illumination need not be separately managed in the memory 230. [

The communication unit 240 communicates with the management server 300 through a network communication network and receives control programs for use in the safety walking device 200 from the management server 300, The ID information of the beacon signal to be registered is received.

When the control server 250 confirms whether the ID included in the beacon signal received from the transmitter 100 is an already registered ID for lamp control, 210 to the management server 300, and transmits the notification result of the management server 300 to the control unit 250.

The control unit 250 controls the illuminance of the street light 220 based on the result of ID verification of the beacon signal received from the transmitter 100 in the beacon signal processing unit 210. [

That is, the control unit 250 maintains the illuminance of the streetlight 220 at the lowest illuminance, which is the basic illuminance, until the sunrise time after the sunset time, and in accordance with the beacon signal ID check result in the beacon signal processing unit 210, The dimming operation for driving the illuminance of the street light 220 at the maximum illuminance during the set time and lowering the illuminance of the streetlight 220 to the minimum illuminance is performed.

At this time, in addition to the driving method in which the controller 250 is driven at the maximum illumination level for the set time based on the identification of the beacon signal transmitted from the transmitter 100 and then switches to the lowest illuminance, when the pedestrian passes the corresponding position A method of maintaining the maximum illumination operation state until the beacon signal transmitted from the transmitter 100 is no longer received from the apparatus 200 may be applied.

In addition to the function of controlling the lighting of the street light, turning off the light, dimming, etc., the control unit 250 may confirm the unique ID included in the beacon signal, and may control the direction of the streetlight, camera, It is possible to additionally perform a function of controlling an operation such as movement.

The management server 300 is a computer managed by a provider who operates each safety gait inductive device 200. When the source and destination setting information is transmitted from a communication terminal that drives an application, It is possible to provide a service for generating a recommended route from a departure point to a destination set by the user based on the location information of the streetlight for performing illumination control and providing the generated recommended route to the communication terminal.

That is, when the user who uses the streetlight illumination control function operated by the beacon signal tries to visit the area unfamiliar with the night, he / she inputs the destination using the application of the smartphone owned by the user, ) From the current location to the destination is recommended, so that you can be helped to move at night.

Hereinafter, an embodiment of a safety gait using the beacon signal according to the present invention will be described in detail with reference to FIGS. 4 and 5. FIG. At this time, each step according to the method of the present invention may be changed in the use environment or the order by a person skilled in the art.

FIG. 4 is a flowchart illustrating an operation procedure of a safety gait induction method using a beacon signal according to an embodiment of the present invention. FIG. 5 is a flowchart illustrating an operation procedure of the streetlight illumination control step of FIG.

The management server 300 providing the streetlight illumination control service receives the beacon signal transmitted from the transmitter 100 carried by the user and controls the safety gait 200 to brighten the streetlight in the area where the user is located It is installed in each streetlight. That is, a safety gait induction device 200 capable of performing dimming control through a beacon signal is installed in each streetlight installed at a predetermined distance from a back road, a residential street, and the like, and a service is prepared. In this case, when the streetlight is additionally provided with a camera or a microphone, the safety gait induction apparatus 200 may further control the operation of the camera or the microphone in addition to the dimming control of the streetlight.

A user having a transmitter 100 for transmitting a beacon signal can access the management server 300 directly or via a communication terminal by using a communication terminal, The beacon signal ID information registered by each user in the management server 300 is stored in a database and managed or provided to each safety gait guide device 200 through a network communication network and stored (S100).

At this time, the transmitter 100 may be formed as an accessory of a necklace or a ring so that a beacon signal is transmitted through the battery power at predetermined intervals, or it is formed in a dongle shape connecting to a connection port of the communication terminal, The beacon signal can be transmitted every predetermined period.

After the ID registration of the beacon signal for the streetlight illumination control service is performed in step S100, when the user turns on the power of the transmitter 100 owned by the user in order to move from the current position to the target position at night (S200) , The transmitter 100 transmits a beacon signal every predetermined period (S300).

Then, the beacon signal processing unit 210 of the SAW device 200, which has received the beacon signal transmitted from the transmitter 100 through the antenna, extracts the ID from the received beacon signal, (S400), and determines whether the ID extracted from the beacon signal is registered for service use (S500).

That is, in order to adjust the illuminance of the beacon signal received from the transmitter 100 and the streetlight registered in the memory 230, Or transmits the ID of the beacon signal received from the transmitter 100 to the management server 300 and then transmits the beacon signal to the management server 300 to determine whether the ID is registered to perform the illumination adjustment of the streetlight based on the notification result of the management server 300 I will check whether.

If it is determined in step S500 that the ID of the beacon signal received from the transmitter 100 is registered in the use of the streetlight illumination control service, And performs dimming control for automatically adjusting the illuminance (S600).

5, if the ID extracted from the beacon signal received from the transmitter 100 is an ID registered in the use of the streetlight illumination control service, The illuminance of the streetlight 220 is driven at the maximum illuminance (S610) in a state where the illuminance of the streetlight 220 is kept at the lowest state (i.e., the state driven by the basic illuminance) until the sunrise time after the sunset time. That is, the streetlight of the area where the user is located is illuminated as bright as possible, thereby helping to move at night.

In a state in which the street light 220 is driven at the maximum illuminance, the controller 250 determines whether a predetermined set time has elapsed (S620).

As a result of the determination, when the set time has elapsed, the controller 250 performs control for lowering the illuminance of the lamp 220 under the maximum illuminance to the minimum illuminance (S630).

That is, when the ID of the beacon signal transmitted from the transmitter 100 is identified by the ID registered for service use, the control unit 250 of the safe walking device 200 sets the illuminance of the streetlight, The dimming control is performed to adjust the maximum brightness for a long time so as to brighten the street light, and to lower the illuminance when the set time has elapsed. At this time, in addition to the above control method, the controller 250 controls the light source of the light source such that the user passes through the corresponding position and transmits the light from the safety gait inductor 200 to the transmitter 100 The dimming control method of lowering the maximum illuminance state back to the basic illuminance may be applied.

The control unit 250 controls the operation of the street lamp, the direction of the camera, and the direction of the microphone according to the strength or direction of the beacon signal, in addition to the function of controlling the lighting, lighting, dimming, etc. of the streetlight through the beacon signal Additional functions can be performed.

Each of the safety gaiters 200 performing the dimming control of the streetlamp based on the movement of the user through step S600 performs step S600 until the user reaches the target point and turns off the power of the transmitter 100 (S700).

Meanwhile, although not shown in the drawing, each user having a communication terminal sets a current position and a destination at which the user himself / herself is located through driving an application provided by the management server 300, before using a streetlight illumination adjustment service based on a beacon signal , The management server 300 can receive a recommended route from the departure point to the destination set by the user.

That is, a user who intends to visit a place unfamiliar with the night may be provided with a recommendation route based on the location information of the streetlight that performs illumination control with the beacon signal from the management server 300, will be.

As described above, according to the present invention, in the safety gait induction device provided in the streetlight, the beacon signal transmitted from the transmitter held by the user is received and the unique ID is confirmed. Then, the illuminance of the operated street light is brightened for a predetermined time, Since the operation control of the street lamp, the camera, and the direction of the microphone is performed according to the strength and direction of the signal, it is possible to induce the user to walk safely at the position at night.

In addition, since the illuminance of the street lamp is adjusted through the beacon signal, power consumption due to the motion recognition error or the sensor malfunction can be reduced as compared with the system that operates based on the conventional motion recognition.

In addition, since a transmitter for transmitting a beacon signal can be easily manufactured in the form of an accessory or a dongle, the service can be used at a low cost.

In addition, since the route from the present location to the destination is recommended based on the location information of the streetlight that performs the illumination adjustment to the user of the communication terminal using the application on the service operator side, the user can safely return home, It is possible to smoothly induce nighttime movement.

It will be apparent to those skilled in the art that various modifications may be made to the invention without departing from the spirit and scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

100: transmitter 200: safety gait induction device
210: beacon signal processing unit 212:
214 ID check unit 220: Street light
230: memory 240:
250: control unit 300: management server

Claims (13)

A beacon signal processing unit for receiving a beacon signal periodically transmitted from a transmitter and extracting an ID assigned to the transmitter, and confirming whether the extracted ID is an ID registered to perform operation control of a streetlight through a management server;
A control program for use with the management server and a safety gait inductive device, and a control program for controlling the operation of the streetlight, comprising: communicating with a management server through a network communication network; transmitting the extracted ID and receiving a notification result from the management server; A communication unit for performing data communication related to the registered ID to perform the registered ID; And
And a control unit for controlling lighting, lighting, dimming, direction of illumination, or a combination of the streetlights based on the registered ID check result of the beacon signal,
Wherein the beacon signal processing unit includes a step of transmitting the extracted ID to the management server via the communication unit and confirming whether or not the ID is a registered ID for performing operation control of the streetlight based on the notification result of the management server,
The beacon signal processing unit updates the received registered ID from the management server and stores it in a memory. When the beacon signal is received from the transmitter, the beacon signal processing unit extracts an ID assigned to the transmitter, and outputs the extracted ID to the memory Comparing the stored ID with the stored ID, and checking whether the ID is a registered ID to perform operation control of the streetlight based on the comparison result,
Wherein the control unit further comprises adjusting a direction of illumination of the streetlight so as to illuminate the streetlight in a direction in which the intensity of the beacon signal is the largest. The method according to claim 1,
Wherein,
Maintaining the illuminance of the streetlight at the lowest state until sunrise time after the sunset time,
And controlling the illuminance of the street lamp at a maximum illuminance for a preset time according to a result of ID verification of the beacon signal while maintaining the minimum illuminance,
Further comprising: performing a dimming operation to lower the illuminance to the minimum illuminance when the set time has elapsed. delete delete The method according to claim 1,
The management server includes:
When the source and destination setting information is transmitted from the communication terminal that drives the application, a recommended route from the origin to the destination is generated based on the location information of the streetlight that performs illumination control with the beacon signal built in the database And provides the generated recommended route to the communication terminal. delete delete A beacon signal processing unit receives a beacon signal periodically transmitted from a transmitter and extracts an ID assigned to the transmitter, and confirms whether the extracted ID is an ID registered to perform operation control of the streetlight through a management server A signal checking step;
And a control program used in the management server and the safety gait induction apparatus, and a control program for controlling the control program and the streetlight A communication step of performing data communication related to the registered ID for performing an operation control of the terminal; And
And controlling a light direction of the street light, dimming, direction of illumination, or a combination thereof based on the registered ID check result of the beacon signal,
The beacon signal checking step may include a step of determining whether or not the beacon signal processing unit transmits the extracted ID to the management server through the communication unit and then determines whether the ID is registered to perform the operation control of the streetlight based on the notification result of the management server ≪ / RTI >
Wherein the beacon signal processing unit updates the registered ID from the management server in the beacon signal processing unit and stores the ID in the memory, extracts an ID assigned to the transmitter when the beacon signal is received from the transmitter, Comparing the extracted ID with an ID stored in the memory, and checking whether the ID is registered to perform operation control of the streetlight based on the comparison result,
The method according to claim 1, wherein the step of controlling the streetlight further comprises: adjusting, by the control unit, the direction of illumination of the streetlight so as to illuminate the streetlight in a direction in which the intensity of the beacon signal is the largest . The method of claim 8,
The streetlight control step includes:
A maximum illuminance operation step of driving the illuminance of the street lamp at a maximum illuminance in a state where the controller maintains the illuminance of the street lamp at a minimum state from sunset time to sunrise time;
Determining whether a predetermined set time has elapsed in the control unit; And
Further comprising: a minimum illuminance operation step of lowering the illuminance of the streetlight being driven at the maximum illuminance to the minimum illuminance when the set time has elapsed as a result of the determination. delete The method of claim 8,
In the safety gait induction method,
When the source and destination setting information is transmitted from the communication terminal that drives the application, a recommendation from the origin to the destination based on the location information of the streetlight that performs illumination control with the beacon signal built in the database in the management server And providing the generated recommendation route to the communication terminal. The method of claim 1, further comprising: delete delete

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