KR20210090399A - Pig growth prediction system using temperature and humidity sensing information in pig farm - Google Patents

Abstract

Disclosed is pig growth prediction system using sensing information about the temperature and humidity of the inside of a pigpen. The pig growth prediction system using sensing information about the temperature and humidity of the inside of a pigpen comprises: a temperature measuring unit which measures temperature information inside a pigpen; a humidity measuring unit which measures humidity information inside the pigpen; a daily weight gain measuring unit which measures a daily weight gain of a pig for each growth stage based on measurement values of the temperature measuring unit and the humidity measuring unit; an expected breeding day calculation unit which calculates expected breeding days for each breeding period based on a calculated value of the daily weight grain measuring unit and a set weight for each growth stage of a pig; and a shipment day predicting unit which calculates a target shipment date based on the calculated value of the breeding day calculation unit and a preset suckling period of a pig. According to the present invention, a growth ability of a pig is predicted by using ICT information (sensing information about the temperature and humidity inside a pigpen), such that an expected target shipment date, an estimated total feed intake up to the expected target shipment data, an average feed conversion rate and the like can be predicted, and pig farms can manage pigs efficiently and economically with precise specification management.

Description

Pig growth prediction system using temperature and humidity sensing information in pig farm}

The present invention relates to a pig growth prediction system using temperature and humidity sensing information in a pig house that can measure the temperature and humidity of a pig house and predict the target shipping age, feed intake, etc. of pigs based on this.

In general, the livestock industry is an industry that produces useful substances for life by raising livestock such as chickens, pigs, and cattle. This is the current situation, and for the development of the livestock industry, related research institutes, companies, and livestock producers are actively conducting research, and as a result, many technologies and products are being developed.

Currently, most of the ICT smart farms commercialized in Korea install environmental sensors (temperature, humidity, odor gas, etc.) and CCTV to perform environmental control and specification management, but the technology to utilize the data obtained from these equipment is very insufficient. .

Therefore, it is necessary to secure data analysis and modeling technology that can monitor and predict changes in the growth of livestock in real time by using the data obtained using ICT technology.

Republic of Korea Patent No. 10-1058807 (registered on August 17, 2011)

The present invention has been devised to solve the above-mentioned problems of the prior art, and predicts the change in daily weight gain and feed intake for each growth stage of pigs according to environmental variables in the pig house, such as temperature and humidity, through equations, and based on this, the growth stage section The purpose of this is to provide a pig growth prediction system using temperature and humidity sensing information in the pig house that can predict in advance the number of days for each breeding, target shipping date (target shipping date), total feed intake, and average feed demand rate.

According to an aspect of the present invention, a temperature measuring unit for measuring temperature information in the pig house; Humidity measurement unit for measuring humidity information in the pig house; a daily weight gain calculation unit for calculating a daily weight gain for each growth stage of a pig based on the measured values of the temperature measuring unit and the humidity measuring unit; a breeding expected number of days calculation unit for calculating the expected number of breeding days for each breeding period based on the calculated value of the daily weight gain calculation part and the set weight for each growth stage of the pig; And a pig growth prediction system using temperature and humidity sensing information in a pig house is provided, which includes a shipment date prediction unit for calculating a target shipment date based on the calculated value of the breeding days calculation unit and a preset lactation period of pigs.

The growth stage of the pig includes weaning piglets, piglets, growing pigs, early finishers, and late finishers, and the daily weight gain in the weaning piglet period is predicted by Equation 1 below, and the daily weight gain in the piglet period is predicted by Equation 2 below, , The daily weight gain in the growing pig season is predicted by Equation 3 below, the daily weight gain in the first half of the finisher pig is predicted by Equation 4 below, and the daily weight gain in the late finisher pig season can be predicted by Equation 5 below.

[Equation 1]

[Equation 2]

[Equation 3]

[Equation 4]

[Equation 5]

where y1 is the daily weight gain

T is temperature, H is humidity

a daily feed intake calculation unit for calculating a daily feed intake for each growth stage of a pig based on the measured values of the temperature measurement unit and the humidity measurement unit; and a total feed intake calculation unit capable of calculating the total feed intake based on the calculated value of the daily feed intake calculation unit and the calculated value of the expected number of breeding days calculation unit, and calculating the expected feed intake before the target shipment date for each growth stage. may include

The daily feed intake in the weaning piglet period is predicted by Equation 6 below, the daily feed intake in the piglet period is predicted by Equation 7 below, and the daily feed intake in the growing pig season is predicted by Equation 8 below, The daily feed intake in the period can be predicted by Equation 9 below, and the daily feed intake in the late stage of finisher pigs can be predicted by Equation 10 below.

[Equation 6]

[Equation 7]

[Equation 8]

[Equation 9]

[Equation 10]

where y2 is the daily feed intake

T is temperature, H is humidity

The total feed consumption calculation unit may further include an average feed demand rate calculation unit for calculating an average feed requirement rate based on the calculated value of the total feed intake calculation unit and the set weight for each growth stage of the pig.

According to the pig growth prediction system using the temperature and humidity sensing information in the pig house of the present invention described above, by predicting the growth ability of the pig using ICT information (temperature and humidity sensing information in the pig house), the target shipment date, target shipment It is possible to predict the expected total feed intake by the due date and the average feed demand rate, and pig farms can manage pigs efficiently and economically through precise breeding management.

In addition, since it is possible to predict in advance the amount of weight gain and feed intake for each growth stage of a pig, the daily weight gain and daily feed intake are comprehensively considered, that is, productivity (weight gain) and economic efficiency (feed amount) are taken into consideration for each growth stage of a pig in a pig house. It has the advantage of being easier to manage.

In addition, when it is necessary to adjust the expected shipment date and total feed intake, the farmer can respond in advance by appropriately adjusting the temperature and humidity in the pig house.

1 is a block diagram showing a pig growth prediction system using temperature and humidity sensing information in a pig house according to an embodiment of the present invention;
2 is a table showing the results of calculating the necessary information using the pig growth prediction system using the temperature and humidity sensing information in the pig house according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and the scope of the invention to those of ordinary skill in the art will be completely It is provided to inform you. In the drawings, like reference numerals refer to like elements.

The pig growth prediction system using temperature and humidity sensing information in the pig house according to a preferred embodiment of the present invention predicts the change in the daily weight gain and feed intake for each growth stage of the pig according to the environmental variables (temperature and humidity) in the pig house through equations Based on this, it is a system that can predict in advance the expected number of days of breeding for each growth stage, the target shipping date (target shipping date), the total feed intake, and the average feed demand rate.

Prior to the description below, the growth stages of pigs can largely include weaning piglet period, piglet period, growing pig period, early finisher piglet, and late finisher piglet period, and weaning piglets are 4 to 6 weeks old, piglets are 6 to 8 weeks old, and growing pigs are postnatal. 8 to 13 weeks, the first stage of finisher pigs is 13 to 18 weeks of age, and the latter stage of finisher pigs is about 18 to 22 weeks of age.

In addition, among the factors used to calculate the following result values, the set weight for each growth stage of the pig and the lactation period are preset values by an expert, and the lactation period is set as 28.0 days as the period during which the mother pig feeds the piglets.

The set weight for the weaning pig season is 7 to 15 kg, the set weight for the piglet season is 15 to 30 kg, the set weight for the growing pig season is 30 to 50 kg, the set weight for the early finisher period is 50 to 80 kg, The set weight for the late finisher period is 80 to Set to 110 kg.

Hereinafter, the present invention will be described in detail with reference to Examples.

As shown in FIG. 1 , the pig growth prediction system using temperature and humidity sensing information in the pig house according to an embodiment of the present invention includes a temperature measurement unit 100 , a humidity measurement unit 200 , and a daily weight gain calculation unit 300 . ), a breeding expected number of days calculation unit 400, and a shipping date prediction unit 500.

First, the temperature measuring unit 100 is applicable as a temperature sensor to measure the temperature information in the pig house. The temperature measuring unit 100 can be installed at a plurality of positions inside the pig house, but in particular, it is more preferable to be installed within a height range corresponding to the movement area of the pig with respect to the ground.

Next, the humidity measuring unit 200 is applicable as a humidity sensor for measuring humidity information in the pig house, and similarly, it can be installed at a plurality of positions inside the pig house, but in particular, within the height range corresponding to the movement area of the pig with respect to the ground. It is more preferable to be installed.

Although not specifically shown in the drawings, the present invention may further include a temperature change unit (not shown) and a humidity change unit (not shown) capable of variably changing the temperature and humidity in the pig house.

Such a temperature change unit may include a heater for changing the internal temperature of the pig house and a circulation fan for circulating the heat generated by the heater. It is more preferable that the temperature change unit includes an air conditioner as a cooling device in addition to the heater. In addition, the humidity change unit may include a humidifier, a dehumidifier, and the like.

Next, the daily weight gain calculation unit 300 calculates the daily weight gain for each growth stage of the pig based on the measured values of the temperature measurement unit 100 and the humidity measurement unit 200 . That is, based on the temperature and humidity of the current pig house, the daily weight gain of pigs for each growth stage can be predicted in advance through the following equation.

In an embodiment of the present invention, the daily weight gain calculation unit 300 derives the following formula to predict the daily weight gain during weaning piglet period.

where y1 is daily weight gain, T is temperature, and H is humidity.

The daily weight gain calculation unit 300 derives the following formula to predict the daily weight gain during the piglet period.

where y1 is daily weight gain, T is temperature, and H is humidity.

The daily weight gain calculation unit 300 derived the following formula to predict the daily weight gain during the breeding pig period.

where y1 is daily weight gain, T is temperature, and H is humidity.

The daily weight gain calculation unit 300 derives the following formula to predict the daily weight gain in the first half of the finishing pig.

where y1 is daily weight gain, T is temperature, and H is humidity.

The daily weight gain calculation unit 300 derived the following formula to predict the daily weight gain in the late stage of finishing pigs.

where y1 is daily weight gain, T is temperature, and H is humidity.

In the early/late period of finishing pigs, the humidity factor was omitted because it caused an error in the derivation of the result.

Hereinafter, the daily gain and feed intake of pigs are collected and based on these, the daily gain and feed intake for each growth stage will be described in detail.

First, the test conditions were described. As for the test animals, information on 200 weaning pigs and 200 growing pigs and 120 finishing pigs, which are ternary hybrids [(Landrace × yorkshire) × Duroc], were collected.

The test design was conducted by collecting information raised in a total of 4 treatments, divided into low temperature, control group (appropriate temperature), high temperature and ultra high temperature treatment group.

For the test feed, a feed formulated in accordance with the NRC (2012) specification standard was used as a basic feed. In piglets (7 ~ 25 kg), metabolic energy was 3,350 kcal/kg, and crude protein was 19%, and in growing pigs (weighed 28 ~ 50 kg), metabolic energy was 3,265 kcal/kg, and crude protein was 18%. To finisher pigs (weight 50 to 110 kg), metabolic energy was 3,265 kcal/kg, and crude protein was supplied at the level of 17%.

In addition, a thermometer and hygrometer were installed inside the pig house to record the temperature and humidity at 8 am, 2 pm, 6 pm, and 10 pm, and a data logger (TR-72wf, T&D, Japan) was installed to record the results. Temperature and humidity information was used. The daily weight gain was calculated by dividing the weight gain during the test period by the test period.

Statistical processing of the data obtained in this test was analyzed for variance by the SAS Static Package Program (SAS, 2005), and the significance test of the mean value of the treatment interval was performed using Duncan's multiple test method.

Next, the expected number of breeding days calculation unit 400 calculates the expected number of breeding days (section age) for each breeding period based on the calculated value of the daily weight gain calculation unit 300 and the set weight for each growth stage of the pig.

Next, the shipment date prediction unit 500 calculates the target shipment date based on the calculated value of the expected number of breeding days calculation unit 400 and the preset pig lactation period (28 days).

A process of predicting a shipment date will be described in detail with reference to the above equations and FIG. 2 . For example, the daily weight gain for weaning piglets is calculated as 0.57 kg through Equation 1, and the expected number of breeding days for weaning piglets can be calculated as follows based on the set weight (7 to 15 kg) of weaned pigs.

Expected number of breeding days for weaning piglets = 14 days = (15-7)/0.57

Similarly, by applying the above-described method, it is possible to calculate the expected number of breeding days for each of the remaining growth stages, and the result is shown in FIG. 2 .

The target shipment date (shipment date) is the sum of the expected number of breeding days for each growth stage during the lactation period, and 148.7 days are calculated.

The expected number of breeding days for each growth stage is calculated as 14.0 days, 21.2 days, 18.5 days, 33.9 days, and 33.2 days. It can be predicted that shipment is possible after (33.9+33.2 days).

1, the pig growth prediction system using the temperature and humidity sensing information in the pig house according to an embodiment of the present invention further includes a daily feed intake calculation unit 600 and a total feed intake calculation unit 700 do.

The daily feed intake calculation unit 600 calculates the daily feed intake for each growth stage of the pig based on the measured values of the temperature measurement unit 100 and the humidity measurement unit 200 .

The total feed intake calculation unit 700 calculates the total feed intake based on the calculated value of the daily feed intake calculation unit 600 and the calculated value of the expected number of breeding days calculation unit 400, and until the target shipment date for each growth stage It is possible to calculate the expected feed intake.

In an embodiment of the present invention, the daily feed intake calculation unit 600 derives the following formula to predict the daily feed intake for weaning piglets.

where y2 is the daily feed intake, T is the temperature, and H is the humidity.

The daily feed intake calculation unit 600 derived the following formula to predict the daily feed intake in the piglet period.

where y2 is the daily feed intake, T is the temperature, and H is the humidity.

The daily feed intake calculation unit 600 derived the following formula to predict the daily feed intake during the growing pig period.

where y2 is the daily feed intake, T is the temperature, and H is the humidity.

The daily feed intake calculation unit 600 derived the following formula to predict the daily feed intake in the first half of the finishing pig.

where y2 is the daily feed intake, T is the temperature, and H is the humidity.

The daily feed intake calculation unit 600 derived the following formula to predict the daily feed intake in the late stage of finisher pigs.

where y2 is the daily feed intake, T is the temperature, and H is the humidity.

In the early/late period of finishing pigs, the humidity factor was omitted because it caused an error in the derivation of the result.

A process of predicting the daily feed intake and total feed intake will be described in detail with reference to the above formulas and FIG. 2 . For example, the daily feed intake for weaning piglets is calculated as 0.63 kg, and by multiplying the expected 14 days of weaning piglets calculated through the breeding expected days calculation unit 400 by 0.63 kg, the feed intake for the section of weaning piglets is calculated as follows. can be calculated

Feed intake in section during weaning piglet period = 8.83kg = 0.63kg * 14 days

Similarly, by applying the above-described method, it is possible to calculate the feed intake amount (predicted feed intake amount) for each of the remaining growth stages, and the result is shown in FIG. 2 .

The estimated amount of feed intake for each growth stage of pigs calculated in this way is 8.83kg, 27.23kg, 41.87kg, 82.12kg, and 105.5kg, and when these are added up, the total feed intake is calculated as 265.55kg. Through this, for example, it can be predicted that a total of (41.87+82.12+105.5, 229.49 kg) of feed will be required for growing pigs before the target shipping date, and a total of (82.12+105.5, total 187.62 kg) of feed for the first year of finisher pigs before the target shipping date. kg) can be predicted to be needed.

As shown in FIG. 1, the pig growth prediction system using temperature and humidity sensing information in the pig house according to an embodiment of the present invention is based on the calculated value of the total feed intake calculation unit 700 and the set weight for each growth stage of the pig. It further includes an average feed demand rate calculation unit 800 for calculating the average feed demand rate.

The average feed requirement is the amount of feed required for a 1kg gain of pigs, and is calculated by dividing the total feed intake by the weight gain between weaning pigs and finishing pigs (post-finishing weight - weaning pig weight). In general, the lower the average feed requirement, the better the economic feasibility of the farmhouse, and 3 or less can be judged as an appropriate value.

Here, 110 kg is the maximum set weight of the late finisher pigs, and 7 kg is the minimum set weight of the weaning pigs.

The feed requirement for each growth stage of the pig shown in FIG. 2 can be calculated through the following formula.

Above, it has been explained that the temperature and humidity information in the pig house is measured, and based on this, the target expected shipment date of pigs is predicted, the total feed intake and the amount of feed consumed before the expected shipment date are predicted, and the average feed demand rate is calculated. When it is necessary to adjust the expected shipment date and feed intake, the farmer can respond in advance by appropriately adjusting the temperature and humidity in the pig house.

Although the present invention has been described with reference to the accompanying drawings and the above-described preferred embodiments, the present invention is not limited thereto, and is defined by the following claims. Accordingly, those of ordinary skill in the art can variously change and modify the present invention within the scope without departing from the spirit of the claims to be described later.

100: temperature measurement unit 200: humidity measurement unit
300: daily weight gain calculation unit 400: expected breeding days calculation unit
500: shipment date prediction unit 600: daily feed intake calculation unit
700: total feed intake calculation unit 800: average feed demand rate calculation unit

Claims (5)

a temperature measuring unit 100 for measuring temperature information in the pig house;
Humidity measurement unit 200 for measuring humidity information in the pig house;
a daily weight gain calculation unit 300 for calculating a daily weight gain for each growth stage of a pig based on the measured values of the temperature measuring unit 100 and the humidity measuring unit 200;
a breeding expected number of days calculation unit 400 for calculating the expected number of breeding days for each breeding period based on the calculated value of the daily weight gain calculation part 300 and the set weight for each growth stage of the pig; and
Pig growth using temperature and humidity sensing information in a pig house including a shipment date prediction unit 500 for calculating a target shipment date based on the calculated value of the breeding expected number of days calculation unit 400 and a preset pig feeding period prediction system. According to claim 1,
The growth stage of the pig includes weaning piglets, piglets, growing pigs, early finisher pigs, late finisher pigs,
The daily weight gain in the weaning pig season is predicted by Equation 1 below, the daily weight gain in the piglet season is predicted by Equation 2 below, and the daily weight gain in the growing pig season is predicted by Equation 3 below, A pig growth prediction system using temperature and humidity sensing information in a pig house, characterized in that the weight gain is predicted by Equation 4 below, and the daily weight gain in the late stage of finishing pigs can be predicted by Equation 5 below.
[Equation 1]

[Equation 2]

[Equation 3]

[Equation 4]

[Equation 5]

where y1 is the daily weight gain
T is temperature, H is humidity 3. The method of claim 2,
a daily feed intake calculation unit 600 for calculating a daily feed intake for each growth stage of a pig based on the measured values of the temperature measurement unit 100 and the humidity measurement unit 200; and
The total feed intake is calculated based on the calculated value of the daily feed intake calculation unit 600 and the calculated value of the expected number of breeding days calculation unit 400, and the expected feed intake amount is calculated before the target shipment date for each growth stage. Pig growth prediction system using temperature and humidity sensing information in the pig house, characterized in that it further comprises a possible total feed intake calculation unit (700). 4. The method of claim 3,
The daily feed intake in the weaning piglet period is predicted by Equation 6 below, the daily feed intake in the piglet period is predicted by Equation 7 below, and the daily feed intake in the growing pig season is predicted by Equation 8 below, A pig growth prediction system using temperature and humidity sensing information in a pig house, characterized in that the daily feed intake of the period is predicted by Equation 9 below, and the daily feed intake of the late finisher period can be predicted by Equation 10 below.
[Equation 6]

[Equation 7]

[Equation 8]

[Equation 9]

[Equation 10]

where y2 is the daily feed intake
T is temperature, H is humidity 4. The method of claim 3,
Temperature and humidity sensing in the pig house, characterized in that it further comprises an average feed demand rate calculation unit 800 for calculating an average feed demand rate based on the calculated value of the total feed intake calculation unit 700 and the set weight for each growth stage of the pig Pig growth prediction system using information.

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