KR100726099B1 - Integrated service system for home-network using vcm and thereof method - Google Patents

Abstract

A home network integration service system using VCM(Virtual Control Monitoring) and a method thereof are provided to collect environmental information by disposing VCM units capable of obtaining the environmental information on the destination which needs control, thus a management server can integratedly control electronic devices on a home network. A controller obtains more than one piece of environmental information from temperature, humidity, and intensity of illumination, and transmits the obtained environmental information to a management server(300) through Zigbee communication. The management server generates a control signal for controlling electronic devices corresponding to the environmental information received from the controller.

Description

Integrated service system for home-network using VCM and its method

1 is a block diagram showing an embodiment of a VCM according to the present invention;

2 is a block diagram showing an embodiment of a home network management server according to the present invention;

3 is a diagram illustrating an embodiment of VCM utilization on a home network according to the present invention.

          <Explanation of symbols for the main parts of the drawings>

100, 301 to 308, 311: VCM 120: signal converter

130, 210: transceiver 140: infrared signal processor

150: information detection unit 200, 300: management server

The present invention relates to a home network integrated service system using VCM and a method thereof, and more particularly, to collect various environmental information on a home network and to control electronic devices according to the collected environmental information. The present invention relates to a home network integrated service system and a method thereof.

VCM (Virtual Control Monitoring) is a home network integrated management means for collecting various environmental information on the home network and transmitting control information of the electronic device using ZigBee wireless network technology based on IEEE 802.15.4.

On the other hand, the home network service system as used herein means control according to the state of all the electronic devices in the house.

Conventionally, different types of controllers are required for each electronic device to control various electronic devices on the home network, and separate methods are required for each electronic device in providing control and other services of the electronic devices. As such, it is difficult to provide or manage a control service according to a specific state of various electronic devices in the related art.

There is currently no single integrated management solution for integrated management of electronic devices in homes and apartment complexes.

Accordingly, an object of the present invention is to provide a home network integrated service system and method using a VCM that enables integrated control and management of electronic devices on a home network through a low power integrated management means.

The object of the present invention is a control unit for acquiring environmental information of any one or more of temperature, humidity and illuminance, and transmitting the obtained environmental information to the following management server using ZigBee communication; And a management server generating a control signal for controlling an electronic device corresponding to the environmental information received from the control unit.

Another object of the present invention is a first step of obtaining environmental information through any one or more of the temperature, humidity and illumination sensor; A second step of transmitting the obtained environmental information to a management server; Receiving a control signal for controlling an electronic device corresponding to the environmental information from the management server; Generating an infrared signal corresponding to the received control signal; And a fifth step of transmitting the infrared signal to the electronic device.

Still another object of the present invention is a first step of receiving a digital value corresponding to the environmental information of any one or more of temperature, humidity and illuminance from the control unit; Generating a control signal for controlling the electronic device corresponding to the received digital value; And a third step of transmitting the generated control signal to the control unit.

Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating an embodiment of a VCM according to the present invention. Referring to FIG. 1, the VCM 100 is a control unit which senses and processes environmental information from an electronic device and performs control of the electronic device according to a control signal from a management server. The information sensing unit is configured to acquire various environmental information. 150, a signal converter 120 for converting the environmental information obtained through the information detector 150 into a digital value, and a transceiver 130 for transmitting the converted digital value to the management server 200. Include.

The information detecting unit 150 includes sensors for sensing various environmental information such as a temperature sensor, a humidity sensor and an illuminance sensor. These sensors detect the water temperature in the bathroom, the humidity in the kitchen, and the illumination in the living room. The information detecting unit 150 is not limited to a temperature sensor, a humidity sensor, and an illuminance sensor, and various sensing sensors such as a pressure sensor and a touch sensor may be used.

The detected environmental information is converted into digital values through the signal converter 120 to process them as analog signals. The signal converter 120 is preferably an analog digital converter (ADC).

The converted digital value is a value including environmental information obtained through the information detecting unit 150 and is transmitted to the management server 200 through the ZigBee communication unit 130.

On the other hand, the management server 200 receives a digital value corresponding to the environmental information, generates an electronic device control signal for the processing result.

The VCM 100 receives the control signal through the ZigBee communication unit 130, and transmits the received control signal to the corresponding electronic device through the infrared signal processor 140 to control the electronic device.

Here, the infrared signal processing unit 140 includes a learning type infrared sensor, as well as the control infrared signals that are stored in the management server 200 in advance, and the user of the new infrared signal band due to the addition of a new electronic device. Through the input, the management server 200 enables the storage management of the infrared signal for control.

The VCM 100 obtains environmental information corresponding to various electronic devices on the home network and is disposed at positions where sensing and infrared communication are possible to control the electronic devices by using control signals received from the management server 200. Should be.

In addition, the VCM 100 may not only use the infrared signal processor 140 to control the electronic device, but also may be connected to the electronic device by wire to transmit control signals to the electronic device through serial communication.

VCM (100) requires a separate power supply to operate independently, and should minimize the power consumption. The MCU (Micro Cotrol Unit, 110) for controlling the VCM (100) can be used as an example, ATmega128L, by operating the sleep / active mode of the MCU (110) as a time scheduling method to manage the power consumption at low power. Can be. Therefore, long time independent operation of the VCM (100) is possible.

Meanwhile, the VCM 100 includes a universal asynchronous receiver transmitter (UART) and a serial peripheral interface (SPI) for extending functions.

2 is a block diagram showing an embodiment of a home network management server according to the present invention. Referring to FIG. 2, the management server 200 includes a control unit VCM 100 and a Zigbee communication unit 210 for Zigbee communication, a memory for data processing, various slots for function expansion, and various types for data communication. It includes ports and microcontrollers such as the Intel Xscale PXA255 to control them.

The management server 200 receives the environmental information from the VCM 100 and processes it, and generates a control signal for controlling the electronic device corresponding to the environmental information as a processing result.

The management server 200 presets and stores a threshold value for each environmental information, and compares the environmental information received from the VCM 100 and the threshold with each other when the value corresponding to the environmental information is greater than or equal to the threshold value. Generates a control signal to control.

Here, the threshold value is a value set by the user in advance, for example, in the case of the temperature of the bathroom water, the threshold value can be set to 40 ℃, by receiving the temperature value of the bathroom water obtained from the VCM (100) through ZigBee communication Compare with the preset threshold of 40 ° C. As a result of the comparison, when the environmental information value, which is the temperature of the bathroom water, is greater than or equal to the threshold value, a control signal for controlling the bathroom water supply is generated, and the generated control signal is transmitted to the VCM 100 of the bathroom through ZigBee communication, thereby The infrared signal processor 140 controls the water supply of the bathroom. At this time, the bathroom water supply device is preferably provided with a separate device for controlling the water supply by receiving an infrared signal.

In addition, the threshold value may be a value previously set and stored in the management server, and may be an environmental information threshold value according to a personal profile of a user who receives a home network service. The personal profile may be temperature, humidity, illuminance, etc., which the user prefers as information related to personal tendency for the user, and such personal profile may be flexible as information obtained from the user by the management server. That is, the intention is to provide appropriate services by informing the user's personality, which can be changed according to the situation such as the season or the flow of time, as a personal profile.

3 is a diagram illustrating an embodiment of VCM utilization on a home network according to the present invention. Independent VCM is placed in the position where control signal can be transmitted to electronic devices installed in control destination bathroom, kitchen, study room, living room, entrance hall and parking lot.

The deployed VCM senses environmental information such as temperature, humidity and illuminance of each control destination. The sensed environmental information is converted into a digital value by the VCM and transmitted to the management server 300, the management server 300 is a digital value for the received environmental information and for each of the environmental information previously set and stored by the user The control signal is generated by comparing the threshold values. The management server 300 transmits the regenerated control signal to the corresponding VCM, and the received VCM controls the electronic device of the control destination having the environmental information exceeding the threshold value through the infrared ray signal processing unit 140.

The control signal controls the water supply of the bathroom, the control of home appliances in the kitchen, the control for parking management, the lighting equipment of the study room, the main room, the living room, the entrance hall, the control of electronic devices such as air conditioners, humidifiers, TVs, fans, etc. It is a signal for.

Meanwhile, an embodiment of a home network integrated service system using a VCM will be described below.

When the user enters the parking lot of the apartment complex, the vehicle acquires the location information of the vehicle from the navigation linked with the vehicle VCM 307, and the vehicle VCM 307 transmits the acquired location information to the management server 300. In addition, the parking lot VCM 308 obtains empty parking space information and transmits it to the management server 300. The management server 300 receiving the vehicle location information and the parking space information transmits a control signal to the vehicle VCM 307 for guiding the vehicle to the empty parking space based on the information, and the vehicle VCM 307 controls the vehicle. Receiving a signal, the vehicle navigation helps the user to park the vehicle in an empty parking space. Here, during the communication between the parking lot VCM 308 and the management server 300 may be via the parking lot management server 312 or the apartment complex management server 311 in the intermediate stage.

After the parking guide management server 300 informs that the family member has arrived on the wall pad in the home, and transmits a control signal to the bathroom VCM (301) to control the water supply of the bathroom to receive the bath water.

Soon after, when the parking user enters the front door through the user authentication (environmental information) transmits a control signal to the front door VCM 306 to automatically open the front door.

When the user enters the bathroom, the bathroom VCM 301 transmits the water temperature information obtained through the temperature sensor to the management server 300 and the management server 300 transmits a control signal corresponding thereto to the bathtub VCM 301. The bath VCM 301 changes the lighting color of the bath according to the control signal received from the management server 300, and the user can estimate the temperature of the bath water through the bath lighting color.

On the other hand, the soup placed on the gas range of the kitchen begins to boil and generate humidity. The kitchen VCM 302 obtains humidity information generated by boiling the soup through a humidity sensor and transmits it to the management server 300. The management server 300 transmits a control signal corresponding thereto to the kitchen VCM 302, and the kitchen VCM 302 controls the electronic devices by using the control signal. That is, the control signal may be a control signal for operating the air curtain of the kitchen.

In addition, the kitchen VCM (302) detects the odor generated when cooking fish through the smell sensor and transmits the smell information to the management server 300, the management server 300 sends a control signal for the smell information to the kitchen VCM (302) send. The kitchen VCM 302 receives this control signal to operate the fan or adjust the brightness of the lighting when cooking.

When the user is located in the home and the cooking of the kitchen is made, the temperature of the living room becomes high, and the living room VCM 305 detects the temperature of the living room and transmits it to the management server 300, and the management server 300 controls the temperature of the living room. It is possible to adjust the living room temperature through the living room VCM (305).

The management server 300 may be connected to the Internet and set threshold values for electronic devices that the user wants to control through each VCM at a remote location. That is, even during the holiday season, the user can control the management server 300 using the Internet, thereby allowing the management server 300 to control electronic devices on the home network.

On the other hand, various environmental information sensed from different control destinations are transmitted to the management server 300 to solve the problem that each of the environmental information may collide or cause interference, each VCM or each sensor in the detected environmental information By including unique identification information, it is possible to increase the efficiency of mutual management.

Although the present invention has been shown and described with reference to the preferred embodiments as described above, it is not limited to the above embodiments and those skilled in the art without departing from the spirit of the present invention. Various modifications and variations are possible without departing from the spirit of the present invention and equivalents of the claims to be described below.

Therefore, the home network integrated service system and method using the VCM of the present invention can control the management server through the Internet has the effect of controlling the electronic devices on the home network remotely.

In addition, the present invention can collect the environmental information by arranging the VCM to obtain the environmental information in the desired destination, the management server has the effect of enabling the integrated control of the electronic devices on the home network.

Claims (12)

A controller for acquiring environmental information of at least one of temperature, humidity, and illuminance, and transmitting the obtained environmental information to a management server using ZigBee communication; And Management server for generating a control signal for controlling the electronic device corresponding to the environmental information received from the control unit Home network integrated service system using a VCM comprising a. The method of claim 1, The control unit, An infrared signal processor for generating an infrared signal corresponding to the control signal and transmitting the infrared signal to the electronic device; An information sensing unit for acquiring the environmental information which is analog information through at least one of a temperature, humidity, and illuminance sensor; A signal converter for receiving the environment information from the information sensor and converting the environmental information into a digital value; And Transmitting and receiving unit for transmitting the digital value to the management server through ZigBee communication, and receives the control signal from the management server Home network integrated service system using a VCM comprising a. The method of claim 1, The management server is a home network integrated service system using the VCM to store and manage the environmental information threshold value according to the personal profile of the home network service user for the environmental information. The method of claim 3, wherein And the management server compares the digital value and the threshold value received from the controller to generate the control signal when the digital value is greater than or equal to the threshold value. A first step of obtaining environmental information through any one or more of a temperature, humidity, and illumination sensor; A second step of transmitting the obtained environmental information to a management server; Receiving a control signal for controlling an electronic device corresponding to the environmental information from the management server; Generating an infrared signal corresponding to the received control signal; And A fifth step of transmitting the infrared signal to the electronic device; Home network integration service method using a VCM comprising a. The method of claim 5, The second step is a home network integrated service method using a VCM to convert the environmental information to a digital value and transmit. The method of claim 5, The management server home network integrated service method using a VCM for storing and managing the environmental information threshold value according to the personal profile of the home network service user for the environmental information. The method of claim 7, wherein And the management server compares the digital value received from the control unit with the threshold value and generates the control signal when the digital value is greater than or equal to the threshold value. The method of claim 5, The second step and the third step is using the ZigBee (ZigBee) communication home network integrated service method using VCM. A first step of receiving a digital value corresponding to environmental information of at least one of temperature, humidity, and illuminance from the control unit; Generating a control signal for controlling the electronic device corresponding to the received digital value; And A third step of transmitting the generated control signal to the controller; Home network integration service method using a VCM comprising a. The method of claim 10, The control signal is a home network integrated service method using a VCM is generated when the digital value is greater than the threshold by comparing the environmental information threshold value and the digital value according to the personal profile of the home network service user stored and managed. The method of claim 10, The first step and the third step is using the ZigBee (ZigBee) communication home network integrated service method using VCM.

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