KR102500379B1 - Event-based Smart Lighting Common Platform System - Google Patents

Abstract

The present invention relates to an event-based smart lighting common platform system and, more specifically, to an event-based smart lighting common platform system, which comprises: an event generation module which generates and distributes one or more events using at least one of illumination state information on the status of smart lighting, sensor information acquired from a sensor within the smart lighting, and weather information obtained from an external public server; an event storage module which stores at least one of the illumination state information, the sensor information, and the weather information, and stores the one or more events distributed from the event generation module; and an event processing module which subscribes only to necessary events among the one or more events stored in the event storage module to provide a smart lighting control service requested from a user terminal. The system can realize optimized control for the environment in which smart lighting is installed without the need for separate user input.

Description

Event-based Smart Lighting Common Platform System {Event-based Smart Lighting Common Platform System}

The present invention relates to an event-based smart lighting common platform system, and more specifically, to an event-based smart lighting common platform system with improved scalability by controlling smart lighting according to a subscribed event rather than controlling smart lighting according to a preset algorithm. It's about the platform system.

BACKGROUND OF THE INVENTION With the development of network technology, an industry for more conveniently configuring a user's living environment is growing. In particular, IoT service providers are providing users with smart home appliances and various IoT services using IoT and big data technologies. For example, smart lighting refers to a service that controls the on/off of lights after a user's voice command is interpreted by artificial intelligence.

However, a conventional system for controlling smart lighting includes an algorithm for a specific service, and when a client accesses the system to control smart lighting, the corresponding algorithm is driven so that only the same control can be performed each time. In this regard, Related Document 1 relates to a smart lighting control system including a fire and lighting condition monitoring and lighting control integration module, and various sensors can be adjusted according to a preset method. Related Document 2 relates to a smart wireless lighting module control device and method for selectively controlling area lighting and individual lighting through a Wi-SUN network, which can also control wireless lighting modules in preset stages.

That is, the conventional smart lighting control system has a technical limitation in that the existing algorithm must be modified and added each time using a script-based programming language when the service to be provided needs to be changed according to the environment in which the smart lighting is used. Accordingly, there is a need for a technology for operating smart lighting without user input and a technology with improved scalability to easily provide services required according to the environment in which smart lighting is used.

KR 10-2242787 KR 10-1951395

The present invention is to solve the above problems, and provides a smart lighting control service with improved scalability than the prior art, so that it can be easily used in various environments, rather than controlling smart lighting according to a preset algorithm, an event being subscribed to. The purpose is to obtain an event-based smart lighting common platform system that controls smart lighting according to.

In addition, an object of the present invention is to cumulatively store various information, various events, control commands, and control history obtained from smart lighting so as to realize a control service optimized for the environment in which smart lighting is installed without separate user input, and store them as big data It is to provide an event-based smart lighting common platform system that is applied to smart lighting control services after creating scenarios and artificial intelligence models using

In order to achieve the above object, the present invention generates one or more events using at least one of lighting state information about the state of smart lighting, sensor information obtained from a sensor in smart lighting, and weather information obtained from an external public server Event generation module to be distributed after; an event storage module configured to store at least one of the lighting state information, the sensor information, and the weather information, and to store the one or more events distributed from the event generating module; And an event processing module for subscribing to only necessary events among the one or more events stored in the event storage module to provide the smart lighting control service requested from the user terminal; Provides an event-based smart lighting common platform system that includes.

As described above, according to the present invention, rather than controlling smart lighting according to a preset algorithm, smart lighting installed in various environments such as residential, commercial, industrial, and outdoor environments is controlled by controlling smart lighting according to events being subscribed to. Since it is possible to provide a service for customizing control to suit the environment, there is an effect of improving expandability compared to the prior art.

In addition, the present invention accumulates various information, various events, control commands and control history obtained from smart lighting, uses it as big data to generate scenarios and artificial intelligence models, and then applies them to smart lighting control services, It is effective to realize control optimized for the environment in which smart lighting is installed without separate user input.

1 is a block diagram of the event-based smart lighting common platform system of the present invention.
2 is a diagram showing an event-based smart lighting common platform according to an embodiment of the present invention.

The terms used in this specification have been selected from general terms that are currently widely used as much as possible while considering the functions in the present invention, but these may vary depending on the intention of a person skilled in the art, precedent, or the emergence of new technologies. In addition, in a specific case, there is also a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, not simply the name of the term.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in this application, it should not be interpreted in an ideal or excessively formal meaning. don't

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram of the event-based smart lighting common platform system of the present invention. 2 is a diagram showing an event-based smart lighting common platform according to an embodiment of the present invention.

First, referring to FIG. 1, the event-based smart lighting common platform system of the present invention may include a common platform server 200, and the common platform server 200 is most preferably based on an open API (Open Application Programming Interface). can be This is to produce an application in which the user terminal 300 provides a customized smart lighting control service according to the user environment according to the general definition of open API. In order to, when the user terminal 300 approaches the common platform server 200, the common platform server 200 can provide a customized control service of the smart lighting 100 as requested by the user terminal 300. in order to allow

In addition, the smart lighting 100 is a controller capable of performing ON / OFF control and brightness control of various types of sensors for detecting the presence of an object, temperature, ambient brightness, etc. of existing lighting, and a server or terminal It refers to a series of devices including a communication unit that enables bidirectional wired or wireless communication.

In addition, the user terminal 300 may be a smart phone, PDA, notebook computer, tablet PC, wearable device, or other multifunctional communication/entertainment device. That is, the user terminal 300 is not limited to a specific device, is capable of user input, and is provided to perform bidirectional communication with the common platform server 200 in a wired or wireless manner through a gateway device, thereby providing input information. Any device capable of sending and receiving visual and audible notifications.

In addition, the common platform server 200 includes an event generation module 210, an event storage module 220, and event processing to automatically control a plurality of smart lights 100 installed in the user's environment according to the environment. module 230.

2, the event generating module 210 includes lighting state information about the state of the smart lighting 100, sensor information obtained from a sensor in the smart lighting 100, and an external public server ( 400), one or more events are created using at least one of the obtained weather information and then distributed.

The lighting state information may be pre-stored in the controller in each smart lighting 100 if a plurality of smart lighting 100 is installed in the user's environment, the rated current value for each smart lighting 100, It can include specifications such as rated voltage value, installation location, usage, and lifespan. That is, the event generating module 210 may generate an event for obtaining the spec for each smart light 100 .

The sensor information is, for example, whether a user's motion is detected through a recognition sensor, a brightness value around the sensor measured at regular intervals through an illuminance sensor, a temperature value around the corresponding sensor measured at regular intervals through a temperature sensor, or more. Furthermore, it may be an ON/OFF state of the smart lighting 100 measured at regular intervals through a specific sensor, a dimming level, a color temperature, color, saturation, and brightness of lighting. That is, the event generation module 210 may generate one event for acquiring the motion of the user detected by the recognition sensor, and one event for acquiring the brightness value around the sensor measured at regular intervals from the illuminance sensor. may be generated, and one event may be generated to obtain a temperature value around the sensor measured at regular intervals from the temperature sensor.

The weather information can be obtained from the external public server 400. In general, the external public server 400 provides the current weather, temperature, humidity, air volume, wind direction, etc. of a specific location to an unspecified number of people without limitation for public interest. because it is doing That is, the event generation module 210 may obtain weather information including the current weather, temperature, humidity, air volume, and wind direction according to the location where each smart lighting 100 is installed from the external public server 400 at regular intervals. there is. That is, the event generation module 210 may generate one event for obtaining the weather of a corresponding location obtained at regular intervals from the external public server 400 .

On the other hand, the event generation module 210 generates one event for acquiring battery information at regular intervals from the battery when at least one of the smart lighting 100 or the sensor in the smart lighting receives power through a battery can be distributed later. In addition, if a request for notification under a specific condition is received from the user terminal 300, when the corresponding condition occurs, the notification may be generated as an event and then distributed.

Next, the event storage module 220 stores at least one of the lighting state information, the sensor information, and the weather information, and stores the one or more events distributed from the event generating module 210 .

In other words, the event generation module 210 generates each event whenever at least one of the lighting state information, the sensor information, and the weather information is acquired. For example, in the case of lighting state information, when the smart lighting 100 is added, deleted, or replaced in the user's environment, the lighting state information may be additionally obtained, and the event storage module 220 generates an event accordingly. can be stored cumulatively after receiving it. In addition, since the sensor information is acquired at regular intervals through a specific sensor, the event storage module 220 may receive and accumulate events generated accordingly, and the weather information may be stored in the external public server ( 400), the event storage module 220 can accumulate and store the generated events after receiving them.

Accordingly, the event storage module 220 may store at least one of a state history in which the lighting state information is cumulatively stored, a sensor history in which the sensor information is cumulatively stored, and a weather history in which the weather information is cumulatively stored. Additionally, the control history of the control of the smart lighting 100 from the event processing module 230 may also be cumulatively stored.

Next, the event processing module 230 is a necessary event among the one or more events stored from the event storage module 220 to provide the control service of the smart lighting 100 requested from the user terminal 300 subscribe to only

In addition, the event processing module 230 may include a scenario generator 231 and an artificial intelligence model generator 232 to provide a customized smart lighting control service according to the environment in which the smart lighting 100 is controlled. there is.

First, the scenario generating unit 231 may set at least one of the control history, state history, sensor history, and weather history as big data, and generate a scenario for smart lighting control based on the big data. That is, the scenario generating unit 231 may generate a scenario that is an algorithm according to a specific criterion based on the event subscribed by the event processing module 230 as the big data.

For example, the scenario generating unit 231 converts the history of the illuminance sensor and the state history of the specific smart lighting 100 from the sensor history subscribed by the event processing module 230 to the specific smart lighting 100 as big data. You can set the standard for automatically adjusting the brightness of the screen. In addition, by creating a scenario including the corresponding criterion, the smart lighting 100 can automatically adjust the brightness according to the surrounding brightness.

In addition, the scenario generating unit 231 generates a scenario using the history of the illuminance sensor in the sensor history and the rainy weather in the weather history subscribed by the event processing module 230 as big data, using the scenario In case of rain, the brightness of the smart lighting 100 may be automatically adjusted. That is, if there is a history of continuously maintaining the brightness of the smart lighting 100 around 100 lx in rainy weather, the specific smart lighting currently having a brightness value of 200 lx may automatically lower the brightness value to 100 lx in rainy weather.

Next, the artificial intelligence model generation unit 232 may generate an artificial intelligence model for smart lighting control based on the big data. Most preferably, the control history, state history, sensor history, and weather history included in the big data are time-series data that should reflect the flow of time, so Long Short Term Memory (LSTM) structure Recurrent Neural Network (RNN) ) can be learned. In addition, when learning using the neural network, the control history, state history, sensor history, and weather history included in the big data are used as independent variables to determine the brightness, color, color temperature, and ON/OFF of the lighting desired by the user in situations where specific conditions are met. An artificial intelligence model may be created with the dependent variable as a dependent variable.

Meanwhile, a motion detection sensor may be further included in the smart lighting 100, and a motion detection history may be further added to the big data. In addition, the artificial intelligence model generator 232 further adds the motion detection history to train the artificial intelligence model, so that even though the scenario previously generated by the scenario generator 231 is subscribed through the event processing module 230 Even if the smart lighting 100 is controlled, in the absence of the user, control of the lighting is not required, so the operation of the previously created scenario according to the absence of the user can be controlled. That is, there is a significant effect on energy saving of the environment equipped with the smart lighting 100. In addition, the present invention may control the scenario generated by the scenario generator 231 through the artificial intelligence model generated by the artificial intelligence model generator 232 .

In addition, the artificial intelligence model generation unit 232 predicts a maintenance cycle according to the lifespan and battery capacity of the smart lighting 100 using the learned artificial intelligence model, or determines whether a sensor in the smart lighting 100 is out of order. can For example, if a maintenance period is imminent or the sensor is determined to be out of order, a notification event may be generated, the notification event may be distributed to the event storage module 220, and the corresponding notification may be transmitted to the user terminal 300.

In addition, the artificial intelligence model generation unit 232 may predict the power consumption of the smart lighting 100 for a certain period of time. If a plurality of smart lights 100 are provided in the user's environment, power consumption can be predicted for each group in which smart lights 100 having similarities, such as similar installation locations, for each smart light 100 are grouped. In addition, an artificial intelligence-based control command to prevent the predicted power usage from exceeding the target power usage within a set period through the user terminal 300 may be generated and then distributed to the event storage module 220 . In addition, a notification event including predicted power consumption, predicted power consumption ratio to target power consumption, etc. may be generated and distributed to the event storage module 220, and the corresponding notification may be transmitted to the user terminal 300. there is.

That is, the event processing module 230 of the present invention generates the scenario-based control command or the artificial intelligence model-based control command, and then distributes it so that it can be stored from the event storage module 220, At least one of the scenario-based control command and the artificial intelligence model-based control command may be subscribed to provide the smart lighting control service requested from the user terminal 300 . That is, the event processing module 230 has a remarkable effect of enabling customized control optimized for the environment based on big data obtained from the user environment. Here, the reason for distributing all control commands generated through the scenario generator 231 and the artificial intelligence model generator 232 and the control history of smart lighting controlled through the control commands to the event storage module 220 is to store both control commands and control history and use them all as the big data to provide a control service tailored to the user environment.

In addition, the event generation module 210 generates a manual control command according to input information directly input from the user terminal 300, distributes the command so that it can be stored from the event storage module 220, and processes the event. The module 230 may transmit a notification to the user terminal 300 when the smart lighting 100 is controlled according to the manual control command after subscribing to the manual control command. For example, the event generating module 210 generates a manual control command if the input information is selected for each item, such as 'A smart lighting from 3:00 to 5:00, ON state with 2-level brightness', and then generates the event storage module as a manual control command. (220) can be distributed to be stored. At that time, a notification may be provided to the user terminal 300 in a visual or auditory manner such as a message, e-mail, or notification sound.

Therefore, the conventional smart lighting control system has technical limitations in that the existing algorithm must be modified and added each time using a script-based programming language when the service to be provided needs to be changed according to the environment in which the smart lighting is used. However, according to the present invention, since smart lighting installed in various environments such as a residential environment, a commercial environment such as an office, an industrial environment such as a factory, and an outdoor environment can be individually controlled, there is a remarkable effect of improved scalability.

In addition, the present invention can realize control optimized for the environment in which smart lighting is installed without separate user input by accumulatively storing various information and using it to create scenarios and artificial intelligence models and apply them to smart lighting control services. There is a remarkable effect.

As described above, although the embodiments have been described with limited examples and drawings, those skilled in the art can make various modifications and variations from the above description. For example, the described techniques may be performed in an order different from the method described, and/or components of the described system, structure, device, circuit, etc. may be combined or combined in a different form than the method described, or other components may be used. Or even if it is replaced or substituted by equivalents, appropriate results can be achieved.

Therefore, other implementations, other embodiments, and equivalents of the claims are within the scope of the following claims.

100.. smart lighting
200.. Common Platform Server
210.. Event generation module
220.. Event storage module
230.. Event processing module
231.. Scenario generator
232.. Artificial intelligence model generation unit
300.. User terminal
400.. external public server

Claims (5)

An event generation module for generating and distributing one or more events using at least one of lighting state information about the state of smart lighting, sensor information obtained from a sensor in smart lighting, and weather information obtained from an external public server;
an event storage module configured to store at least one of the lighting state information, the sensor information, and the weather information, and to store the one or more events distributed from the event generating module; and
An event processing module for subscribing to only necessary events among the one or more events stored from the event storage module to provide the smart lighting control service requested from the user terminal; and
The lighting state information is a specification including a rated current value, a rated voltage value, an installation location, a purpose, and a lifespan of the smart lighting, and the event generating module is used when a plurality of smart lighting is installed in the user environment. After generating an event for obtaining the spec for each smart lighting, distributing it to the event storage module,
The sensor information is whether a user's motion is detected through a cognitive sensor in smart lighting, a brightness value around the sensor measured from an illuminance sensor in smart lighting, and a temperature value around the sensor measured from a temperature sensor in smart lighting. The event generation module generates one event for obtaining the motion of the user detected by the recognition sensor, distributes the event to the event storage module, and generates one event for acquiring the brightness value measured at regular intervals from the illuminance sensor. and then distributing it to the event storage module, generating one event for obtaining a temperature value measured at regular intervals from the temperature sensor, and distributing it to the event storage module;
The weather information includes the current weather, temperature, humidity, air volume, and wind direction according to the location where the smart lighting is installed, and the event generating module is one that obtains the current weather of the corresponding location obtained at regular intervals from the external public server. After generating an event, distributing it to the event storage module,
If at least one of the smart lighting or the sensor in the smart lighting is supplied with power through a battery, the event generation module generates an event for obtaining battery information from the battery at regular intervals and distributes it to the event storage module. ,
The event generation module generates a manual control command according to input information directly input from the user terminal as an event and then distributes it to the event storage module;
The event generation module, the event storage module and the event processing module,
It is included in the common platform server based on open API (Open Application Programming Interface),
The user terminal,
In order to create an application that provides a customized smart lighting control service according to the user environment, it is connected to the common platform server for bi-directional communication,
As requested by the user terminal, the event processing module subscribes to a necessary event among the one or more events stored in the event storage module, thereby enabling control of smart lighting in the user environment or sensor in smart lighting according to the subscribed event Event-based smart lighting common platform system , characterized in that . According to claim 1,
The event storage module,
Storing at least one of a control history in which the smart lighting is controlled from the event processing module, a state history in which the lighting state information is cumulatively stored, a sensor history in which the sensor information is cumulatively stored, and a weather history in which the weather information is cumulatively stored Event-based smart lighting common platform system, characterized in that. According to claim 2,
The event processing module,
a scenario generator configured to set at least one of the control history, state history, sensor history, and weather history as big data, and generate a scenario for smart lighting control based on the big data; and
An artificial intelligence model generating unit for generating an artificial intelligence model for smart lighting control based on the big data; event-based smart lighting common platform system comprising a. According to claim 3,
The event processing module,
After generating the scenario-based control command or the artificial intelligence model-based control command, distribute it so that it can be stored from the event storage module,
An event-based smart lighting common platform system, characterized in that for subscribing to at least one of the scenario-based control command and the artificial intelligence model-based control command so as to provide the smart lighting control service requested from the user terminal. According to claim 1,
The event processing module, after subscribing to the manual control command, event-based smart lighting common platform system, characterized in that for transmitting a notification to the user terminal when the smart lighting is controlled according to the manual control command.

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