KR102394461B1 - A SYSTEM AND METHOD FOR CALCULATING THE COMPREHENSIVE CIVIL COMPLAINT INDEX USING IoT TIME SERIES NOISE, VIBRATION DATA AND REGULATORY STANDARDS - Google Patents

Abstract

The present invention relates to a system and method for calculating the comprehensive civil complaint index using IoT time series noise, vibration data and regulatory standards. The method includes: calculating a difference value by comparing the measured value of a civil complaint factor generated during the construction of a site with a reference value, and converting it with index tables made based on the damage compensation reference data of the national environmental dispute resolution commission to calculate the risk index for each sensor, calculating a daily civil complaint index by applying the number of civil complaints per person in an area where the sensor is located, as a weight, to the risk index for each sensor; and classifying risk levels according to daily civil complaint index.

Description

{A SYSTEM AND METHOD FOR CALCULATING THE COMPREHENSIVE CIVIL COMPLAINT INDEX USING IoT TIME SERIES NOISE, VIBRATION DATA AND REGULATORY STANDARDS}

The present invention relates to a comprehensive civil complaint index calculation system and method using IoT time series noise and vibration data and regulatory standards. Comprehensive civil complaint index calculation system using IoT time series noise and vibration data and regulatory standards that calculates daily civil complaint index by weighting the number of civil noise and vibration complaints per person in the relevant area as a weight, and classifies risk according to daily civil complaint index; it's about how

In Korea, environmental damage and civil complaints caused by tunnel construction alone amount to hundreds of billions of dollars in damages. Recently, due to tunnel excavation, civil complaints caused by changes in the level of groundwater and blasting occur frequently, resulting in frequent complaints from residents near the site. there is.

Although noise and vibration regulation standards are provided as enforcement rules in the Noise and Vibration Control Act, an ordinance of the Ministry of Environment, there are sites where such regulations are not observed, and there is a problem that frequent complaints from residents near the site occur.

Therefore, as in the present invention, a technology related to the civil complaint index calculation system and method for calculating the civil complaint index through the civil complaint index using the regulatory standards was devised.

The present invention was derived to solve the above-mentioned problems, and more specifically, by measuring civil complaint factors that occur during construction on site, the number of civil noise and vibration civil complaints per person in the area where the sensor is located is weighted to the risk index for each sensor. It is related to a comprehensive civil complaint index calculation system and method using IoT time-series noise and vibration data and regulatory standards that calculate daily civil complaints index by assigning a

The civil complaint index calculation method for calculating the civil complaint index from the civil complaint factor data according to an embodiment of the present invention is performed by the civil complaint factor log data collection unit, and the civil complaint factor log data for collecting the civil complaint factor log data from a plurality of civil complaint factor sensors, respectively The collecting step, the civil complaint factor is characterized in that it means at least one of noise and vibration, is performed in the civil complaint factor standard data input unit, and the civil complaint factor standard data input step in which the civil complaint factor standard data is inputted, the civil complaint factor standard by section Standardization and difference value calculation step for each section, which is performed by the standardization and difference value calculation unit, and calculates the difference between the measured civil complaint factor log data and the civil complaint factor standard data for each sensor, date and time section, each sensor The civil complaint factor risk by sensor is performed by the civil complaint factor risk index calculation unit and calculates the civil complaint factor risk index for each sensor based on the value of the largest difference between the civil complaint factor reference data and the measured civil complaint factor log data for each time section The index calculation step, performed by the today's index calculation unit, and the today's index calculation step for calculating today's index based on the first and second today's index tables, is performed by the daily civil complaint factor index calculation unit, and the area where the civil complaint factor sensor is located The daily civil complaint factor index calculation step, which is calculated by collecting the ratio of the number of civil complaints per person of It may be characterized in that it includes.

In an embodiment, the collection of the civil complaints factor log data may include a standardization step of making the collected civil complaints factor log data identical to the civil complaints factor reference data and standards.

In one embodiment, the step of standardizing the civil complaint factor standard for each section and calculating the difference value calculates the civil complaint factor difference value with the civil complaint factor reference data based on the highest measured value among the civil complaint factor log data measured at the time of blasting, , the civil complaints factor log data measured at a time other than blasting may be characterized in that it comprises the step of calculating the difference value of the civil complaints factor with the civil complaints factor reference data based on an average measured value.

In one embodiment, the step of calculating the civil complaint factor risk index for each sensor is based on the largest difference between the civil complaint factor reference data and the measured civil complaint factor log data for each night 1, morning, daytime, evening and night 2 sections. Calculating the civil complaint factor risk index for each sensor; may be characterized in that it includes.

In one embodiment, in the first today's index, the range of the difference value between the civil complaint factor reference data and the civil complaint factor log data is set to be between 0 and 20, and if the difference value is '0' in succession, the daily depreciation rate is 20% If the difference between the previous day's value is 5 or less, the standard is set so that the depreciation is made to 0 within 4 days according to the size of the previous day's difference value. It is a reference table for calculating today's index, and in the second today's index, if the previous day's index is between 1 and 20 in the initial setting, and the today's index is 0, a 20% depreciation rate is applied to the previous day's index so that the index table is diagonal is configured to be symmetrical with respect to , and when the difference between the previous day's index and today's value is 20 or more, the today's index is fixed to 20, and the sum of the previous day's index and the today's difference value is calculated as the today's index to improve the persistence of civil complaint factors It may be characterized in that the intensity, which is a difference value, is reflected in the index.

In one embodiment, the step of calculating the daily civil complaint factor index comprises calculating a weight through the ratio of the number of civil complaints per person in the region where the civil complaint factor sensor is located, multiplying the civil complaint factor risk index by the sensor by a weight, and thus calculating the daily civil complaint factor It may be characterized in that it comprises the step of calculating the index.

In one embodiment, the step of calculating the daily comprehensive civil complaint index comprises calculating the weight of each daily civil complaint index based on past civil complaint statistics, and calculating the daily comprehensive civil complaint index by collecting the daily civil complaint factor index. It may be characterized by including.

A civil complaint factor log data collection unit that collects civil complaint factor log data from a plurality of complaint factor sensors, wherein the civil complaint factor means at least one of noise and vibration, and receives civil complaint factor standard data input A data input unit, the civil complaint factor standardization and difference value calculation unit for each section that calculates the difference between the measured civil complaint factor log data and the sensor, the civil complaint factor standard data for each date and time section, and the civil complaint factor standard data for each time section and the civil complaint factor risk index calculator for each sensor that calculates the civil complaint factor risk index for each sensor based on the value with the largest difference between the measured complaint factor log data, and calculates today's index based on the first and second today's index Today's index calculation unit, the daily civil complaint factor index calculation unit that calculates by collecting the ratio of the number of civil complaints per person in the area where the civil complaint factor sensor is located, and the civil complaint factor risk index for each sensor, and the daily general civil complaints by collecting the daily civil complaint factor index It may be characterized in that it includes a daily comprehensive civil complaint index calculation unit that calculates the index.

In an embodiment, the civil complaints factor log data collection unit may be characterized in that the collected civil complaints factor log data is standardized so that the civil complaints factor reference data and the standard are the same.

In one embodiment, the civil complaint factor standardization and difference value calculation unit for each section calculates the civil complaint factor difference value with the civil complaint factor reference data based on the highest measured value among the civil complaint factor log data measured at the time of blasting, The civil complaints factor log data measured at a time other than blasting may be characterized in that the difference between the civil complaints factor data and the civil complaints factor data is calculated based on an average measured value.

In one embodiment, the civil complaint factor risk index calculation unit for each sensor is based on the largest difference between the civil complaint factor reference data and the measured civil complaint factor log data for each night 1, morning, daytime, evening and night 2 sections. It may be characterized in that the civil complaint factor risk index for each sensor is calculated.

In one embodiment, in the first today's index, the range of the difference value between the civil complaint factor reference data and the civil complaint factor log data is set to be between 0 and 20, and if the difference value is '0' in succession, the daily depreciation rate is 20% If the difference between the previous day's value is 5 or less, the standard is set so that the depreciation is made to 0 within 4 days according to the size of the previous day's difference value. It is a reference table for calculating today's index, and in the second today's index, if the previous day's index is between 1 and 20 in the initial setting, and the today's index is 0, a 20% depreciation rate is applied to the previous day's index so that the index table is diagonal is configured to be symmetrical with respect to , and when the difference between the previous day's index and today's value is 20 or more, the today's index is fixed to 20, and the sum of the previous day's index and the today's difference value is calculated as the today's index to improve the persistence of civil complaint factors It may be characterized in that the intensity, which is a difference value, is reflected in the index.

In one embodiment, the daily civil complaint factor index calculation unit calculates a weight through the ratio of the number of civil complaints per person in the region where the civil complaint factor sensor is located, and multiplies the weight by the civil complaint factor risk index for each sensor to obtain the daily civil complaint factor index It may be characterized in that it is calculated.

In one embodiment, the daily comprehensive civil complaint index calculation unit calculates the weight of each of the daily civil complaints index based on the past civil complaint statistics, collects the daily civil complaint factor index, and calculates the daily comprehensive civil complaint index. there is.

The present invention measures civil complaint factors that occur during construction on site, and calculates the daily civil complaint index by assigning the number of civil noise and vibration civil complaints per person in the area where the sensor is located to the risk index for each sensor as a weight, and according to the daily civil complaint index By classifying the risk level, it is possible to grasp the risk level according to the daily index and to determine the level of civil complaints that can receive civil complaints from civil servants.

1 is a flowchart for explaining a method of calculating a comprehensive civil complaint index using IoT time series noise and vibration data and regulatory standards.
2 is a reference diagram for explaining the comprehensive civil complaint index calculation system 200 using IoT time series noise and vibration data and regulatory standards.
3 is a diagram for explaining the reference noise level table input from the civil complaint factor reference data input unit 220 .
4 is a diagram for explaining a noise log data table in which data collected from the civil complaint factor log data collection unit 210 is collected.
5 is a chart for explaining standardization of civil complaint factors for each section and standardization of data collected from the difference value calculation unit 230 .
6 is a diagram for explaining the risk index calculated from the standardization of civil complaint factors for each section and the difference value calculation of civil complaint factor log data and civil complaint factor reference data from the difference value calculation unit 230 .
7 is a diagram for explaining the first today's index table for calculating today's index according to the previous day's index depreciation when the difference between the maximum values in each section performed by the today's index calculating unit 240 is 0.
8 is a diagram for explaining calculation of today's index according to the difference between the previous day's index and today's index performed by the today's index calculating unit 240 .
9 is a chart for explaining the daily civil complaint factor index according to an embodiment of the present invention.
10 is a chart for explaining the calculation of adjustment values according to the number of civil complaints about living noise and vibration per person in the Seoul area and the risk index for each sensor.
11 is a diagram for explaining calculation of weights and calculation of daily risk index according to the calculation of the adjustment value of FIG. 10 .
12 is a reference diagram schematically illustrating the classification and classification of risk grades according to the daily civil complaint index.

Hereinafter, preferred examples are presented to help the understanding of the present invention. However, the following examples are only provided for easier understanding of the present invention, and the content of the present invention is not limited by the examples.

Conventionally, 1. BIM-based defect/complaint reception and processing information construction system that can reduce defects/complaints and improve the quality of buildings by predicting and controlling multiple defects/complaints, 2. Prediction of civil complaints using data-based spatial analysis Technology related to management, 3. Scored by analyzing the verbal strength of the contents of complaints, and various interest in complaints, improvement plans and prevention methods for complaints through prediction technology of whether it has been transferred to higher-level institutions, etc. and the technology for solving the problems in the prior art has been published and registered.

In relation to the fields related to these civil complaints, the present invention measures the civil complaint factors that occur during construction on site, and assigns the number of civil noise and vibration civil complaints per person in the area where the sensor is located to the risk index for each sensor as a weight, thereby increasing the daily civil complaint index. It has the characteristic of calculating the civil complaint index from the civil complaint factor data.

Here, the complaint factor may mean at least one of noise and vibration as a cause of receiving a complaint.

In addition, the present invention solves the inconvenience of civil complaints according to the intensity and duration of noise and vibration, which has not been solved in the prior art, using the index table below. An index table can be used to index the intensity and duration of noise, vibration, and vibration felt by civil complaints by reflecting regulatory standards. It may be included as a feature that reflects the ratio.

1 is a flowchart for explaining a method of calculating a comprehensive civil complaint index using IoT time series noise and vibration data and regulatory standards.

Referring to FIG. 1 , the civil complaint index calculation method for calculating the civil complaint index from the civil complaint factor data is performed by the civil complaint factor log data collection unit, and it is possible to collect the civil complaint factor log data from a plurality of complaint factor sensors, respectively (S101). Also, at the same time, the civil complaint factor standard data can be input based on the noise and vibration regulation standards of the construction site of the Noise and Vibration Management Act enforcement regulations (S102).

Here, according to the standard of living noise regulation, morning, evening (05:00 ~ 07:00, 18:00 ~ 22:00), daytime (07:00 ~ 18:00) and night (22:00 ~ 05) :00), and the target areas are: 1. Residential areas, green areas, settlement districts among management areas, residential development promotion districts, tourism, recreation development promotion districts, natural environment conservation areas, schools in other areas, General hospital, public library 2. It is divided into other areas. In the morning and evening (05:00 ~ 07:00, 18:00 ~ 22:00) 1. Residential areas, green areas, settlement districts among management areas, residential development promotion districts, tourism, recreation development promotion districts, natural environment conservation 60 dB or less is the standard for schools, general hospitals, and public libraries located in the local area or other areas, and 2. 65 dB or less for other areas. Also, during the week (07:00 ~ 18:00) 1. Among residential areas, green areas, and management areas, residential areas, residential development promotion districts, tourism, recreation development promotion districts, natural environment conservation areas, and schools located in other areas , general hospitals and public libraries are 65 dB or less 2. For other areas, 70 dB or less is the standard, and at night (22:00 ~ 05:00) 1. Residential areas, green areas, settlement districts, residential development Schools, general hospitals, public libraries in the promotion district, tourism, recreation development promotion district, natural environment conservation area, and other areas 2. 50 dB or less is the standard for all other areas. Also, as a remark, the noise regulation standard for construction sites is +10dB when the work that uses the machinery or equipment subject to prior notification of a specific construction work is less than 3 hours a day, and +5dB when more than 3 hours and less than 6 hours during the daytime. In the case of blasting noise, +10dB can be corrected to the regulatory standard (in the case of mining, the workplace regulatory standard) only during the daytime. In addition, in some areas of the regulatory standards for construction sites, -5dB is corrected to the regulatory standard only on holidays.

After the civil complaint factor log data collection (S101) and civil complaint factor standard data input step (S102), civil complaint factor standardization by section and civil complaint factor log data measured by the difference value calculation unit and civil complaint factor standard data by sensor, date and time section It is possible to calculate the difference with (S103).

Also, the today's index calculator may calculate today's index based on the first and second today's index tables (S104).

In addition, the civil complaint factor risk index calculation unit for each sensor may calculate the civil complaint factor risk index for each sensor based on the value of the largest difference between the civil complaint factor reference data and the measured civil complaint factor log data for each time section (S105).

In addition, the civil complaint factor daily index calculation unit may calculate the daily civil complaint factor index calculated by collecting the civil complaints factor risk index for each sensor and the ratio of the number of civil complaints per person in the region where the civil complaint factor sensor is located (S106).

The daily comprehensive civil complaint index calculation unit may calculate the daily comprehensive civil complaint index by collecting the daily civil complaint factor index (S107).

2 is a reference diagram for explaining the comprehensive civil complaint index calculation system 200 using IoT time series noise and vibration data and regulatory standards.

Referring to FIG. 2 , the civil complaint index calculation system 200 for calculating the civil complaint index from the civil complaint factor data includes a civil complaint factor log data collection unit 210 , a civil complaint factor standard data input unit 220 , standardization of the civil complaint factor by section and the difference value. The calculation unit 230, today's index calculation unit 240, each sensor civil complaint factor risk index calculation unit 250, daily civil complaint factor index calculation unit 260, and daily comprehensive civil complaint index calculation unit 270 to be composed can

Here, the civil complaint factor is the cause of receiving civil complaints during construction at the construction site, and may be the size of noise, vibration, and dust concentration, and may be the cause of all other civil complaints received from surrounding residents.

In more detail, the civil complaint factor log data collection unit 210 may collect civil complaint factor log data for each sensor from a plurality of civil complaint factor sensors.

The civil complaint factor reference data input unit 220 may input the civil complaint factor reference data based on the noise and vibration regulation standards of the construction site of the Enforcement Rule of the Noise and Vibration Management Act.

Here, according to the standard of living noise regulation, morning, evening (05:00 ~ 07:00, 18:00 ~ 22:00), daytime (07:00 ~ 18:00) and night (22:00 ~ 05) :00), and the target areas are: 1. Residential areas, green areas, settlement districts among management areas, residential development promotion districts, tourism, recreation development promotion districts, natural environment conservation areas, schools in other areas, General hospital, public library 2. It is divided into other areas. In the morning and evening (05:00 ~ 07:00, 18:00 ~ 22:00) 1. Residential areas, green areas, settlement districts among management areas, residential development promotion districts, tourism, recreation development promotion districts, natural environment conservation 60 dB or less is the standard for schools, general hospitals, and public libraries located in the local area or other areas, and 2. 65 dB or less for other areas. Also, during the week (07:00 ~ 18:00) 1. Among residential areas, green areas, and management areas, residential areas, residential development promotion districts, tourism, recreation development promotion districts, natural environment conservation areas, and schools located in other areas , general hospitals and public libraries are 65 dB or less 2. For other areas, 70 dB or less is the standard, and at night (22:00 ~ 05:00) 1. Residential areas, green areas, settlement districts, residential development Schools, general hospitals, public libraries in the promotion district, tourism, recreation development promotion district, natural environment conservation area, and other areas 2. 50 dB or less is the standard for all other areas. Also, as a remark, the noise regulation standard for construction sites is +10dB when the work that uses the machinery or equipment subject to prior notification of a specific construction work is less than 3 hours a day, and +5dB when more than 3 hours and less than 6 hours during the daytime. In the case of blasting noise, +10dB can be corrected to the regulatory standard (in the case of mining, the workplace regulatory standard) only during the daytime. In addition, in some areas of the regulatory standards for construction sites, -5dB is corrected to the regulatory standard only on holidays.

The civil complaint factor standardization and difference value calculation unit 230 for each section may standardize the collected civil complaint factor log data to have the same standard as the civil complaint factor standard data.

In addition, the civil complaint factor standardization and difference value calculation unit 230 for each section may calculate a difference between the measured civil complaint factor log data and the civil complaint factor reference data input for each section of the sensor, date and time. In addition, the civil complaint factor standardization and difference value calculation unit 230 for each section calculates the civil complaint factor difference value with the civil complaint factor standard data based on the highest measured value among the civil complaint factor log data measured at the time of blasting, and the time other than blasting The civil complaint factor log data measured in can calculate the difference between the civil complaint factor data and the civil complaint factor data based on the average of the measured values.

Here, it is the noise and vibration process test standard that is based on the highest measured value among the civil complaint factor log data measured at the time of blasting, and that the civil complaint factor log data measured outside of blasting time is based on the average of the measured values. In accordance with the regulatory standards specified in

Today's index calculator 240 may calculate today's index based on the first and second today's index tables.

Here, in the first today's index, the range of the difference value between the civil complaint factor standard data and the civil complaint factor log data is set to be between 0 and 20, and the value of the civil complaint factor log data for obtaining the difference value is the value with the largest difference value among the daily sections Based on this, the difference value with the civil complaint factor standard data is calculated. In addition, if the daily difference value is '0' in succession, a daily depreciation rate of 20% is applied. If the difference between the maximum values in the interval is 0, it is a reference table for calculating today's index according to the previous day's index depreciation. By applying a 20% depreciation rate to the index, the index table is configured to be symmetrical about the diagonal. If the difference between the previous day's index and today's index is 20 or more, today's index is fixed at 20, and the sum of the previous day's index and today's difference is By calculating the index, the persistence of civil complaint factors and the intensity, which is the difference value, can be reflected in the index.

Here, today's difference value means the value with the largest difference between the civil complaint factor standard data and the measured civil complaint factor log data for each time section.

The 1st and 2nd daily index can be prepared based on the reference data of the damage compensation amount of the Central Environmental Dispute Mediation Committee.

The civil complaint factor risk index calculation unit 250 for each sensor refers to the first and second today's index based on the value of the largest difference between the civil complaint factor reference data and the measured civil complaint factor log data for each time section, and the civil complaint factor by sensor The risk index can be calculated.

Here, each time section is divided into night 1, morning, daytime, evening and night 2. Night 1 is from 12:00 pm (24 o’clock) to 5:00 am, morning is from 5:00 am to 7:00 am, and daytime is 7 a.m. to 6 p.m. (18:00), Night 2 means 10 p.m. (22:00) to 12 p.m. (24:00).

The daily civil complaint factor index calculating unit 260 may calculate by collecting the civil complaints factor risk index for each sensor and the ratio of the number of complaints per person in the area where the civil complaint factor sensor is located.

In addition, the daily civil complaint factor index calculation unit 260 calculates a weight through the ratio of the number of civil complaints per person in the region where the civil complaint factor sensor is located, and multiplies the weight by the civil complaint factor risk index for each sensor to calculate the daily civil complaint factor index. .

The daily general civil complaint index calculation unit 270 may calculate the daily general civil complaint index by collecting the daily civil complaint factor indices.

In addition, the daily comprehensive civil complaint index calculation unit 270 may calculate the weight of each daily civil complaint index based on the past civil complaint statistics, and calculate the daily comprehensive civil complaint index by collecting the daily civil complaint factor indices.

In addition, it is possible to calculate the daily total civil complaint index by determining the ratio of each complaint factor. For example, when the civil complaint factor is noise and vibration, if the number of civil complaints due to noise is twice the number of civil complaints due to vibration, the daily civil complaint factor index due to noise is twice the daily civil complaint factor index due to vibration. By determining the weight, the daily total civil complaint index can be calculated.

3 is a diagram for explaining the reference noise level table input from the civil complaint factor reference data input unit 220 .

Referring to FIG. 3 , it can be confirmed that reference data is created and inputted based on the sensor operation date, time, and blasting status for each civil complaint sensor. For example, the standard noise level No.111113 belongs to the residential area, etc., and it was operated during the week, and it can be understood that the time period was operated during the daytime (07-18 o'clock), and it is a blasting situation, and the use of mechanical equipment is It can be confirmed that it worked for less than 3 hours. In addition, the reference noise level according to this is 85, and it is also possible to determine whether it is currently used or not. In addition, this data can be entered and stored as data by identifying the use start date, use end date, additional reason, end reason and change date.

4 is a diagram for explaining a noise log data table in which data collected from the civil complaint factor log data collection unit 210 is collected.

For example, machine No. 123456789 shown in the table of FIG. 4 is being performed in an area such as a residence at 21:10:20 on April 29, 2021, which enters the initial setting and can be automatically collected. In the chart of FIG. 4 , whether or not blasting and the working hours of using the weekly mechanical equipment can be input through the terminal in charge of construction. In addition, it is possible to measure the noise level, and machine No. 123456789 collects information that the noise level is 67 dB at 21:10:20 on April 29, 2021, and the civil complaint factor log data collection unit 210 We can collect information about it.

5 is a diagram for explaining the standardization of civil complaint factors for each section and standardization of data collected from the difference value calculation unit 230 .

Referring to FIG. 5 , the civil complaint factor standardization and difference value calculation unit 230 standardizes the noise measurement value of the machine No. 123456789 collected by the civil complaint factor log data collection unit 210 in the form of the civil complaint factor standard data. can

Based on the data, residential lights/others, by time section, date, weekdays/off-weekly, blasting status, working hours, standard noise level, actual measured noise value, adjusted measured noise value, difference value between reference value and actual measured value, reference value and adjusted value may be included, and the reference noise level is input based on the reference data received from the input unit 220 for the civil complaint factor reference data, and the actual measured noise value is collected from the civil complaint factor log data collection unit 210 The measured values are entered. In addition, the reference noise level may be set to the highest value among the measured values during blasting as the reference noise level, and at other times, the average value of the reference values may be set as the reference noise level.

Here, the civil complaint factor standardization and difference value calculation unit 230 for each section is based on the highest measured value among the civil complaint factor log data measured at the time of blasting, and the civil complaint factor log data measured at times other than blasting are measured. Based on the average of the values, it follows the regulatory standards specified in the Noise and Vibration Process Test Standards.

The adjusted noise level can be excluded or corrected by checking the measurement value of the civil complaint factor log data of the previous day and checking the abnormal complaint factor measurement value due to an error. In addition, the difference value between the reference value and the measured value may be calculated and inputted by the standardization of civil complaint factor for each section and the difference value calculation unit 230, and the difference value between the reference value and the adjusted value is the value adjusted from the daily general civil complaint index calculation unit After this is calculated, the input can be received.

6 is a diagram for explaining the risk index calculated from the difference value calculation of civil complaint factor log data and civil complaint factor reference data from the civil complaint factor standardization and difference value calculation unit 230 for each section.

Referring to FIG. 6 , the civil complaint factor standardization and difference value calculation unit 230 for each section can calculate the difference between the civil complaint factor reference data value and the civil complaint factor log data value, and the difference value is the most different value among the sections. Select to save. The risk index for each machine can be calculated based on the value with the largest difference among the sections.

7 is a diagram for explaining the first today's index table for calculating today's index according to the previous day's index depreciation when the difference between the maximum values in each section performed by the today's index calculating unit 240 is 0.

The first today's index of FIG. 7 can be prepared based on the reference data of the damage compensation amount of the Central Environmental Dispute Mediation Committee.

7 shows the first today's index for calculating the risk index for each machine as a reference table. For the value of the civil complaint factor log data to be obtained, the difference value with the civil complaint factor standard data is calculated based on the value with the largest difference value among the daily sections. In addition, if the daily difference value is '0' in succession, a daily depreciation rate of 20% is applied. If the difference between the maximum values in the interval is 0, today's index can be calculated according to the previous day's index depreciation.

Here, today's difference value means the value with the largest difference between the civil complaint factor standard data and the measured civil complaint factor log data for each time section.

8 is a diagram for explaining the second today's index table for calculating today's index according to the difference between the previous day's index and the today's index performed by the today's index calculating unit 240 .

The second today's index of FIG. 8 can be prepared based on the reference data of the damage compensation amount of the Central Environmental Dispute Mediation Committee.

Referring to FIG. 8, FIG. 8 is a second today's index for calculating today's civil complaint index through the difference between the previous day's index and today's. In the second today's index, if the previous day's index is between 1 and 20 and today's index is 0 in the initial setting, a 20% depreciation rate is applied to the previous day's index so that the index table is symmetrical about the diagonal, and the previous day's index and If today's difference value is 20 or more, today's index is fixed at 20, and the sum of the previous day's index and today's difference value is calculated as today's index, so that the persistence of civil complaint factors and the intensity, which is the difference value, can be reflected in the index.

Here, today's difference value means the value with the largest difference between the civil complaints factor standard data and the measured civil complaint factor log data for each time section of the day.

In addition, the index value was also set to increase under the assumption that when the overall value exceeding 0 continues, the inconvenience felt by civil complaints increases, and a reference table as shown in FIG. 8 was constructed.

9 is a chart for explaining the daily civil complaint factor index according to an embodiment of the present invention.

Referring to FIG. 9 , the noise daily risk index calculated based on FIGS. 7 and 8 may be calculated for each sensor, and the quantity of each sensor belonging to a level of risk may be checked and stored. For example, on April 29, 2021, the total risk index is 10, the caution ratio and the risk ratio are all 8, and the caution and risk sensors are all 8.

10 is a chart for explaining the calculation of the adjustment value according to the number of civil noise and vibration complaints per person in the Seoul area and the risk index for each sensor.

11 is a diagram for explaining calculation of weights and calculation of daily risk index according to the calculation of the adjustment value of FIG. 10 .

Referring to FIG. 10 , a table 1010 showing the number of civil noise and vibration complaints per person per person in the Seoul area and a table summarizing the risk index 1020 for each sensor (machine) on a specific date can be seen. The table (1010) showing the number of civil complaints about noise and vibration per person in Seoul area was calculated by multiplying by 10,000 for convenience of calculation. . The data of the number of civil noise and vibration complaints per person in the ward (k) and the risk index (1020) for each sensor on a specific date are integrated. k) is adjusted as it is, and when the risk index of the ward is 0, the number of complaints about living noise and vibration per person in the ward (k) is adjusted to 0 (adjustment k).

Also, referring to FIG. 11 , a weight for each sensor is calculated from the adjustment k. The weight may be set to 1 as 100%, and the weight may be determined by the weight of the adjustment k.

By multiplying the weight obtained from the adjustment k and each distinct risk index, the risk index for each distinct day is calculated, and the total daily civil complaint index can be calculated by adding them all together.

12 is a reference diagram schematically illustrating the classification and classification of risk grades according to the daily civil complaint index.

Referring to FIG. 12 , a reference table 1110 for classifying risk grades according to daily civil complaint index and a table 1120 showing the number of sensors (machines) for each grade and sensor (machine) ratio for each grade can be confirmed. The standard table 1110, which classifies the risk level according to the daily civil complaint index, is a standard table for classifying the risk level according to the daily civil complaint index. can be classified by grade. In addition, the table 1120 showing the ratio of sensors (machines) for each grade may indicate the ratio of the number of sensors (machines) for each grade and the number of sensors (machines) for each grade, and may include a graph indicating this.

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention within the scope without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that it can be done.

200: Civil complaint index calculation system that calculates civil complaint index from civil complaint factor data
210: civil complaint factor log data collection unit
220: data input unit based on civil complaint factors
230: standardization of civil complaint factors by section and difference value calculation unit
240: today's index calculator
250: civil complaint factor risk index calculation unit for each sensor
260: daily civil complaint factor index calculation unit
270: Daily Complaint Index Calculation Unit

Claims (14)

a civil complaint factor log data collection step performed by the civil complaint factor log data collection unit, each of which collects civil complaint factor log data from a plurality of complaint factor sensors;
The complainant is
Characterized in that it means at least any one of noise and vibration,
a civil complaint factor standard data input step performed by the civil complaint factor standard data input unit and receiving input of the civil complaint factor standard data;
Standardization of civil complaint factor for each section and difference value calculation unit, which is performed in the civil complaint factor standardization and difference value calculation unit step;
a today's index calculation step performed by the today's index calculator, calculating today's index based on the first and second today's index tables;
Civil complaints by sensor that is performed by the civil complaint factor risk index calculation unit for each sensor and calculates the civil complaint factor risk index for each sensor based on the value of the largest difference between the civil complaint factor reference data and the measured civil complaint factor log data for each time section factor risk index calculation step;
a daily civil complaint factor index calculation step performed by the daily civil complaint factor index calculation unit, and calculating the ratio of the number of complaints per person in the region where the civil complaint factor sensor is located and the civil complaint factor risk index for each sensor; and
It is performed by the daily comprehensive civil complaint index calculation unit, and calculating the daily comprehensive civil complaint index by collecting the daily civil complaint factor index;
The step of calculating the daily comprehensive civil complaint index is,
Calculating the weight of each of the daily civil affairs factor indices based on past civil complaint statistics, and calculating the daily comprehensive civil complaint index by collecting the daily civil complaint factor indices;
Comprehensive civil complaint index calculation method using IoT time series noise and vibration data and regulatory standards.
According to claim 1,
The step of standardizing civil complaint factors for each section and calculating the difference value,
A standardization step of making the collected civil complaints factor log data the same as the civil complaints factor standard data;
Comprehensive civil complaint index calculation method using IoT time series noise and vibration data and regulatory standards.
According to claim 1,
The step of standardizing civil complaint factors for each section and calculating the difference value,
The difference between the civil service factor and the civil complaint factor data is calculated based on the highest measured value among the civil complaint factor log data measured at the time of blasting, and the civil complaint factor log data measured outside of blasting time is based on the average measured value Calculating the difference value of the civil complaint factor with the civil complaint factor reference data; characterized in that it comprises,
Comprehensive civil complaint index calculation method using IoT time series noise and vibration data and regulatory standards.
According to claim 1,
The step of calculating the civil complaint factor risk index for each sensor is,
Calculating the civil complaint factor risk index for each sensor based on the value of the largest difference between the civil complaint factor reference data and the measured civil complaint factor log data for each night 1, morning, daytime, evening and night 2 sections; characterized in that
Comprehensive civil complaint index calculation method using IoT time series noise and vibration data and regulatory standards.
According to claim 1,
The first today's index is,
The range of the difference value between the civil complaint factor reference data and the civil complaint factor log data is set between 0 and 20,
If the difference value for today is '0' in succession, a daily depreciation rate of 20% is applied,
If the difference value of the previous day is 5 or less, the standard is set so that the depreciation is made to 0 within 4 days according to the magnitude of the difference value of the previous day. It is a standard table for
The second today's index is,
In the initial setting, the previous day's index is between 1 and 20,
When the today's index is 0, a 20% depreciation rate is applied to the previous day's index so that the index table is symmetrical about the diagonal,
When the difference between the previous day's index and today's value is 20 or more, the today's index is fixed to 20, and the sum of the previous day's index and the today's difference value is calculated as the today's index, and the persistence of the civil complaint factor and the strength that is the difference value are reflected in the index characterized in that
Comprehensive civil complaint index calculation method using IoT time series noise and vibration data and regulatory standards.
According to claim 1,
The step of calculating the daily civil complaint factor index,
calculating the daily civil complaint factor index by calculating a weight based on the ratio of the number of civil complaints per person in the area where the civil complaint factor sensor is located, and multiplying the civil complaint factor risk index for each sensor by the weight;
Comprehensive civil complaint index calculation method using IoT time series noise and vibration data and regulatory standards.
delete a civil affairs factor log data collection unit that collects civil complaint factor log data from a plurality of civil complaint factor sensors, respectively;
The complainant is
Characterized in that it means at least any one of noise and vibration,
a civil complaint factor standard data input unit receiving input of civil complaint factor standard data;
a standardization and difference calculation unit for civil complaint factors for each section that calculates the difference between the measured civil complaint factor log data and the civil complaint factor standard data for each sensor, date and time section;
a today's index calculator for calculating today's index based on the first and second today's index tables;
a civil complaint factor risk index calculation unit for each sensor that calculates a civil complaint factor risk index for each sensor based on a value having the largest difference between the civil complaint factor reference data and the measured civil complaint factor log data for each time interval;
a daily civil affairs factor index calculation unit calculating the ratio of the number of civil complaints per person in the region where the civil complaint factor sensor is located and the civil complaint factor risk index for each sensor; and
Including; a daily comprehensive civil complaint index calculation unit that calculates a daily comprehensive civil complaint index by collecting the daily civil complaint factor index;
The daily comprehensive civil complaint index calculation unit,
Characterized in calculating the weight of each of the daily civil affairs factor index based on the past civil complaint statistics, and calculating the daily comprehensive civil complaint index by collecting the daily civil complaint factor index,
Comprehensive civil complaint index calculation system using IoT time series noise and vibration data and regulatory standards.
9. The method of claim 8,
The standardization of civil complaint factors for each section and the difference value calculation unit,
Characterized in that the collected civil complaint factor log data is standardized to the same standard as the civil complaint factor reference data,
Comprehensive civil complaint index calculation system using IoT time series noise and vibration data and regulatory standards.
9. The method of claim 8,
The standardization of civil complaint factors for each section and the difference value calculation unit,
The civil complaint factor difference value is calculated by comparing the highest measured value among the civil complaint factor log data measured at the time of blasting with the civil complaint factor reference data, and the civil complaint factor log data measured at times other than blasting is the average measured value Comparing with the factor data, characterized in that calculating the difference value of the civil complaint factor,
Comprehensive civil complaint index calculation system using IoT time series noise and vibration data and regulatory standards.
9. The method of claim 8,
The civil complaint factor risk index calculation unit for each sensor,
Night 1, morning, daytime, evening and night 2, characterized in that calculating the civil complaint factor risk index for each sensor based on the largest difference between the civil complaint factor reference data and the measured civil complaint factor log data for each section,
Comprehensive civil complaint index calculation system using IoT time series noise and vibration data and regulatory standards.
9. The method of claim 8,
The first today's index is,
The range of the difference value between the civil complaint factor reference data and the civil complaint factor log data is set between 0 and 20,
If the difference value for today is '0' in succession, a daily depreciation rate of 20% is applied,
If the difference value of the previous day is 5 or less, the standard is set so that the depreciation is made to 0 within 4 days according to the magnitude of the difference value of the previous day. It is a standard table for
The second today's index is,
In the initial setting, the previous day's index is between 1 and 20,
When the today's index is 0, a 20% depreciation rate is applied to the previous day's index so that the index table is symmetrical about the diagonal,
When the difference between the previous day's index and today's value is 20 or more, the today's index is fixed to 20, and the sum of the previous day's index and the today's difference value is calculated as the today's index, and the persistence of the civil complaint factor and the strength that is the difference value are reflected in the index characterized in that
Comprehensive civil complaint index calculation system using IoT time series noise and vibration data and regulatory standards.
9. The method of claim 8,
The daily civil complaint factor index calculation unit,
Calculating a weight through the ratio of the number of civil complaints per person in the area where the civil complaint factor sensor is located, and multiplying the civil complaint factor risk index for each sensor by a weight to calculate the daily civil complaint factor index,
Comprehensive civil complaint index calculation system using IoT time series noise and vibration data and regulatory standards.
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