CN110941606B - Calculation method for calculating reasonable water quantity aiming at water resource monitoring data - Google Patents
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Abstract
The invention discloses a calculation method for calculating reasonable water quantity aiming at water resource monitoring data, which comprises the following steps of 1) uploading data by metering equipment as original data; 2) The data of the processed original data are compared to obtain result data; 3) And calculating and updating the result data to obtain the display data. The invention has the beneficial effects that the water quantity data calculation of the provincial ten-thousand-level water resource monitoring equipment is realized, the cleaning and separating work of tens of thousands of data is solved, tens of thousands of equipment are prevented from falling asleep, the monitoring and collecting functions of the tens of thousands of equipment are fully exerted, and the management level of water resource monitoring is greatly improved.
Description
Technical Field
The invention relates to water resource monitoring, in particular to a calculation method for calculating reasonable water quantity aiming at water resource monitoring data.
Background
The water resource monitoring equipment is electronic equipment and is arranged at a water intake, and is quite common in the case of losing and abnormality due to various complex conditions such as embedded program loopholes, weak moving signals, electronic component ageing, temperature, humidity, water passing (heavy rain), solar panels shielded by grass blades, battery life, artificial damage, theft, arrearage, meter replacement and the like.
If the monitoring data is not reasonably calculated, the abnormal values will destroy the result of the monitoring data once, because an abnormal value may be tens of thousands times the normal water quantity. The current water quantity calculating method is to subtract the value recorded in the last strip based on the last value of the data, then obtain a difference value, and remove the negative number to obtain the water quantity. This approach does not substantially remove outliers. The prior art is difficult to consider when solving the abnormal data and the time requirements.
For the problems in the related art, no effective solution has been proposed at present.
Disclosure of Invention
Aiming at the technical problems in the related art, the invention provides a calculation method for calculating reasonable water quantity according to water resource monitoring data, which can solve the problems.
In order to achieve the technical purpose, the technical scheme of the invention is realized as follows:
a calculation method for calculating a reasonable amount of water for water resource monitoring data, for calculating a reasonable amount of water, the calculation method comprising the steps of:
1) Setting calculation initial calculation time, and putting the data received by the center into an original data area through simple arrangement, and checking the technical duplicate; the data is divided into three areas, namely an original data area, a result data area and a display data area;
2) Inserting newly-added data of the preliminary processing data area into an hour table of the result data area, checking the technology again, arranging the hour table data of the result data area, and clearing invalid data, wherein the technology checks the technology again;
3) Calculating the local maximum value and the local minimum value of hour table data of the result data area, deleting the local maximum value and the local minimum value, marking abnormal constants of the original data area as a maximum value and a minimum value according to the calculation result, and marking data with the table bottom of 0 or negative number of the original data area as an abnormal constant as an invalid value;
4) Recalculating the hour table data of the finished result data area, calculating the water quantity of each record, and rechecking the data in the hour table data of the result data area;
5) Summarizing the calculated hour table data of the result data area into daily data of the result data area, adding the daily data into a daily data table of the result data area, and updating the stock into the daily data table of the result data area to check the technical weight;
6) Collecting the calculated daily data of the result data area into month data of the result data area, adding the month data of the result data area into a month data table of the result data area, updating the stock into the month data table of the result data area, and calculating the annual accumulated water quantity of the month data according to the month data of the result data area;
7) And inserting the calculated daily data of the result data area into the daily of the data display area. The increment is put into a daily data table of the display data area, the stock is updated into the daily data table of the display data area, and the result decimal water quantity data and the strip number of the large data quantity are converted into column data and stored into the daily data table of the display data area;
8) And establishing a receiving equipment list, and establishing an hour maximum water consumption rule for maintaining equipment.
Further, setting the initial calculation time to be 8 points in each month from the last month 1, and setting the calculation time after 8 points to be more than the month 1; the default, which is not explicitly noted by the algorithm of each step, is calculated from the initial calculation time.
Further, the technology check is repeated, the original data area is ensured to have no repeated data, and the authenticity and the integrity of the original received data are reserved.
Further, when the newly added data is inserted into the hour table of the result data area, the last month data is not received any more, and meanwhile, the table bottom is 0 or negative number is not received any more, and the sending time exceeds the current time by 1 hour.
Further, the newly added data is inserted into an hour table of a result data area, and a breakpoint continuous transmission technology is adopted.
Further, when the data in the hour table data of the result data area is rechecked, the first record of the number on the equipment is updated to 0 uniformly because the water quantity cannot be calculated; uniformly updating the water quantity with the water quantity data smaller than 0 to 0; according to the hour maximum water consumption rule of the equipment, the water consumption exceeding the rule is uniformly updated to 0.
Further, marking an invalid value of the original data area according to abnormal calculation of hour table data of the result data area; if the data in the original data area is not in the result data area, marking the data as an invalid value in the original data area; the data of the original data area which is not participated in calculation in the last month is marked as abnormal 'late value'.
Further, the calculated hour table data of the result data area is inserted into the hour table of the data display area, the data which is removed from the hour table data of the result data area in the hour table of the data display area is deleted, and the water quantity in the hour table of the data display area is updated according to the calculated hour table data of the result data area.
Further, the hour maximum water consumption rule of maintenance equipment is three times of the average water consumption, and the average water consumption is less than 1 ten thousand and calculated by 1 ten thousand.
The invention has the beneficial effects that: the water quantity data calculation of the provincial ten-thousand-level water resource monitoring equipment is realized, the cleaning and separating work of tens of thousands of data is solved, tens of thousands of equipment are not asleep any more, the monitoring and collecting functions of the tens of thousands of equipment are fully exerted, and the management level of water resource monitoring is greatly improved.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
Fig. 1 is a flowchart of a method for calculating a reasonable water amount for water resource monitoring data according to the present invention.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which are derived by a person skilled in the art based on the embodiments of the invention, fall within the scope of protection of the invention.
As shown in fig. 1, a method for calculating a reasonable water amount according to an embodiment of the present invention is used for calculating a reasonable water amount, and the steps of the calculating method include:
1) The metering equipment uploads data as original data;
2) The data of the processed original data are compared to obtain result data;
3) And calculating and updating the result data to obtain the display data.
In a specific embodiment of the present invention, the initial calculation time is set to be 8 points in each month, the calculation time is from 1 point in the last month, and the calculation time after 8 points is more than 1 point in the present month; the default, which is not explicitly noted by the algorithm of each step, is calculated from the initial calculation time.
In one embodiment of the present invention, when new data is inserted into the hour table in the achievement data area, the last month data is not received any more, and the table bottom is 0 or negative number is not received any more, and the sending time exceeds the current time by 1 hour.
In a specific embodiment of the present invention, when checking the data in the hour table data in the achievement data area, the first record of the number on the device is updated uniformly to 0 because the water quantity cannot be calculated; uniformly updating the water quantity with the water quantity data smaller than 0 to 0; according to the hour maximum water consumption rule of the equipment, the water consumption exceeding the rule is uniformly updated to 0.
In one embodiment of the present invention, the "invalid value" of the original data area is marked according to abnormal calculation of the hour table data of the result data area; if the data in the original data area is not in the result data area, marking the data as an invalid value in the original data area; the data of the original data area which is not participated in calculation in the last month is marked as abnormal 'late value'.
In one embodiment of the invention, the calculated hour table data of the achievement data area is inserted into the hour table of the data display area, the data which is already removed in the hour table data of the achievement data area in the hour table of the data display area is deleted, and the water quantity in the hour table of the data display area is updated according to the calculated hour table data of the achievement data area.
In order to facilitate understanding of the above technical solutions of the present invention, the following describes the above technical solutions of the present invention in detail by a specific usage manner.
When the method is specifically used, the method for calculating the reasonable water quantity according to the water resource monitoring data is used for calculating the reasonable water quantity, and comprises the following steps:
1) Setting calculation initial calculation time, and putting the data received by the center into an original data area through simple arrangement, and checking the technical duplicate; the data is divided into three areas, namely an original data area, a result data area and a display data area;
2) Inserting newly-added data of the preliminary processing data area into an hour table of the result data area, checking the technology again, arranging the hour table data of the result data area, and clearing invalid data, wherein the technology checks the technology again;
3) Calculating the local maximum value and the local minimum value of hour table data of the result data area, deleting the local maximum value and the local minimum value, marking abnormal constants of the original data area as a maximum value and a minimum value according to the calculation result, and marking data with the table bottom of 0 or negative number of the original data area as an abnormal constant as an invalid value;
4) Recalculating the hour table data of the finished result data area, calculating the water quantity of each record, and rechecking the data in the hour table data of the result data area;
5) Summarizing the calculated hour table data of the result data area into daily data of the result data area, adding the daily data into a daily data table of the result data area, and updating the stock into the daily data table of the result data area to check the technical weight;
6) Collecting the calculated daily data of the result data area into month data of the result data area, adding the month data of the result data area into a month data table of the result data area, updating the stock into the month data table of the result data area, and calculating the annual accumulated water quantity of the month data according to the month data of the result data area;
7) And inserting the calculated daily data of the result data area into the daily of the data display area. The increment is put into a daily data table of the display data area, the stock is updated into the daily data table of the display data area, and the result decimal water quantity data and the strip number of the large data quantity are converted into column data and stored into the daily data table of the display data area;
8) And establishing a receiving equipment list, and establishing an hour maximum water consumption rule for maintaining equipment.
The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.
Claims (8)
1. A calculation method for calculating a reasonable amount of water for water resource monitoring data, for calculating a reasonable amount of water, characterized in that the calculation method comprises the steps of:
1) Setting calculation initial calculation time, and putting the data received by the center into an original data area through simple arrangement, and checking the technical duplicate; the data is divided into three areas, namely an original data area, a result data area and a display data area;
2) Inserting newly added data of the preliminary processing data area into an hour table of the achievement data area, checking the technical duplicate, arranging the hour table data of the achievement data area, clearing invalid data, and checking the technical duplicate;
3) Calculating the local maximum value and the minimum value of hour table data of the result data area, deleting the local maximum value and the minimum value, marking the abnormal maximum value and the minimum value of the original data area according to the calculation result, and marking the data with the table bottom of 0 or negative number of the original data area as abnormal invalid value;
4) Recalculating the hour table data of the finished result data area, calculating the water quantity of each record, and rechecking the data in the hour table data of the result data area;
5) Summarizing the calculated hour table data of the result data area into daily data of the result data area, adding the daily data into a daily data table of the result data area, and updating the stock into the daily data table of the result data area to check the technical weight;
6) Summarizing the calculated daily data of the result data area into month data of the result data area, adding the month data of the result data area into the month data table of the result data area, updating the stock into the month data table of the result data area, and calculating the annual accumulated water quantity of the month data according to the month data of the result data area;
7) The increment is put into the daily data table of the display data area, the stock is updated into the daily data table of the display data area, and the result decimal water amount data and the strip number of the large data amount are converted into column data and stored into the daily data table of the display data area;
8) Establishing a receiving equipment list and establishing an hour maximum water consumption rule for maintaining equipment; the hour maximum water consumption rule of the maintenance equipment is three times of the average water consumption, and is less than 1 ten thousand calculated by 1 ten thousand.
2. The method for calculating a reasonable amount of water for water resource monitoring data according to claim 1, wherein the initial calculation time is set to be 8 points in a month from 1 on, and the calculation time after 8 points is set to be more than 1 point in the month; the default, which is not explicitly noted by the algorithm of each step, is calculated from the initial calculation time.
3. The method for computing a reasonable amount of water for water resource monitoring data according to claim 1, wherein the technique is repeated to ensure that the original data area has no repeated data, and the authenticity and integrity of the original received data are maintained.
4. The method of claim 1, wherein when new data is inserted into the hour table in the result data area, the last month data is not received, and the table bottom is 0 or negative, and the transmission time exceeds the current time by 1 hour.
5. The method of claim 4, wherein the new data is inserted into an hour table in the result data area by using a breakpoint continuous transmission technique.
6. The method for calculating a reasonable amount of water according to claim 1, wherein when checking the data in the hour table data of the result data area, the first record of the number on the device is updated uniformly to 0 because the amount of water cannot be calculated; uniformly updating the water quantity with the water quantity data smaller than 0 to 0; according to the hour maximum water consumption rule of the equipment, the water consumption exceeding the rule is uniformly updated to 0.
7. The method for calculating a reasonable amount of water for water resource monitoring data according to claim 1, wherein "invalid values" of the original data area are marked according to abnormal calculation of hour table data of the result data area; if the data in the original data area is not in the result data area, marking the data as an invalid value in the original data area; data of the original data area which is not participated in calculation in the last month is marked as an abnormal late value.
8. The method according to claim 1, wherein the calculated hour table data of the result data area is inserted into the hour table of the data display area, the data removed from the hour table data of the result data area in the hour table of the data display area is deleted, and the water amount in the hour table of the data display area is updated according to the calculated hour table data of the result data area.
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