KR102065335B1 - Voice recognition switch system - Google Patents

Abstract

The present invention relates to a voice recognition switch system which can turn on or off a light switch installed on the wall of a corresponding room by recognizing a distance between a portable voice recognition device and a light switch installed on the wall of each room when a user instructs the portable voice recognition device to turn on or off a light, and which can block gas from the kitchen and control the curtain and ventilation of each room and other home appliances. Through a portable device, the light of each room can be conveniently controlled by voice. The portable device can control only a light in a place, where the portable device is currently located, which is the shortest distance, by calculating the distance from the light of each room. The use of the light of each room in a house, electricity, and gas, and a ventilation device and home appliances can be conveniently controlled. In addition, the concentration of indoor fine dust can be reduced by measuring the concentration of the indoor fine dust and automatically operating the ventilation device.

Description

Voice recognition switch system

The present invention relates to a voice recognition switch system, and more particularly, when a command to turn on or turn off a light on a portable voice recognition device recognizes a distance between the portable voice recognition device and a light switch installed in the wall of each room, The present invention relates to a voice recognition switch system that can turn on or off a light switch installed in the home appliance, and can control gas shut-off in a kitchen, curtain control, ventilation control, and other home appliances in each room.

In general, speech recognition technology is a technique for mechanically extracting linguistic content, that is, phonology, from a speaker's information such as phonology, personality, emotionality, etc. included in a human speech. In this regard, it can be divided into word speech recognition and continuous speech recognition.

Continuous speech recognition includes forms such as continuous word speech recognition, speech understanding, and voice typewriter. The speech recognition system includes elements such as an acoustic analyzer, a phonological recognizer, a word recognizer, a language processor, and the like. The speech analysis unit converts the speech signal into a feature vector series of about 10 dimensions by performing a mathematical transformation called frequency analysis or linear prediction analysis every 20 to 30ms.

The phonological recognition unit divides the speech signal into parts having certain physical properties by using the general characteristics of speech (this operation is called segmentation), and recognizes vowels or consonants by using each section as a unit. Since it is difficult to represent the result of phonological recognition as a one-dimensional phonetic symbol string, it is given in the form of a phonological grid that leaves some possibilities.

The word recognition unit converts the phonological grid into a word grid by referring to a word dictionary describing the phonetic shapes of words. The language processor selects a word string that satisfies the syntactic constraint and is also semantically arranged from the words in the word grid. In word speech recognition, phonological recognition is generally not performed, and matching with a standard pattern is performed using the whole word as a unit. Since word speech represented as a vector series has a difference in the length of the series, a DP matching method having an ability to absorb it is used. In continuous word speech recognition, a unit of matching often takes a whole word, and a two-stage DP matching method, which is an extension of the DP matching method, is used.

On the other hand, current home network technology enables remote access and control and access to various contents by connecting the lighting, air conditioning, disaster prevention, methods, and communication functions of a house using a network inside and outside the home as one system. It means a system with all functions that provide two-way communication service environment.

With the proliferation of various wired and wireless communication technologies such as power line communication and wireless communication, the interest and demand for network-based home automation has exploded, and especially with the dissemination of information devices such as smart phones and personal mobile terminals, they have been used as terminals for home networks. It became available.

As a prior art related to a home network system using voice recognition as described above, in Korea Patent Publication No. 10-2014-0091324, switch to a single voice anytime, anywhere, without having to search the switch one by one in a dark room. The voice recognition switch system is configured to control the system is disclosed, and the home network system using the voice recognition that can conveniently control the home network system by voice in Korean Laid-Open Patent Publication No. 10-2018-0052876 And a method thereof, and a domestic switch terminal and a portable terminal connected to a home system device, respectively, in Korean Patent Publication No. 10-1835085, for remotely controlling the home switch terminal, and the home system device. An application for checking the status information of the home switch stage The system is connected to the mobile terminal through a system controller for controlling the home system device, an indoor environment state detection unit for detecting an indoor environment state, and a wireless router, and receives a remote control signal of the home system device from the mobile terminal. A short-range wireless communication unit and the home system, which are connected to a router bridge unit and the mobile terminal to receive and transmit the received data to the system control unit, interconnect the home switch terminals, activate the application, and receive sound source data from the mobile terminal. Smart recognition including a voice recognition unit for receiving a voice control command for controlling the device and transmitting to the system control unit and an output unit for outputting the control state data of the home system device, the indoor environment state data, and the sound source data, respectively A home network system is disclosed.

However, the above-described techniques are complicated and expensive, and thus the present invention has been completed by practically smartizing and portableizing the configuration.

The present invention has been configured to solve and complement the problems of the prior art, and in the past, the installation of the voice recognition function to operate the light switch of each room, the installation cost is high and the risk of failure due to the complex configuration was high. Therefore, in the present invention, in order to lower the installation cost and make the configuration smart, a voice recognition function is formed in the portable device, and the portable device controls not only the lighting of each room but also the control of various home appliances, electricity use, gas use, and ventilation device. It is an object of the present invention to provide a voice recognition switch system configured to be possible.

In addition, it is an object of the present invention to provide a voice recognition switch system configured to reduce the concentration of indoor fine dust by measuring the concentration of indoor fine dust and automatically operating the ventilation device according to the concentration of the fine dust.

As a solution of the present invention voice recognition switch system, the portable device 10 receives and analyzes a voice, determines a distance from each light switch 20, and recognizes a user's voice. And a portable device controller 13 for analyzing the received voice data and giving a command, and a portable device sensor 13 for measuring a distance between the portable device transceiver 12 communicating with the outside and the light switch 20 formed on the wall of each room. It consists of a part 14.

Illumination switch 20 is formed on the wall of each room to control the lighting, the illumination switch communication unit 23 for communicating with the outside and analyzes the data received through the light switch transceiver 23 and give the command Lighting switch relay switch 22 for turning on or off the lamp in response to a command from the switch control unit 21 and the light switch control unit 21 and a light switch standby power cut-off unit for blocking standby power to reduce standby power ( 24) and consists of an overload cutoff section 25 of the light switch made to cut off the overload and the short.

The wall pad 30 forms one to two units per generation, outputs data through a screen, and analyzes data input through the wall pad transceiver 32 and the wall pad transceiver 32 that communicate with the outside. Or a wall pad control unit 31 for outputting data or a wall pad screen unit 33 for outputting data or outputting a command issued by the wall pad control unit 31.

The portable device 10, the lighting switch 20, and the wall pad 30 constitute the system 1.

The portable device sensor unit 14 of the portable device 10 measures the distance between the light switch 20 formed on the wall of each room and the portable device 10, and the portable device control unit 13 measures the distance of the portable device 10. The data is analyzed and a command to turn on or off the lamp is sent to the light switch 20 located at the shortest distance. That is, to turn on or off the lights in the room with the portable device (10).

Control of lighting, electricity, gas, ventilation, and home appliances in each room was configured through a system (1) consisting of a portable device (10), a light switch (20), and a wall pad (30).

In addition, the portable device 10 may further comprise a fine dust measurement sensor for measuring the concentration of fine dust in the room, it is possible to measure the current and fine dust concentration in the room and output to the outside.

The current indoor dust concentration is transmitted to the wall pad 30 so that the user can recognize the data through the screen unit 33 of the wall pad 30 to output it.

By forming a fine dust measurement sensor in the portable device 10 as described above, it is possible to measure the indoor dust concentration in real time, and operate the ventilation device based on the measured fine dust concentration data, the indoor fine dust The concentration can be lowered.

By using the voice recognition switch system of the present invention, it is possible to conveniently control the lighting of each room by voice through the portable device, and the portable device calculates the distance from the light switch of each room to the location of the current portable device which is the shortest distance. Only the lighting can be controlled. In addition to the lighting of each room in the house, it can conveniently control the use of electricity, gas, ventilation and home appliances by voice. It is effective to lower the concentration of indoor dust by operating in.

1 is a conceptual diagram of a voice recognition switch system of the present invention.
2 is a block diagram of a voice recognition switch system of the present invention.
3 is a view showing an embodiment of the present invention voice recognition switch system.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, detailed descriptions of well-known functions or configurations are considered to unnecessarily obscure the subject matter of the present invention. The detailed description is omitted.

Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the specification.

1 is a conceptual diagram of a voice recognition switch system, Figure 2 is a configuration diagram of a voice recognition switch system, Figure 3 is a view showing an embodiment of a voice recognition switch system, it will be described in detail with reference to Figs. ,

The present invention is a voice recognition switch system configured to turn on or off a light switch by analyzing a voice signal, which is formed on the wall of each room and receives and analyzes a light switch 20 and a voice for controlling a light and each light switch ( And a system 1 including a portable device 10 for determining a distance to the distance 20 and a wall pad 30 for forming one to two units per generation and outputting data through a screen.

The portable device 10 is a portable device voice recognition unit 11 that recognizes and inputs a user's voice, a portable device controller 13 that analyzes the received voice data and issues a command, and a portable device transceiver unit communicating with the outside ( 12) and a portable device sensor unit 14 for measuring the distance between the light switch 20 formed on the wall of each room,

The illumination switch 20 is an illumination switch control unit 21 for communicating with the outside and the illumination switch control unit 21 and the illumination switch control unit (21) for analyzing and inputting data received through the illumination switch transceiver unit 23 Light switch relay switch 22 to turn on or off the lamp in response to the command of 21) and the light switch standby power cut-off unit 24 to cut off the standby power to reduce the standby power and made to block the overload and short Consists of the light switch overload cut-off part 25,

The wall pad 30 is a wall pad control unit 31 and a wall pad control unit 31 for analyzing or outputting data received through the wall pad transceiver 32 and the wall pad transceiver 32 communicating with the outside. It comprises a wall pad screen unit 33 for outputting a command or data output from the control unit 31.

The portable device sensor unit 14 measures the distance between the light switch 20 formed on the wall of each room and the portable device 10, and the portable device control unit 13 analyzes the measured data of the shortest distance. Send a command to turn on or off the lights to the light switch 20 located in the street.

The portable device 10 includes a portable device 10, a light switch 20, and a wall pad 30, and controls the portable device 10 to control lighting, electricity, gas, ventilation, and home appliances in each room. You can do it.

The portable device 10 includes switches # 1, switches # 2, switches # 3, switches # 4, ... formed on the walls of each room. , The switch #n can be all controlled by the user's voice, and the distance to the light switch 20 closest to where the portable device 10 is currently found by measuring the distance using the portable device sensor unit 14. In this way, if the light switch 20 located closest to the portable device 10 is the switch # 3, by operating the light switch relay switch 22 of the switch # 3 to turn on the lamp of the room where the switch # 3 is formed or Can be turned off.

In addition, the present inventors system 1 can receive the user's voice through the portable device 10 to control not only the lighting but also the current electricity use of the house. Through the wall pad screen 33 of the wall pad 30, the current electricity consumption can be checked, and how much electricity is supplied to which household appliances. Based on such data, the user can turn on or off the home appliances that are currently operating or not operating in the house.

Similar to electricity use control, gas use can be controlled. How much gas is currently supplied to the cookware or the heating device can be checked through the wall pad screen 33 of the wall pad 30, and based on such data, the user can control the use of the gas. Can be.

In addition, by configuring a fine dust measurement sensor for measuring the indoor fine dust concentration in the portable device 10, it can be output to the outside by measuring the current and the current fine dust concentration.

The additionally configured fine dust measurement sensor measures the fine dust concentration, which is an environmental value of the room, analyzes it, and outputs it to the outside through the wall pad screen 33 of the wall pad 30, which the user recognizes.

As described above, when the user wants to adjust the fine dust concentration, which is the environmental value of the room, based on the display value output to the wall pad screen 33, the indoor fine dust concentration may be lowered by operating the ventilation device.

In addition, the ventilation device may be connected to the system 1 of the present invention to automatically operate or stop the ventilation device according to the fine dust concentration to lower or maintain a normal dust concentration in the room.

Communication between the portable device 10 and the light switch 20 and the wall pad 30 constituting the system 1 is connected by wire, Wifi, NFC, ZigBee, Beacon, Bluetooth ( Wireless connection such as Bluetooth) is also available.

In the present invention, the above embodiment is only one example, and the present invention is not limited thereto. Anything that has substantially the same configuration and achieves the same effect as the technical idea described in the claims of the present invention is included in the technical scope of the present invention.

1. System
10. Portable Devices
11. Portable device voice recognition unit
12. Portable device transceiver
13. Portable device controller
14. Portable device sensor
20. Light switch
21. Lighting switch control unit
22. Lighting switch relay switch
23. Lighting switch transceiver
24. Lighting switch standby power cut-off
25. Light switch overload cutoff
30. Wall pad
31. Wall pad control
32. Wall pad transceiver
33. Wall pad screen

Claims (5)

In the voice recognition switch system configured to turn on or off the light switch by analyzing the voice signal,
Lighting switch 20 is formed on the wall of each room to control the lighting and the light switch control unit 23 for communicating with the outside and the light switch control unit for analyzing and commanding the data received through the light switch transceiver 23 21 and the light switch relay switch 22 for turning on or off the lamp in response to the command of the light switch control unit 21 and the light switch standby power cut-off unit 24 for blocking the standby power to reduce the standby power. Consists of a light switch overload cut-off portion 25 made to cut off the overload and short,
The portable device 10 receives and analyzes a voice, determines a distance from each light switch 20, analyzes the received voice data with the portable device voice recognition unit 11 and inputs a command of recognizing a user's voice. The portable device control unit 13 and the portable device transmitting and receiving unit 12 for communicating with the outside and the portable device sensor unit 14 for measuring the distance between the light switch 20 formed on the wall of each room,
The portable device 10 includes switches # 1, switches # 2, switches # 3, switches # 4, ... formed on the walls of each room. , The switch #n can be all controlled by the user's voice, and the distance to the light switch 20 closest to where the portable device 10 is currently found by measuring the distance using the portable device sensor unit 14. In this way, by operating the light switch relay switch 22 that is closest to the portable device 10 in this way to sequentially transmit the command to turn on or off the lights in the room, by receiving the user's voice input the lights and electricity of the house It is possible to control the use, and also the real-time measurement of the fine dust concentration in the room to the portable device 10 and transmits it to the wall pad 30 by the user through the screen unit 33 of the wall pad 30 It can be converted into data so that the indoor dust concentration can be lowered by operating the ventilation device based on the measured fine dust concentration data.
The wall pad 30 is a wall pad control unit 31 for communicating with the outside and a wall pad control unit 31 for analyzing or outputting data received through the wall pad transceiver 32 and the wall pad control unit. The user can check the current electricity consumption through the wall pad screen 33 for outputting a command issued from 31 or outputting data, and based on data such as how much electricity is supplied to the home appliance, It is configured to turn on or off the home appliances that operate or do not operate in the house, the system 1 is a communication between the portable device 10 and the light switch 20 and the wall pad 30 is wired or Wifi , NFC, ZigBee (ZigBee), Beacon (Beacon) or Bluetooth (Bluetooth), such as a wireless voice recognition switch system, characterized in that connected. delete delete delete delete

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