KR20220106506A - Power blinking method of remote power blinking system and Internet network system - Google Patents

Abstract

The present invention relates to a system which provides a service of an advertisement board to a network by using internet data at a desired location from a remote distance or a short distance at a desired time based on a remote power on/off system and a power on/off method. The present invention relates to an advertisement technique capable of outputting a desired amount of advertisements according to a situation of a consumer.

Description

Power blinking method of remote power blinking system and Internet network system{omitted}

A method of stabilizing location-based data according to the situation using the power blinking system, which is a data communication network based on power.

Wired and wireless-based data communication system and consumer-based advertising system.

kr-10-2000-45762 Remote power blinking system and its power blinking method kr-10-2000-44718 Location recognition system and location recognition method through data communication network. Infra network of convergence search engine and its composition. en-10-2020-0104603.

When the remote power blinking system, a human neural network model, is used in the same network as the wired Internet in the Wi-Fi wide-area Internet network, when used for the purpose of the Internet of Things, the location-based system and the response to the desired location search expression, and the intranet of each institution When necessary, (always) respond to work. This is not a three-dimensional model, but a two-dimensional checkerboard-shaped power flashing system and a heavy equipment system smartphone (remote controller) to organize and implement it based on the networking method and the calibration of the location data. .

The present invention relates to a remote power blinking system and a power blinking method therefor, which transmits and receives power blinking signals and data in a relay manner through a plurality of remote power blinkers to control power for multiple lights with a single remote control. It is an object of the present invention to provide a remote power blinking system and a power blinking method that enable remote transmission and reception of specific data.

Furthermore, the remote power system and power flashing method interlock with a number of remote power flashers and transmit and receive power flashing signals and data in a relay manner. This is a P2P method. It is included, and it talks about the system interlocking of itself and the surrounding power flicker.

This refers not only to the interlocking of the blinking system around one's own power flickering, but also to the structure that allows not only Chicking of the system failure of one's power blinker, but also correction and repair request by interworking with the remote Gps data transmission/reception system and remote data transmission/reception.

Based on this, the electronic space, physical space, and virtual space are connected to form a single system, which is called the development cloud. The development cloud is a computer device of the Internet of Things network by means of a smart card interworking with a search engine, terminal device, and terminal device. Log in and link in succession, and this is made possible by matching the hardware and software of physical devices such as smart cards and smart pens.

However, because the neural network model is based on latitude and longitude values, it is operated based on a three-dimensional address system, which continuously matches the values of another three-dimensional address system or checks, processes, and stores according to a certain time or distance according to a set value. It is based on tasks such as sending and receiving.

At this time, the three-dimensional structure of the three-dimensional address by the smart sensor will be dealt with.

A three-dimensional structure can be thought of as seeing on the screen the situation in which each structure is created and worked in a program such as 3DMAX. because it becomes

This system can operate LOCAL BASE system and Posioning System-based system such as METRO GLOVAL, which is applied based on Local Base Service.

At present, it can be said that it can be implemented by talking and setting in any place where there is a beacon, a train station, and furthermore, a sensor or a terminal device.

And it is directed toward network operation, data interlocking, and CHICKING storage with terminal device and computer search engine and APP, which is based on a device capable of flashing power with power.

In the end, based on where the power flashing system is located, it is possible to remotely apply the DATA relay method to the subscriber's P2P network computer and use it as a server, and to install and implement an infrastructure network based on the power of the network itself. included in the range.

And such a power blinking system network is a network that is the basis of the Internet of Things network of the human neural network model.

This situation is being implemented as an infrastructure network of wired and wireless networks, and only the method of implementing the infrastructure network as a DATA highway can be the basis for tax and billing.

When the present invention is applied, a remote control or remote control function smart phone for generating an initial switching signal of the subscriber for power blinking due to key operation and inputting data for a blinking condition, and a transceiver unit are provided therein, each at regular distance intervals One or more remote power blinkers installed to transmit specific data and switching signals to neighboring remote power blinkers by short-distance transmission, and a gateway for interfacing specific data transmitted via a plurality of remote power blinkers, and the gateway It is composed of a management server that receives specific data that has been approved by do,

When the present invention is applied, a plurality of power sources can be sequentially flickered using a short-distance relay switching signal and data transmission, and various data such as the Internet for a specific situation and their location can be quickly transmitted.

In addition, it is possible to control or adjust various systems using the method of flickering the power system of various lights or objects.

This is the extension of the power blinking system.

In addition, the system according to the present invention is very economical because it is possible to construct a position-aware wired/wireless data transmission/reception system with low cost and precision compared to the conventional method using satellites and base stations. However, since all systems other than the satellite system are interlocked, Metro and Global services are implemented based on Local Base-based services.

The method of location recognition is a method in which a terminal constantly matches a base station to find a location, but in a way that links a certain location.

In the end, it is closely related to the amount of base stations, satellite antennas, and repeaters, and the stability of the power grid system that is the basis of the repeaters.

As described above, according to the remote power blinking system and the power blinking method according to the present invention, a plurality of power sources can be controlled blinking sequentially using a short-distance relay switching signal and data transmission, and in a specific situation (eg, crime or In addition to the occurrence of missing children or the arrangement of logistics delivery vehicles, it is possible to quickly transmit data and its location on various application systems for wired and wireless Internet).

In addition, the limitation of the distance of Wi-Fi is to be connected to a wide area network.

In addition, the system according to the present invention is very economical because the system can be constructed inexpensively compared to a remote method using a system of a satellite and a base station.

1 is a schematic diagram showing a schematic configuration of a power blinking of a remote power blinking system according to an embodiment of the present invention;
1A is a schematic diagram showing the configuration of a power blinking system and Internet data transmission and reception.
2 is a block diagram showing the configuration of a remote power blinking system according to an embodiment of the present invention;
Figure 2a is a block diagram showing the data network Internet transmission and reception equipment system of the remote power blinking system.
3 is a block diagram showing a schematic configuration of data transmission/reception of a remote power blinking system according to an embodiment of the present invention;
3A is a block diagram showing a schematic configuration of a subscriber location check by loge in in data transmission/reception of a remote power blinking system.
4 is a view showing a location code of a remote power blinking system according to the present invention;
Figure 4-a subscriber identity data for location recognition.
Figure 4-b Receiver and data for location recognition.
5 is a flowchart illustrating a signal flow of a remote power blinking system according to an embodiment of the present invention.
5A is a diagram of a wired/wireless data communication network for positioning based on a remote power blinker.
6 is a flowchart illustrating an Internet data signal flow and data input/output based on the data communication network of FIG. 3A.

In order to achieve the above object, according to a preferred embodiment of the present invention, a remote control (smartphone) for generating an initial switching signal of a subscriber for power blinking due to a key operation and inputting data for a blinking condition, (smartphone), and:

One or more remote power flashers provided with a transceiver inside and installed at regular distance intervals to transmit specific data and switching signals to neighboring remote power flashers by short-distance transmission:

a gateway for interfacing specific data transferred via the plurality of remote power flashers to a computing system;

It is composed of a management server that receives the authorized specific data through the gateway, takes action according to the specific data, and manages the entire remote power blinking system. A remote power blinking system is provided for transmission. The remote power blinking system operates based on power and operates a switching relay system by interworking with local and wide area networks within the network and leaves a record on the server.

In addition, various types of data are interlocked and transmitted through the data network, which is called the Internet cloud network.

Preferably, each remote power flasher includes an illuminance sensing unit provided therein to detect illuminance of light irradiated from the outside;

a key operation unit for generating a specific emergency signal and its data;

A receiving unit provided inside to receive a switching signal and blinking condition data from the remote control;

A main circuit breaker that cuts off the power supply in case of a short circuit when the power is turned on for light emission:

a switching unit receiving a switching signal from the receiving unit and switching the power input from the earth leakage breaker;

A power stabilizing unit for stabilizing the current and voltage of the power input to the light emitting unit by the switching of the switching unit;

A data storage unit for storing the flashing condition data for the light emitting unit of the remote control applied through the receiving unit and the unique code data of the remote power flasher therein;

A transmitter for transmitting a power switching signal and various data to another remote power flasher adjacent to the remote power flasher;

a signal modulator/demodulator for performing signal modulation and demodulation for the receiver and transmitter;

The illuminance sensing signal is received from the illuminance sensing unit and compared with the illuminance set value of the data storage unit to control the switching unit and at the same time control the switching unit by the switching signal applied through the receiving unit to control the blinking of the light emitting unit, , It is characterized in that it is composed of a control unit that transmits a switching signal through the transmitting unit to a neighboring second remote power flasher and transmits and controls a specific situation occurrence signal, which is authorized from the key operation unit, to a management server,

More preferably, the specific situation occurrence data is characterized in that the location of the smart phone or IoT device can be identified through the unique code of each remote power flasher.

On the other hand, according to the present invention, the power source is flickered by a switching signal transmitted from the outside, and the internal data storage unit and the control unit, the internal data storage unit, the control unit, One or more remote power flashers having a key operation unit and a switching unit, a gateway for interfacing data transmitted from the remote power flashers, and a management that performs actions and management according to the data authorized through the gateway and the location of its occurrence In operating a remote power off system composed of a server, the user sets a blinking condition of the light emitting unit using the remote control to control the power blinking of the remote power blinker;

When the control unit is determined to be a lighting condition, the remote power flasher switches its internal switching unit to supply power to the light emitting unit, and at the same time transmits a power switching signal to a neighboring remote power flasher through the transmitter. :

When the user or a third person operates the key operation unit, the process of sequentially transmitting specific situation occurrence data for the key operation signal and the location code to the management server through a neighboring remote power blinker;

A process of changing and inputting a setting condition for power blinking through the remote control;

The process of sequentially transmitting the change data to the neighboring remote power blinkers and inputting them into each internal data storage unit;

The process of reading the light-off condition and determining whether the detected illuminance value at the light-off time is suitable for the light-off condition;

Provided is a remote power blinking method characterized in that the light is turned off while transmitting a light off switching signal successively through a plurality of the remote power blinkers when the light off condition is satisfied.

Preferably, the light-off condition for the light emitting unit is a remote power blinking method, characterized in that the flashing time data (lighting and turning off time) according to sunrise and sunset and a switching setting value for illuminance detection support by the illuminance sensing unit is provided. ,

In addition, the power-based flasher transmits the Internet data transmission and the data value of the position of the end of the IoT device at the agreed time according to a certain pattern.

Hereinafter, an embodiment of the present invention will be described in more detail with reference to the accompanying drawings,

1 is a schematic diagram showing a schematic configuration of a power blinking of a remote power blinking system according to an embodiment of the present invention.

In addition to this, the remote power blinking system 100 according to the present invention includes at least one remote power blinking device 10a, 10b, 10c.... ) and is provided with a remote control 50 that generates an initial switching signal,

Based on the power flasher, the remote control can turn on/off the power of the home appliances around the power flasher, which is an Internet of Things device, by flashing the power in the desired way on the intranet. This is because the home appliances we use apply the basic model of the computer.

Each of the remote power flashers consists of first to N-th remote power flashers 10a to 10n installed in a predetermined arrangement at positions spaced apart from each other by a predetermined distance, and among them, the remote control 50 is attached to a specific remote power flasher (eg, 10a). ), when the initial switching signal is applied by the key operation, the power is sequentially switched along a predetermined path.

For example, when one remote power flasher 10a is switched by a key operation of the remote controller 50, the remote power flasher 10a is connected to another remote power flasher (for example, 10b, 10c, 10d, 10f) adjacent thereto. ), and each remote power flasher (eg, 10b, 10c, 10d, 10f) also transmits a switching signal to a neighboring remote power flasher along a predetermined path in the same manner.

Such switching signal transmission is sequentially performed by neighboring remote power blinkers like a signal transmission system in the human body's neural network circuit.

This is because, for the first time, the synaptic transmission model was matched with the road network and power network on the ground based on the human body's pain sensation based on the remote power blinker model, and the human nerve is made through a kind of switching relay method.

Depending on the arrangement of each remote power flicker, it may have various types of signal transmission, such as linear signal transmission or radial signal transmission.

This is to match the resistance value based on the basic data of the sensor resistance value when performing the work to match the temperature value of another platinum sensor equally using the reference device of the platinum sensor.

At this time, the precision is determined according to how short the data matching operation takes two points of the position value.

In addition, the environment and the precision of electronic products are also involved.

In the end, measuring and matching a location at a distance of 100m has an error range of 1/100 compared to matching and measuring at a distance of 10km or more.

Interlocking other smart devices based on a power-based flasher is the optimal method in this situation, and the method of supplying electricity as needed is a method that uses the terminal's power to a minimum.

2 is a block diagram showing the configuration of a remote power blinking system according to an embodiment of the present invention.

Referring to this, reference numeral 12 denotes an illuminance sensing unit provided inside the remote power flasher 10a to sense the illuminance of the irradiated light, and the illuminance sensing unit 12 is a water pipe for receiving light therein. It is connected to the diode and the light-receiving diode and is composed of a resistor having a set value of a certain size.

Reference numeral 14 denotes a key operation unit for generating a specific emergency signal via the remote power blinking system 100, and reference numeral 16 is provided inside the remote power blinking system 10a and is switched from the remote control 50 It represents a receiving unit that receives the signal and blinking data, and reference numeral 18 denotes an earth leakage breaker that cuts off the power supply when an earth leakage condition occurs when power is turned on to the remote power flasher 10a.

Reference numeral 20 denotes a switching unit that receives a switching signal from the receiving unit 16 and switches the power supplied from the earth leakage breaker 18, and 22 denotes the light emitting unit 24 by switching of the switching unit 20. It represents the power stabilization part that stabilizes the current and voltage of the power input to

Reference numeral 20 denotes a switching unit that receives a switching signal from the receiving unit 16 and switches the power supplied from the singa earth leakage breaker 18, and 22 denotes a switching unit that switches to the light emitting unit 24 by switching of the switching unit 20. It represents the power stabilization part that stabilizes the current and voltage of the input power.

In addition, reference numeral 26 denotes a data storage for storing blinking condition data for the light emitting unit 24 of the remote control 50 applied through the receiving unit 16 and the unique code data of the remote power flicker therein. As a bar, the data storage unit 26 has power on and off time data based on sunrise and sunset times therein, and flashing set value data for the amount of illuminance applied from the illuminance sensing unit 12, and the remote power flasher 10a. ) for unique code data and specific situation occurrence data are stored.

In addition, in the case of the Internet of Things, it is possible to store or transmit the location and video of Internet data based on a data storage device installed separately from the location data.

Reference numeral 28 denotes a transmitter for transmitting a power switching signal and various data to a second remote power flasher (eg, 10b) adjacent to one of the remote power flashers 10a, and reference sign 30 denotes the receiving unit ( 16) and a signal modulator/demodulator that modulates and demodulates signals for the transmitter 28. In addition, there is a situation in which data modulation and modulation/demodulation are performed on a regional basis in the process of transmitting the location and location code while various terminals are switching while passing the location of the power blinker. It responds by transmitting the position of DATA.

Meanwhile, reference numeral 30 receives the illuminance sensing signal from the illuminance sensing unit 12 and compares it with the illuminance set value of the data storage unit 26 to control the switching unit 20 and simultaneously control the receiving unit 16. Controls the switching unit 20 by the switching signal applied through the control to control the flashing of the light emitting unit 24, and transmits the switching signal through the transmitting unit 28 to the neighboring second remote power flasher, , represents a control unit that transmits and controls a specific situation occurrence signal authorized from the key operation unit 14 to the management server.

Hereinafter, the signal transmission situation of the remote power blinker for the occurrence of a specific situation will be described in detail with reference to the accompanying drawings.

3 is a block diagram showing a schematic configuration of data transmission/reception of a remote power blinking system according to an embodiment of the present invention;

Referring to this, at least one of the first to Nth remote power flashers 10a to 10n is provided with first to Nth key manipulation units 14a to 14n, respectively, so that the first to Nth key manipulation units 14a to 14n are provided. 14n) is operated, the control unit 32 of FIG. 2 reads data for a specific situation from the data storage unit 26 based on the key signal and transmits the signal through the transmission unit 28 .

As a result, the signal transmitted through the short-distance relay signal transmission method is signal transmitted through the gateway 60, and the gateway 60 is provided with various interface devices for signal transmission, signal extraction, and matching therein.

In addition, when data for a specific situation is applied to the management server 70 through the gateway 60 , the management server 70 can take an action for the specific situation, for example, the key operation unit 14 ), when a crime occurrence signal or a vehicle breakdown signal is generated, the management server 70 can take measures such as dispatching a police vehicle or contacting a vehicle breakdown center,

4 is a view showing the location code of the remote power blinking system according to the present invention.

Referring to this, the remote power blinking system 100 according to the present invention transmits a power switching signal and specific situation signal data through short-range relay signal transmission and reception as in FIG. 3, which is the key operation unit (FIG. 2:14). ) to determine the location of signal generation by

Therefore, in order to determine the location of the specific remote power flasher 10, unique code data for each remote power flasher 10 is provided inside the data storage unit (FIG. 2:26), and the key operation unit ( 14), the unique code data is concatenated and transmitted to the specific situation signal data.

Meanwhile, the unique code data has different unique code data, for example, as shown in FIG. 4 .

That is, the first remote power flasher 10a has the code of A-001 (80a), the second remote power flasher 10b has the code data of A-002 (80b), and when the code data is transmitted, the The management server 70 can recognize from which remote power blinker data for a specific situation is transmitted based on the code data (eg, A-001 and A-002).

The function of the remote power blinking system and the power blinking method according to an embodiment of the present invention of the above configuration will be described in detail with reference to the accompanying drawings,

5 is a flow chart showing the signal flow of the remote power blinking system according to the present invention.

First, a user (subscriber) sets a blinking line of the light emitting unit 24 using the remote controller 50 to control the power blinking of one or more of the remote power blinkers 10a to 10n,

For example, the subscriber may input a blinking time, location data (lighting and off time) and a set value by the illuminance sensing unit 12 via the remote controller 50 .

In addition, it is sufficiently possible to set and use the flashing conditions in advance during the manufacture of the initial remote power flashers 10a to 10n (Step 1: ST-1)

When the power ON condition stored in the data storage unit 26 (eg, arrival of lighting time, detection of a value less than the preset value of the illuminance sensing unit, etc.) -2), the first remote power flasher (for example, 10a) switches the switching unit 20 therein and at the same time the light emitting unit of the neighboring second remote power flasher 80b through the transmitting unit 28 Transmitting the switching signal for switching in the relay transmission method (3rd step: ST-3)

At this time, if the user or a third person operates the key operation unit 14 , the control unit 32 reads the specific situation occurrence data for the key operation signal from the data storage unit 26 and reads the data of the specific situation for the key operation signal to the transmission unit 28 . ) to a neighboring second remote power flasher (eg, 10b) via the, and transmitted to the second remote power flasher 10b, the second remote power flasher 10b is a third remote power flasher 10c ), and sequentially transmits the occurrence data of the specific situation. (Step 4: ST-4)

As described above, when data for a specific situation arrives at the management server 70 through the cloud through short-distance relay data transmission, the management server 70 takes action. (5th step: ST-5)

In addition, when the subscriber wants to change the setting condition through the remote control 50, he or she operates the remote control (smartphone) 50 to change and input the setting condition for power blinking, and the changed data generated accordingly The short-distance relay data transmission is transmitted and inputted to each remote power flasher 10a to 10n. (Sixth step: ST-6)

At this time, if the light-off condition (e.g., the light-off time arrives, the illuminance detection value is abnormally detected, etc.) stored in the data storage unit 26 is satisfied (Seventh step: ST-7), the first remote power flasher ( The relay is turned off through signal transmission from 10a) to the Nth remote power flasher 10n (step 8: ST-8)

The remote power blinking system according to the present invention is not limited to a specific lighting device, but is universally applicable to security lights, street lights, advertising lights, factories and various building lights, parking lots and park lights, etc.

If it is applied to a system such as a drama or a performance among the markets where it is possible to perform power blinking, it is possible to create a structure that enables highly precise control in a short time, and it is a structure that can be controlled remotely from a place such as a broadcasting station.

In addition, the method of providing a monitor as a billboard in conjunction with a beacon or the location system of the subway entrance and exit, inputting advertisement data by selecting an area desired by the consumer, and calculating the billing accordingly is the basis of the power blinking connected to the Internet. It is possible and installed on a billboard nearby, providing a situation where there is no problem in setting the advertisement price and setting structure where you want it.

This is the advantage of the LOCAL BASE network.

The method can be applied based on Naver's POWER LINK system. However, since it is possible to directly check the position of the advertisement according to the location, you can select and use only as many advertisement boards as you want.

In simple terms, it can be said that the delivery box in the subway is used as a billboard.

In addition, since each remote power flasher is assigned a unique code number, when they are arranged and installed in a certain form, it is also used as a receiving device for positioning when a specific situation occurs, such as a missing child, a crime, or an arrangement of a logistics delivery vehicle. Of course, it can be used

Claims (7)

With a remote control or smart phone that generates the initial switching signal of the subscriber for the power blinking due to key operation and inputs data for the blinking condition:
One or more remote power flashers each having a transceiver unit provided therein and installed at regular distance intervals to transmit specific data and switching signals to neighboring remote power flashers by short-distance transmission:
a gateway for interfacing specific data transmitted through a plurality of the remote power flashers;
It receives specific data authorized through the gateway, takes action according to the specific data, and consists of a management server that manages the entire remote power blinking system. A remote power blinking system that enables transmission and a wired/wireless Internet network based on this power blinking system is configured and the cloud network is calibrated based on Loge in to create a unity point of physical space and electronic space virtual space. A location-aware data network system that enables a data network system that enables , Metro, and Global Service. The method of claim 1,
The remote power flasher includes an illuminance sensing unit provided therein to detect the illuminance of light irradiated from the outside, and a key operation unit for generating a specific emergency signal and its data based on the GPS and LPS matched thereto;
A receiving unit provided inside to receive a switching signal and blinking condition data from the remote control;
An earth leakage breaker that cuts off the power supply when an earth leakage condition occurs when power is turned on for light emission:
a switching unit receiving a switching signal from the receiving unit and switching the power input from the earth leakage breaker;
A power stabilizing unit for stabilizing the current and voltage of the power input to the light emitting unit by the switching of the switching unit;
A data storage unit for storing the flashing condition data for the light emitting unit of the remote control applied through the receiving unit and the unique code data of the remote power flasher therein;
The transmitter for transmitting a power switching signal and various data to another remote power flasher adjacent to the remote power flasher;
a signal modulator/demodulator that modulates and demodulates signals for the receiver and transmitter;
The illuminance sensing signal is received from the illuminance sensing unit and compared with the illuminance set value of the data storage unit to control the switching unit, and at the same time to control the switching unit by the switching signal applied through the receiving unit to control the blinking of the light emitting unit, , a remote power blinking system, characterized in that it transmits a switching signal through the transmitting unit to a neighboring second remote power switch unit, and a control unit that transmits and controls a specific situation occurrence signal authorized from the key operation unit to a management server. Based on the blinking system, when the smartphone user agrees to the setting to receive the desired data and the location of the smart phone, the surrounding location system area is set aside so that the data can be searched and data provided. A data transmission/reception system that provides the data desired by the user. The method of claim 1,
A system capable of providing various information calibrated based on the remote power blinking system and the power extinction system, characterized in that the specific situation occurrence data is located through a unique code assigned to each remote power blinker .
Here, calibration refers to the operation of maximally matching the physical space and the electronic space based on two points, and this is done based on the local area network system with latitude and longitude values. The power is flickered by the switching signal transmitted from the outside, and the internal data storage unit and the control unit, the key operation unit for the occurrence of a specific situation, and the switching unit in order to transmit the switching signal and specific data to the neighboring remote power flasher. A remote power source comprising at least one remote power flasher having at least one remote power flasher, a gateway for interfacing data transmitted from the remote power flasher, and a management server that performs actions and management according to the data applied through the gateway and the location of its occurrence In operating the blinking system,
In order to control the power flickering of the remote power flicker, the user sets the flickering condition of the light emitting unit using the remote control;
When the control unit is determined to be a lighting condition, the remote flasher switches an internal switching unit to supply power to the light emitting unit, and at the same time transmits a power switching signal to a neighboring remote power flasher through the transmitting unit.
When the user or a third person operates the key operation unit, the process of sequentially transmitting the specific situation occurrence data for the key operation signal and the location code to the management server through a neighboring remote power blinker;
The process of changing and inputting the setting condition for power blinking through the remote control or smart phone;
The process of transmitting the changed data successively through the neighboring remote power blinkers and inputting them into each internal data storage unit;
When the light-off condition is satisfied, a remote power flashing method characterized in that it sequentially transmits a light-off switching signal through a plurality of the remote power flashers and turns off the lights. A system that provides interlocking data to the terminal device of the user and connects, stores, distributes and manages the data connected to the server and storage device that are matching with the local mediator and mediator system from the current location. According to claim 4,
The light-off condition for the light emitting unit is a remote power flashing method and a stand of a power flasher, characterized in that the switching setting value for the flashing time data (lighting and off time) according to sunrise and sunset and the illuminance detection value by the illuminance sensing unit A system that can transmit various setting data (desired data) even in the By state.
This means that it is possible to control the power blinking of the desired power blinker, as well as the access and distribution of Internet data such as Wifi, by controlling the power blinking system. A system that transmits the desired data based on claim 4 to Wifi, Blootooh, and Internet terminals using wired/wireless networks. based on paragraph 6
1. By interlocking the location sensing system of beacons or train entrances and exits, computers and monitors that link with the network are provided as advertisement boards.
2. On the interface of the monitor, the region desired by the consumer is displayed on the screen of the map, and the location is selected on the map.
3. In the case of the same advertisement according to the charging method of the search engine POWER LINK, by entering the video data for the advertisement, and by selecting the advertisement and advertisement position for as long as the user wants on the interface and paying accordingly. position can be adjusted
Network service of LOCAL BASE SERVICE based on blinking power connected to the Internet with billboards.

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