KR20190092711A - Method for detecting failure of sensor of atmosphere environment - Google Patents

Abstract

The present invention relates to a method for detecting a failure of an atmosphere environment sensor. According to the present invention, provided is the method which determines that a failure has occurred in the atmosphere environment sensor when the total number of atmosphere environment measurement data is N or less by checking the total number of the atmosphere environment measurement data received sequentially from the atmosphere environment sensor when the measurement period of the atmosphere environment sensor is reached, and determines that the failure has occurred in the atmosphere environment sensor even if the number of atmosphere environment measurement data including an abnormal measurement value is greater than or equal to a predetermined number by checking the number of atmosphere environment measurement data including the abnormal measurement value among a plurality of atmosphere environment measurement data sequentially received from the atmosphere environment sensor when the total number of atmosphere environment measurement data is greater than N.

Description

METHOOD FOR DETECTING FAILURE OF SENSOR OF ATMOSPHERE ENVIRONMENT}

The present invention relates to a method for detecting a failure of an atmospheric environment sensor.

Recently, the public's interest in indoor and outdoor atmospheric environments is increasing due to frequent yellow dust occurrence, fine dust concentration, and new house syndrome.

For this reason, the atmospheric environment measurement system for measuring the indoor and outdoor atmospheric environment is also attracting public attention.

The air quality measurement system periodically measures various pollutants (eg, volatile organic compounds, carbon monoxide, carbon dioxide, fine dust, etc.) existing in outdoor or indoor spaces, and generates and measures air environment measurement data therefor. A variety of atmospheric environments from a number of atmospheric environment sensors (e.g., VOC (Volatile Organic Compound) sensors, carbon monoxide sensors, carbon dioxide sensors, dust sensors, etc.) and a plurality of atmospheric environment sensors that transmit to the atmospheric environment monitoring device. It may include an air environment monitoring device for periodically receiving the measurement data to guide the state of the air environment of the outdoor or indoor space.

Here, the atmospheric environment measuring system may be implemented as an integrated body in which a plurality of air environment sensors and an air environment monitoring device are installed in one body, or a plurality of air environment sensors and the air environment monitoring device may be implemented as separate types. .

In addition, when the measurement cycle of the plurality of air environment sensors arrives, each of the plurality of air environment sensors repeats the measurement and the transmission of the air environment of the outdoor or indoor space several times, and the air environment monitoring device each of the plurality of air environment sensors After receiving a plurality of air environment measurement data from the sequentially, and calculates the average value thereof, the average value may be used to guide the air environment state of the outdoor or indoor space.

The above air quality measurement system should accurately inform the user of the air quality of the outdoor or indoor space.

Here, if any one of the plurality of air environment sensors malfunctions, the reliability of the entire air environment management system may be degraded, so it is urgent to prepare a method for accurately determining whether each of the air environment sensors is faulty.

In this background, an object of the present invention is to check the total number of the plurality of air environment measurement data sequentially received from the air environment sensor when the measurement cycle of the air environment sensor arrives when the total number of air environment measurement data is N or less. If it is determined that a failure has occurred in the air environment sensor, and the total number of air environment measurement data exceeds N, the air environment measurement data including an abnormal measurement value among a plurality of air environment measurement data sequentially received from the air environment sensor An object of the present invention is to provide a method of determining that a failure has occurred in an atmospheric environment sensor even when the number of atmospheric environment measurement data including an abnormal measured value is greater than a predetermined number by checking the number of.

In order to achieve the above object, in one aspect, the present invention, in the method for detecting the failure of the atmospheric environment sensor in the atmospheric environment monitoring device, at the arrival of the measurement cycle of the atmospheric environment sensor, from any one of the atmospheric environment sensor A data receiving step of sequentially receiving the first air environment measurement data to Mth (M is an integer of 1 or more) air environment measurement data; A data storage step of storing the first air environment measurement data and the fourth M air environment measurement data; A data number checking step of confirming the total number of the first air environment measurement data to the Mth air environment measurement data; A first failure determination step of determining that a failure has occurred in any one of said atmospheric environment sensors when the total number is N or less (N is an integer of 2 or more); When the total number is more than N, abnormal measurement data for checking the number of abnormal atmospheric environment measurement data which is atmospheric environment measurement data including abnormal atmospheric environment measurement data among the first air environment measurement data to Mth air environment measurement data. Count checking step; And a second failure determining step of determining that a failure has occurred in any one of the atmospheric environment sensors when the number of the abnormal atmospheric environment measurement data is more than a predetermined number. do.

As described above, according to the present invention, since the air environment monitoring apparatus determines whether the air environment sensor has failed in various ways, the air environment monitoring device can accurately determine whether the air environment sensor has failed for each of the plurality of air environment sensors. .

1 is a view showing briefly the configuration of an atmospheric environment measurement system according to an embodiment of the present invention;
2 is a view showing briefly the configuration of the air environment monitoring apparatus according to an embodiment of the present invention,
3 is a flowchart illustrating a process of detecting a failure of an atmospheric environment sensor in an atmospheric environment monitoring apparatus according to an exemplary embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) can be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms. While some components may be directly connected or connected to other components, it should be understood that another component may be "connected", "coupled" or "connected" between each component.

1 is a view briefly showing the configuration of an atmospheric environment measurement system according to an embodiment of the present invention.

The air environment measurement system 100 according to the embodiment of the present invention includes a plurality of air environment sensors 110 and the air environment monitoring device 120.

The plurality of atmospheric environment sensors 110 may include a VOC (Volatile Organic Compound) sensor, a carbon monoxide sensor, a carbon dioxide sensor, and a fine dust sensor.

The plurality of atmospheric environment sensors 110 may be installed in an outdoor or indoor space of a predetermined area.

In addition, when the measurement cycle of the atmospheric environment sensor arrives, each of the plurality of atmospheric environment sensors 110 repeatedly measures the state of the atmospheric environment of a predetermined zone and generates a plurality of atmospheric environment measurement data for this, The air environment measurement data may be sequentially transmitted to the air environment monitoring apparatus 120 which will be described later.

Detailed description thereof is as follows.

Hereinafter, for convenience of description, the description will be made based on any one air environment sensor 112 included in the plurality of air environment sensors 110. Here, any one of the air environment sensor 112 may be any one of a VOC (Volatile Organic Compound) sensor, a carbon monoxide sensor, a carbon dioxide sensor, and a fine dust sensor.

When the measurement cycle of the atmospheric environment sensor arrives, any one of the atmospheric environment sensors 112 measures the atmospheric environment state of a predetermined zone, generates the atmospheric environment measurement data therefor, and then sends the atmospheric environment to the atmospheric environment monitoring device 120. The process of transmitting the measurement data may be repeated by a preset number of measurements.

In other words, any one of the air environment sensors 112 measures the air environment state of a predetermined area by a predetermined number of measurements, and sequentially transmits a plurality of air environment measurement data generated to the air environment monitoring device 120. Can be. Herein, the number of the plurality of atmospheric environment measurement data corresponds to the preset number of measurements.

For example, if the preset number of measurements is 10, the number of the plurality of air environment measurement data generated through 10 times of measurement of the air environment state of the predetermined area may be 10.

Here, the reason why the above-described process is repeatedly performed by any one of the air environment sensors 112 is to accurately measure the state of the air environment in a predetermined area.

Meanwhile, in an exemplary embodiment of the present invention, the atmospheric environment state of a predetermined zone measured by any one atmospheric environment sensor 112 may be any one of VOC concentration, carbon monoxide concentration, carbon dioxide concentration, and fine dust concentration of the predetermined zone.

In the exemplary embodiment of the present invention, when a failure occurs in any one of the atmospheric environment sensors 112, when one of the atmospheric environment sensors 112 sequentially transmits a plurality of atmospheric environment measurement data to the atmospheric environment monitoring apparatus 120. The number of atmospheric environment measurement data that has successfully transmitted to the atmospheric environment monitoring apparatus 120 may be less than or equal to a predetermined number.

In addition, even if the number of the atmospheric environment measurement data that successfully transmits to the atmospheric environment monitoring device 120 exceeds a predetermined number, the atmospheric environment measurement data including abnormal measurement values may be transmitted to the atmospheric environment monitoring device 120 by a predetermined number or more. .

As described above, a symptom that occurs when a failure of any one of the atmospheric environment sensors 112 may occur may also appear in other atmospheric environment sensors included in the plurality of atmospheric environment sensors 110.

In the exemplary embodiment of the present invention, the atmospheric environment monitoring apparatus 120 may determine whether a failure that may occur in any one atmospheric environment sensor 112 as described above.

In other words, the atmospheric environment monitoring apparatus 120 may determine whether a failure may occur in at least one of the plurality of atmospheric environment sensors 110.

Hereinafter, for convenience of description, only the process of determining whether the air environment monitoring device 120 has a fault with respect to any one air environment sensor 112 will be described. Of course, it can be applied to each of the environmental sensor (110).

When the measurement cycle of the air environment sensor arrives, the air environment monitoring device 120 sequentially sequentially the first air environment measurement data to the Mth (M is an integer of 1 or more) air environment measurement data from any one of the air environment sensors 112. Receive and save. Here, the first air environment measurement data to the M-th air environment measurement data may include a plurality of air environment measurement data generated by one of the air environment sensors 112 repeatedly measuring the air environment state of the predetermined area by a predetermined number of measurement times. The number may be equal to or smaller than the number of the atmospheric environment measurement data.

In other words, when any one of the air environment sensors 112 is in a normal state and all the air environment measurement data is transmitted to the air environment monitoring device 120, the first air environment measurement data to the Mth air environment measurement data The total number and the number of the air environment measurement data may be the same.

On the other hand, when a failure occurs in any one of the air environment sensor 112 and only a part of the air environment measurement data of the plurality of air environment measurement data is transmitted to the air environment monitoring device 120, the first air environment measurement data to The total number of the Mth air environment measurement data may be smaller than the number of the air environment measurement data.

The air environment monitoring apparatus 120 that receives and stores the first air environment measurement data to the Mth air environment measurement data confirms the total number of the first air environment measurement data to the Mth air environment measurement data, and checks the first air environment. It is checked whether the total number of the measurement data to the Mth atmospheric environment measurement data is equal to or less than N (N is an integer of 2 or more) which is a predetermined primary failure determination criterion. Here, N pieces of failure criteria may be equal to or less than the number of times of the measurement of the atmospheric environment sensor 112.

When the total number of the first air environment measurement data to the Mth air environment measurement data is N or less, the air environment monitoring apparatus 120 may primarily determine that a failure occurs in any one air environment sensor 112. . At this time, the atmospheric environment monitoring device 120 generates a failure occurrence guide message which is a message for guiding a failure of one of the atmospheric environment sensors 112 to the user of the atmospheric environment measurement system, and measures the failure occurrence guide message in the atmospheric environment. It can be transmitted to the mobile communication terminal of the system user.

In addition, the atmospheric environment monitoring apparatus 120 generates a failure occurrence guidance message for any one of the atmospheric environment sensor 112, and outputs a text for the failure occurrence guidance message on the screen or outputs the failure occurrence guidance message as an audible sound. You may.

On the other hand, when the primary failure status determination result for any one of the air environment sensor 112 is normal, that is, if the total number of the first air environment measurement data to the M-th air environment measurement data is more than N, the air environment The monitoring apparatus 120 may check the number of abnormal atmospheric environment measurement data, which is atmospheric environment measurement data including an abnormal atmospheric environment measurement value, from the first atmospheric environment measurement data to the Mth atmospheric environment measurement data.

Then, it is checked whether the number of abnormal atmospheric environment measurement data is equal to or greater than a predetermined number which is a predetermined second failure determination criterion.

When the number of abnormal atmospheric environment measurement data is equal to or greater than a predetermined number which is a preset second failure determination criterion, the atmospheric environment monitoring apparatus 120 may secondly determine that any one of the atmospheric environment sensors 120 has failed. . At this time, the atmospheric environment monitoring device 120 generates a failure occurrence guide message which is a message for guiding a failure of one of the atmospheric environment sensors 112 to the user of the atmospheric environment measurement system, and measures the failure occurrence guide message in the atmospheric environment. It can be transmitted to the mobile communication terminal of the system user.

In addition, the atmospheric environment monitoring apparatus 120 generates a failure occurrence guidance message for any one of the atmospheric environment sensor 112, and outputs a text for the failure occurrence guidance message on the screen or outputs the failure occurrence guidance message as an audible sound. You may.

Meanwhile, in the exemplary embodiment of the present invention, the air environment monitoring apparatus 120 may calculate an average value of the first air environment measurement value to the Mth air environment measurement value included in the first air environment measurement data to the Mth air environment measurement data. The at least one air environment measurement data including the air environment measurement value having a deviation from the average value from the first air environment measurement data to the Mth air environment measurement data having a predetermined reference value or more may be determined as the abnormal air environment measurement data.

Hereinafter, the configuration of the air environment monitoring apparatus 120 according to an embodiment of the present invention.

2 is a block diagram schematically showing the configuration of the air environment monitoring apparatus according to an embodiment of the present invention.

The air condition monitoring apparatus 120 according to the exemplary embodiment of the present invention may include a communication interface 210, a data storage 220, and a controller 230.

In addition, the air condition monitoring apparatus 120 may further include a fault occurrence guide unit (not shown) for outputting a fault occurrence guide message for a fault occurrence of the air environment sensor as one of a text and an audible sound. Here, the failure occurrence guide may include one or more of a display module and a speaker module.

The communication interface unit 210 receives air environment measurement data from each of the air environment sensors 110 through any one of short distance wireless communication with the air environment sensors 120, cable communication, and internet communication through an internet communication network. can do.

In other words, when the measurement cycle of the air environment sensor arrives, the first air environment measurement data to the Mth air environment measurement data may be sequentially received from any one air environment sensor 112.

In addition, the communication interface 210 may transmit a failure occurrence guide message, which is a message for guiding a failure of one of the atmospheric environment sensors 112 to the user of the environmental measurement system, to the mobile communication terminal of the user of the environmental measurement system. Here, the communication interface 210 may of course transmit the failure occurrence guide message to the mobile communication terminal of the user of the environmental measurement system through the mobile communication network.

The communication interface unit 210 may include one or more of a short range wireless communication module and a network interface card.

The data storage unit 220 temporarily stores data processed by the controller 230, which will be described later, or stores a program for performing a function of the air environment monitoring device 120, and operates the air environment monitoring device 120. Save the data needed for.

In an embodiment of the present invention, the data storage unit 220 stores the first air environment measurement data to the Mth air environment measurement data sequentially received by the communication interface unit 210.

The data storage unit 220 may be configured as an internal storage device or an external storage server of the atmospheric environment monitoring apparatus 120.

The controller 230 is a module that provides the overall functions of the atmospheric environment monitoring apparatus 120 and may be implemented as a main board including a central processing unit (CPU).

In an embodiment of the present invention, the control unit 230 determines whether a failure of any one of the air environment sensor 120 is as follows.

First, the controller 230 checks the total number of the first air environment measurement data to the Mth air environment measurement data received by the communication interface unit 210 from any one of the air environment sensors 112, and the total number is preset. Check whether N or less (N is an integer greater than or equal to 2) that is a primary failure determination criterion.

 When the total number of the first air environment measurement data to the Mth air environment measurement data is N or less, the controller 230 may primarily determine that a failure occurs in any one of the air environment sensors 112. In this case, the controller 230 generates a failure occurrence guide message, which is a message for guiding a failure of one of the atmospheric environment sensors 112 to the user of the atmospheric environment measurement system, and guides the failure through the communication interface 210. The message may be transmitted to the mobile communication terminal of the user of the atmospheric measurement system.

In addition, when the atmospheric environment monitoring apparatus 120 includes a failure occurrence guide (not shown), the controller 230 generates a failure occurrence guidance message for any one of the atmospheric environment sensors 112, and generates a failure guidance. Through the unit (not shown), a failure occurrence guide message for one of the atmospheric environment sensors 112 may be output.

When the primary failure determination result of any one atmospheric environment sensor 112 is normal, that is, when the total number of first atmospheric environment measurement data to Mth atmospheric environment measurement data is greater than N, the controller 230 Determining the number of abnormal atmospheric environment measurement data that is the atmospheric environment measurement data including the abnormal atmosphere environment measurement value from the first air environment measurement data to the M-th atmosphere environment measurement data.

Then, it is checked whether the number of abnormal atmospheric environment measurement data is equal to or greater than a predetermined number which is a predetermined second failure determination criterion.

When the number of abnormal atmospheric environment measurement data is equal to or greater than a predetermined number which is a preset second failure determination criterion, the controller 230 may second determine that a failure occurs in any one of the atmospheric environment sensors 120. In this case, the controller 230 generates a failure occurrence guide message, which is a message for guiding a failure of one of the atmospheric environment sensors 112 to the user of the atmospheric environment measurement system, and guides the failure through the communication interface 210. The message may be transmitted to the mobile communication terminal of the user of the atmospheric measurement system.

In addition, when the atmospheric environment monitoring apparatus 120 includes a failure occurrence guide (not shown), the controller 230 generates a failure occurrence guidance message for any one of the atmospheric environment sensors 112, and generates a failure guidance. Through the unit (not shown), a failure occurrence guide message for one of the atmospheric environment sensors 112 may be output.

Meanwhile, in the embodiment of the present invention, the controller 230 may calculate an average value of the first atmospheric environment measured value to the Mth atmospheric environment measured value included in the first atmospheric environment measured data to the Mth atmospheric environment measured data, Among the first air environment measurement data to the Mth air environment measurement data, each of the one or more air environment measurement data including the air environment measurement value having a deviation from the average value or more may be determined as the abnormal air environment measurement data.

As described above, in the exemplary embodiment of the present invention, since the air environment monitoring device 120 determines whether the air environment sensor has failed in various ways as described above, the air environment monitoring device 120 includes a plurality of air environment sensors 110. ) It is possible to accurately determine whether or not the failure for each.

Hereinafter, a process of detecting a failure of an air environment sensor in the air environment monitoring apparatus 120 according to an embodiment of the present invention will be described.

3 is a flowchart illustrating a process of detecting a failure of an atmospheric environment sensor in an atmospheric environment monitoring apparatus according to an exemplary embodiment of the present invention.

When the measurement cycle of the air environment sensor arrives, the air environment monitoring device 120 sequentially sequentially the first air environment measurement data to the Mth (M is an integer of 1 or more) air environment measurement data from any one of the air environment sensors 112. Received and stored (S310).

The air environment monitoring apparatus 120 that receives and stores the first air environment measurement data to the Mth air environment measurement data confirms the total number of the first air environment measurement data to the Mth air environment measurement data, and checks the first air environment. It is checked whether the total number of the measurement data to the Mth atmospheric environment measurement data is equal to or less than N (N is an integer of 2 or more) which is a predetermined primary failure determination criterion (S320 and S330).

When the total number of the first air environment measurement data to the Mth air environment measurement data is N or less, the air environment monitoring apparatus 120 may primarily determine that a failure occurs in any one air environment sensor 112. (S340).

At this time, the atmospheric environment monitoring device 120 generates a failure occurrence guide message which is a message for guiding a failure of one of the atmospheric environment sensors 112 to the user of the atmospheric environment measurement system, and measures the failure occurrence guide message in the atmospheric environment. It can be transmitted to the mobile communication terminal of the system user.

In addition, the atmospheric environment monitoring apparatus 120 generates a failure occurrence guidance message for any one of the atmospheric environment sensor 112, and outputs a text for the failure occurrence guidance message on the screen or outputs the failure occurrence guidance message as an audible sound. You may.

On the other hand, when the total number of the first air environment measurement data to the M-th air environment measurement data is greater than N in step S330, the air environment monitoring device 120 is the first air environment measurement data to the M-th air environment measurement data The number of abnormal air environment measurement data, which is air environment measurement data including abnormal air environment measurement values, may be checked (S350).

In operation 360, it is determined whether the number of abnormal atmospheric environment measurement data is equal to or greater than a predetermined number which is a predetermined second failure determination criterion.

When the number of abnormal atmospheric environment measurement data is equal to or greater than a predetermined number which is a preset second failure determination criterion, the atmospheric environment monitoring apparatus 120 may secondly determine that any one of the atmospheric environment sensors 120 has failed. (S370). At this time, the atmospheric environment monitoring device 120 generates a failure occurrence guide message which is a message for guiding a failure of one of the atmospheric environment sensors 112 to the user of the atmospheric environment measurement system, and measures the failure occurrence guide message in the atmospheric environment. It can be transmitted to the mobile communication terminal of the system user.

In addition, the atmospheric environment monitoring apparatus 120 generates a failure occurrence guidance message for any one of the atmospheric environment sensor 112, and outputs a text for the failure occurrence guidance message on the screen or outputs the failure occurrence guidance message as an audible sound. You may.

When the number of abnormal atmospheric environment measurement data is less than or equal to a predetermined number in step 360, the atmospheric environment monitoring apparatus 120 may determine that the state of any one of the atmospheric environment sensors 112 is normal (S380).

In operation S350, the air environment monitoring apparatus 120 may calculate an average value of the first air environment measurement value to the Mth air environment measurement value included in the first air environment measurement data to the Mth air environment measurement data. Each of the one or more air environment measurement data including the air environment measurement value having a deviation from the average value from the first air environment measurement data to the Mth air environment measurement data having a predetermined criterion or more may be determined as the abnormal air environment measurement data.

As described above, the process of detecting the failure of each of the plurality of air environment sensors 110 by the air environment monitoring device 110 may be implemented by a computer program, and the air environment monitoring device 120 may be combined with the computer program. Can be executed. In other words, the computer program is stored and installed in the air condition monitoring apparatus 120, so that the process is executed in the air environment measuring apparatus 110.

In the above description, all elements constituting the embodiments of the present invention are described as being combined or operating in combination, but the present invention is not necessarily limited to the embodiments. In other words, within the scope of the present invention, all of the components may be selectively operated in combination with one or more. The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Claims (6)

A method for detecting a failure of an atmospheric environment sensor in an atmospheric environment monitoring apparatus,
A data receiving step of sequentially receiving first atmospheric environment measurement data to M-th (M is an integer of 1 or more) atmospheric environment measurement data from any one of the atmospheric environment sensors when the measurement cycle of the atmospheric environment sensor arrives;
A data storage step of storing the first air environment measurement data and the fourth M air environment measurement data;
A data number checking step of confirming the total number of the first air environment measurement data to the Mth air environment measurement data;
A first failure determination step of determining that a failure has occurred in any one of said atmospheric environment sensors when the total number is N or less (N is an integer of 2 or more);
When the total number is more than N, abnormal measurement data for checking the number of abnormal atmospheric environment measurement data which is atmospheric environment measurement data including abnormal atmospheric environment measurement data among the first air environment measurement data to Mth air environment measurement data. Count checking step; And
Determining whether a failure has occurred in any one of the atmospheric environment sensors when the number of abnormal atmospheric environment measurement data is greater than or equal to a predetermined number;
Method for detecting a failure of the atmospheric environment sensor comprising a. The method of claim 1, wherein after the first failure determination step
Generating a failure occurrence guide message, which is a message for guiding a failure of the one atmospheric environment sensor to a user of an atmospheric environment measurement system, and transmitting the failure occurrence guide message to a user's mobile communication terminal
The method for detecting a failure of the atmospheric environment sensor further comprises. The method of claim 1, wherein after the second failure determination step
Generating a failure occurrence guide message, which is a message for guiding a failure of the one atmospheric environment sensor to a user of an atmospheric environment measurement system, and transmitting the failure occurrence guide message to a user's mobile communication terminal
The method for detecting a failure of the atmospheric environment sensor further comprises. According to claim 1, wherein in the step of confirming the number of abnormal measurement data
The air environment monitoring apparatus calculates an average value of the first air environment measurement value to the Mth air environment measurement value included in the first air environment measurement data to the Mth air environment measurement data, and the first air environment measurement data to Detecting a failure of the atmospheric environment sensor, characterized in that each of the one or more atmospheric environment measurement data including the atmospheric environment measurement value of which deviation from the average value is greater than a predetermined reference among the Mth atmospheric environment measurement data is determined as the abnormal atmospheric environment measurement data. How to. The method of claim 1, wherein after the first failure determination step
Generating a failure occurrence guidance message for the occurrence of a failure of the at least one atmospheric environment sensor and outputting the failure occurrence guidance message of the at least one atmospheric environment sensor as one of text and audible sound;
The method for detecting a failure of the atmospheric environment sensor further comprises. The method of claim 1, wherein after the second failure determination step
Generating a failure occurrence guidance message for the occurrence of a failure of one of the atmospheric environment sensors, and outputting the failure occurrence guidance message of any one of the atmospheric environment sensors as one of text and audible sound;
The method for detecting a failure of the atmospheric environment sensor further comprises.

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