KR20040080614A - Measuring method and apparatus of smell - Google Patents

Abstract

PURPOSE: A method and apparatus for measuring a smell are provided, thereby specifically and accurately measuring a smell of an individual regardless of surrounding environment condition. CONSTITUTION: The method for measuring a smell comprises the steps of: detecting a distinctive smell of an individual with normal and optimal condition, treating the detected distinctive smell with pattern recognition in MCU(micro controller unit), and memorizing the smell pattern to extract the standard value; detecting an abnormal smell of an individual, and treating the detected abnormal smell with pattern recognition in MCU(micro controller unit) to calculate the detected value of the abnormal smell; and comparing the standard value with the detected value of the abnormal smell to output the comparison result, wherein the smell is collected from a mouth smell, an alcohol smell, a perfume smell and a food smell.

Description

High precision detection method of abnormal odor and abnormal odor measuring device using the same {Measuring method and apparatus of smell}

The present invention relates to a method and a measuring device for detecting abnormal odors, such as bad breath, alcohol consumption, ammonia, perfume, food smell, and the like. After measuring and recording the reference value, by comparing the odor (hereinafter measured value) generated in the actual odor measurement with the reference value to determine the degree of abnormal odor, it is possible to accurately detect the abnormal odor of the sensor even when the sensor aging. In addition, the present invention relates to a high-precision detection method of abnormal odor and an abnormal odor measuring device using the same to enable the odor measurement according to the characteristics of the user and to determine the degree of corruption or ripening of the food.

In general, odor detection methods include the use of human organs, analyzers (GC-MS), etc. to analyze molecules contained in odors or several semiconductor sensors with different characteristics for different gases. There is a method of using an electronic olfactory device to measure the smell of food, the smell of food or the degree of ripening, and the degree of smell of food and perfume.

Among them, the bad breath detection sensor that detects abnormal smells generated in the mouth detects the degree of alcohol gas contained in the breath, the degree of sulfur compounds causing bad breath, or the ammonia gas generated in the stomach, and drinking alcohol. And the degree of bad breath and gastrointestinal health (stomach ulcers, gastric cancer).

In detecting substances such as alcohol gas, sulfur compound or ammonia, which cause abnormal smell generated in the mouth with the odor sensor, a method of checking the strength of the sensor with the absolute value of the sensor is used. In addition, the smell of breath is different from one component, so various odors appear in different ways. It is true that the reliability of the device is significantly affected for all users or for a long time (time of aging of the sensor).

An example is the malfunction of breathalyzers using semiconductor sensors.

The breathalyzer using the semiconductor sensor is provided with an alcohol sensor including a heater, a platinum electrode and a sensing film inside the housing, and an induction part for inducing a person's breath to the alcohol sensor is installed from the outside of the housing to the inside. The display unit for indicating is provided on the outer periphery of the housing.

The breathalyzer configured as described above has a current in which the alcohol molecules in the subject's breath induced through the induction unit adhere to the surface of the sensing film and exchange electrons with the oxygen molecules already adsorbed on the surface of the semiconductor gas sensing film through a chemical decomposition reaction. Will flow.

Therefore, Nash gives a lot of electrons to the number of alcohol molecules in the breath, and the intensity of the current flowing through the sensing film is lowered, the resistance is increased, measuring the current intensity can measure the blood alcohol concentration.

However, if the alcohol sensor of the breathalyzer continues to be used, the reaction between the alcohol molecules and the adsorbed oxygen on the surface of the sensor changes due to the change in the physical properties of the gas sensing material on the surface of the sensor, which is inevitable due to the absolute value generated. Measurement error will occur.

In conclusion, even if the same alcohol gas is introduced, the measured value is different from the initial use of the product.

In addition, since the semiconductor gas sensing material generally reacts with various gases, the measurement error according to the user is also inevitable due to various odor molecules which differ according to the individual included in the breath.

The occurrence of the measurement error as described above is equally applicable to other semiconductor gas sensors (fragrance detection sensor, food smell detection sensor) in addition to the alcohol sensor for detecting abnormal odor generated in the mouth.

On the other hand, the conventional apparatus for detecting the abnormal odor generated in the mouth was a breathalyzer as described above, and a breath smell detector, but because all of them are driven separately, in order to simultaneously measure whether or not to drink alcohol or breath smell at the same time And had to be equipped with a breath tester individually, which puts an economic burden on the consumer.

An object of the present invention for solving the problems as described above is to measure the odor generated in their mouth or food in a normal state using a sensor for detecting odors, MCU (Micro Controller) Unit) pattern is processed using pattern recognition method, and the value (hereinafter referred to as reference value) is recorded in memory, and then the degree of abnormal smell is compared by comparing the reference value with the measured value of odor generated when measuring the actual degree of smell. The present invention provides a high-precision detection method of abnormal odor and abnormal abnormal odor measuring device using the same, which enables accurate odor measurement even when the sensor is deteriorated, and enables odor measurement according to individual characteristics.

1 is a block diagram showing an abnormal mouth odor measuring device using a high-precision detection method of abnormal mouth odor according to the present invention;

2 is a flow chart showing a high-precision detection method of abnormal mouth odor according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: sensor 20: key input unit

30 memory 40 display unit

50: MCU 100: measuring instrument

Looking at the features of the present invention for achieving the object as described above.

High-precision detection method of abnormal odor according to the present invention quantitatively detects the presence of substances (alcohol gas, sulfur compound or ammonia, etc.) that cause abnormal odors such as bad breath, drinking degree, perfume, food smell, etc. Measuring the smell in the comfortable or normal state by using a sensor that outputs a signal, patterned by the pattern recognition method in the MCU (Micro Controller Unit) and then the reference value extraction step to record in memory ; Odor measurement step of measuring odor using the sensor and measuring the odor using the sensor and patterning it using a pattern recognition method in the MCU to calculate a odor measurement value; Including the odor determination step of outputting the degree of abnormal odor through the display unit by comparing the measured value calculated in the odor measurement step with the reference value extracted in the reference value extraction step, it is possible to effectively adjust the meter according to the individual will be.

In addition, the abnormal odor measuring device using a high-precision detection method of abnormal smell is located inside the housing and quantitatively detects the presence of a substance causing the abnormal smell such as bad breath, drinking level, perfume, food smell, and a corresponding signal. A sensor for outputting; An induction part connecting the outside and the inside of the housing to induce the breath of the subject or the smell of the object to be measured by the sensor; A display unit installed at an outer circumference of the housing and configured to be identified by a user according to an input operation control signal; A memory installed inside the housing and storing various kinds of information; Various operations such as the mode for extracting the odor value in a comfortable state or normal state, that is, the reference value extraction mode (hereinafter referred to as reference value extraction mode) and the mode for measuring the actual abnormal odor level (hereinafter referred to as odor measurement mode) A key input unit for selecting a mode; And recording or reading information in a memory based on the signals output from the key input unit and the sensor, or outputting an operation control signal to the sensor and the display unit. When the key input unit is in the reference value extraction mode, the signal output from the sensor is pattern recognized. After processing the pattern using the method, the value (hereinafter referred to as reference value) is recorded in the memory, and when the key input unit is in the odor measuring mode, the signal output from the sensor is patterned using the pattern recognition method and then the value (hereinafter referred to as It is configured to include a MCU that compares the measured value) and the reference value recorded in the memory to determine the smell level and outputs a corresponding signal to the display unit.

On the other hand, in the above configuration, the memory is one that can be read and written, for example an EEPROM.

In addition, the display unit uses a liquid crystal display (LCD) or a light emitting diode (LED), and the like is not limited to the gist of the present invention as the selection can be easily carried out and changed by a relevant company.

In addition, the abnormal odor measuring device is further provided with a transmission unit for outputting a signal to other communication devices, such as PC, mobile phone, PDA, etc., MCU transmits the degree of abnormal smell to the number of the communication device input through the key input unit. .

In addition, the abnormal odor detector is attached to the housing so that it can be used as a cell phone strap or key ring.

Sensors constituting the abnormal odor detector may include an alcohol sensor, an ammonia sensor, a sulfur compound sensor, a perfume sensor, and a bad breath sensor. When the abnormal odor detector measures bad breath or alcohol consumption, In order to simultaneously measure the breath and alcohol level, an alcohol sensor, a sensor for detecting bad breath, ie, an ammonia sensor and a sulfur compound sensor, are all arranged or an array type that provides various information on different odors. One sensor can be placed.

An embodiment of the present invention configured as described above will be described with reference to the accompanying drawings. In the present embodiment, the present invention looks at an example of detecting a bad breath and a degree of drinking.

1 is a block diagram showing an abnormal mouth odor measuring device using a high-precision detection method of abnormal mouth odor according to the present invention.

Oral abnormality odor measuring device according to the present invention is one or more sensors for detecting the cause of the abnormal smell, such as alcohol, ammonia, sulfur compounds in the breath of the subject measured through the breathing induction unit (not shown) formed in the housing (not shown) 10, a key input unit 20 formed on the outer periphery of the housing so that a user can select various operation modes of the measuring device 100, a memory 30 installed inside the housing and recording various types of information, It is installed on the outer circumferential surface and displays the user to identify the degree of smell, such as abnormal mouth mouth, and the inside of the housing is installed inside the housing after the pattern processing method using a pattern recognition method pattern input It is composed of the MCU (50) for calculating the degree of smell and output to the display unit (40).

The sensor 10 may be used as long as it detects an abnormal smell that may occur in the mouth including an alcohol sensor, an ammonia sensor, and a sulfur compound sensor, and in the case of using a plurality of sensors, the abnormal smell may be detected. The sensing unit which reacts with the generated gas is arranged to be connected to the respiration induction unit so that the breather of the measurer can be evenly transmitted to all the sensing units.

On the other hand, the pattern recognition method is preferably a method using a neural network used for non-linear pattern processing, but may also use a fuzzy method or a statistical method, such pattern recognition method is a well-known element, so a detailed description thereof will be omitted. .

In addition, the key input unit 20 is a reference value extraction mode for driving the measuring device 100 to extract a comfortable breath smell value, that is, a reference value, to compare the breath smell, and compares the reference value to measure and display a degree of actual breath smell. It is composed of a plurality of keys so that the user can select various operating modes of the device, including the breath smell measurement mode for driving the meter 100 and the power on / off mode.

The memory 30 uses EEPROM capable of reading and writing.

The display unit 40 uses or uses an LCD or LED alternatively. In this example, whether the power is supplied or cut off is indicated by an LED, and the degree of breathing smell or the operation mode of the measuring instrument is displayed on the LCD.

When the signal corresponding to the reference value extraction mode is output from the key input unit 20, the MCU 50 drives the sensor 10 and then patterns the signal output from the sensor 10 using a pattern recognition method. After processing, the value (hereinafter referred to as reference value) is recorded in the memory 30, and when the signal corresponding to the breath smell measurement mode is output from the key input unit 20, the sensor 10 is driven and then the sensor 10 ) By measuring the signal output from the pattern using a pattern recognition method and comparing the measured value and the reference value recorded in the memory 30 to determine the degree of bad breath and outputs the corresponding signal to the display unit 40 .

On the other hand, the abnormal mouth odor measuring device 100 is further provided with a transmission unit (not shown) for outputting a signal to another communication device, such as a PC, a mobile phone, PDA, etc., the method for implementing this is carried out in various ways if the relevant company You can do it. For example, the measuring device may be configured to be connected to a cellular phone, and the MCU may transmit the measured breathing degree to the cellular phone, and the cellular phone may be configured to wirelessly transmit the transmitted breathing degree to another communication device.

In the drawing, reference numeral 70 denotes a power supply unit.

Figure 2 is a flow chart showing a high-precision detection method of the abnormal mouth odor according to the present invention, looks at an embodiment of the present invention using the mouth odor measurement device described in FIG.

First, the MCU determines whether there is a signal output from the key input unit (S101), and if there is a signal output, determines whether the reference value extraction mode (S102) or the breath smell measurement mode (S103).

When the signal output from the key input unit is a signal corresponding to the reference value extraction mode (S102), after driving the sensor (S104), the MCU encodes the degree of breath smell of the measurer output from the sensor (S105), and performs a pattern recognition method. Pattern recognition (S106) is performed to store the calculated reference value in the memory (S107).

The pattern recognition method used at this time is as described above.

In this step, it is assumed that the mouth state of the measurer is in a pleasant state, which is achieved by operating the device in a reference value extraction mode through the key input unit when the measurer is in a pleasant state.

When the signal output from the key input unit is in the breath smell measurement mode (S103), the MCU drives the sensor (S108), encodes the degree of breath smell of the measurer output from the sensor (S109), and then performs a pattern recognition method. The pattern recognition (S110) is used to calculate the measured value.

After measuring the breath of the measurer in this way, the reference value recorded in the memory is read in step S107 (S111), and the measured value measured in the step S110 is compared with the reference value (S112).

According to the comparison value, the MCU displays the degree of bad breath through the display unit (S113), which may distinguish only whether the bad breath is bad or whether the bad breath is stable because it is not different from the reference value. It can be divided into three stages to indicate how severe the bad breath is based on the reference value.

In addition, when a signal corresponding to a function mode other than the signal corresponding to the reference value measuring mode or the breath smell measuring mode is output from the key input unit, the MCU outputs a corresponding signal to various devices configuring the measuring instrument to perform the corresponding mode. (S114).

When the abnormal odor detector detects a perfume odor, the odor when the perfume is used as a reference value that the user feels the highest satisfaction is detected every time after spraying the perfume or at any time. This will help you determine how much perfume you have put on.

In addition, when the abnormal odor detector detects a food smell, the odor generated from the food is measured by measuring the odor generated from the food when the food is in a normal state or when the food is in an optimal state. Compare patterns to recognize maturity and rot.

According to the present invention configured as described above, in the measuring device for determining the hygiene / health of an individual, the normal state is first stored in a memory, and then the abnormal state is measured by a sensor to compare and analyze the value of the normal state to determine whether the abnormality and the degree. By the characteristics of each person, that is, the degree of smell can be displayed differently according to the taste and taste of various odors, there is an effect that it is possible to measure the odor for each individual even with a mass-produced device.

In addition, even if the molecules that cause bad breath to the sensor during use, the molecules of fragrance substances of perfume or the molecules of flavor substances of food are adsorbed or the ambient temperature conditions are changed, the reference value can be set in that state. There is an effect that enables accurate odor measurement.

Claims (7)

Determining the presence of substances that cause abnormal odors such as bad breath, drinking level, perfume spray, and food odor, and measuring the pleasant and normal odor patterns using sensors that output corresponding signals. A reference value extraction step of recording the measured odor level in a memory after pattern processing using a pattern recognition method in a micro controller unit (MCU); An odor measuring step of measuring an abnormal odor pattern using the sensor and calculating a value of the odor by patterning the pattern using a pattern recognition method in the MCU when the degree of abnormal odor is to be measured; An odor determination step of outputting the degree of abnormal odor through a display unit by comparing the measured value calculated in the odor measurement step with a reference value extracted in the reference value extraction step; High precision detection method of abnormal odor comprising a. The method of claim 1, wherein the smell is selected from a bad breath, an alcohol smell, a perfume smell, and a food smell. At least one sensor positioned inside the housing and quantitatively detecting the presence of a substance causing abnormal smell such as bad breath, drinking degree, perfume, food smell, and outputting a signal pattern corresponding thereto; An induction part connecting the outside and the inside of the housing so as to induce the smell of the subject or the subject under test to the sensor; A display unit installed at an outer circumference of the housing and configured to be identified by a user according to an input operation control signal; A memory installed inside the housing and storing various kinds of information; Various operations such as the mode for extracting the odor value in a comfortable state or normal state, that is, the reference value extraction mode (hereinafter referred to as reference value extraction mode) and the mode for measuring the actual abnormal odor level (hereinafter referred to as odor measurement mode) A key input section for selecting a mode; On the basis of the signals output from the key input unit and the sensor, information is written or read into a memory or an operation control signal is output to the sensor and the display unit. When the key input unit is in the reference value extraction mode, pattern recognition is performed on the signal pattern output from the sensor. After the pattern processing using the method, the value (hereinafter referred to as reference value) is recorded in the memory, and when the key input unit is in the odor measurement mode, the signal pattern output from the sensor is patterned using the pattern recognition method and then this value ( MCU to compare the reference value recorded in the memory and the reference value recorded in the memory to determine the smell level and output a signal corresponding to the display unit; Abnormal odor meter using a high-precision detection method of the abnormal odor comprising a. According to claim 3, The abnormal smell detector is further provided with a transmission unit for outputting a signal to another communication device, such as a PC, mobile phone, PDA, etc., MCU is a number of the communication device input through the key input unit of the abnormal smell Abnormal odor meter using a high-precision detection method of the abnormal odor, characterized in that for transmitting the degree. According to claim 3, The abnormal odor measuring device is an abnormal odor measuring device using a high-precision detection method of the abnormal odor characterized in that the ring is attached to the housing so that it can be used as a mobile phone string or key ring. The sensor of claim 3, wherein the sensor is one selected from an alcohol sensor, an ammonia sensor, a sulfur compound sensor, a perfume sensor, a food odor sensor, or an array type sensor responsive to the odor. Abnormal odor meter using high precision detection method of odor. 4. The method of claim 3, wherein when the abnormal odor measuring device is used to measure the odor generated in the mouth, the sensor is in the form of an array in which an alcohol sensor, an ammonia sensor, and a sulfur compound sensor are all used or respond to all of the odors. Abnormal odor meter using a high-precision detection method of abnormal odor, characterized in that the sensor.