JP7232517B2 - Cattle rumen environment evaluation method and cattle rumen environment evaluation device - Google Patents

Description

The present invention relates to a cattle rumen environment evaluation method and a cattle rumen environment evaluation apparatus capable of evaluating the cattle rumen environment from acceleration obtained by a triaxial acceleration sensor attached to the neck of the cattle.

The present inventor has already proposed a behavioral analysis method for ruminants that can determine at least one of feeding, rumination, and prone rest using a triaxial acceleration sensor attached to the neck of a cow. (Patent document 1).
Furthermore, the present inventors focused on ruminant behavior, and developed a ruminant health evaluation method, health evaluation device, feed evaluation method, and feed evaluation device capable of evaluating the health or feed of ruminant animals from this ruminant behavior. has been proposed (Patent Document 2).

JP 2017-51146 A JP 2017-158509 A

By the way, when a large amount of concentrated feed is supplied, the rumen juice becomes acidic, leading to ruminal acidosis, which reduces milk production and reproductive performance.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a cattle rumen environment evaluation method and health evaluation apparatus capable of evaluating the cattle rumen environment from the acceleration obtained by a triaxial acceleration sensor attached to the neck of the cattle. .

According to claim 1 of the present invention, there is provided a cattle rumen environment evaluation method, wherein a triaxial acceleration sensor is attached to the neck of a cattle and the rumen environment is evaluated using the acceleration obtained by the triaxial acceleration sensor. A method comprising: detecting a longitudinal acceleration, a vertical acceleration, and a lateral acceleration with the three-axis acceleration sensor; an acceleration storing step of storing together with time data; an analytical data extracting step of extracting at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration together with the elapsed time data; and the analytical data extracting step. a rumination determination step of determining a rumination motion period from at least one of the extracted longitudinal acceleration, the vertical acceleration, and the lateral acceleration; A mastication speed determination step of calculating the frequency frequency from at least one of the directional acceleration, the vertical acceleration, and the lateral acceleration, and determining a frequency peak value around 1 Hz as the mastication speed; and the rumination determination step. a swallowing interval calculating step of calculating a swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period; The rumen environment of the cow is evaluated from the chewing speed and the swallowing interval time calculated in the swallowing interval calculating step. and an assessment step of assessing that ruminal acidosis is highly probable if the interval time is longer than the swallowing threshold .
According to the second aspect of the present invention, there is provided a cattle rumen environment evaluation method, wherein a triaxial acceleration sensor is attached to the neck of the cattle and the rumen environment is evaluated using the acceleration obtained by the triaxial acceleration sensor. A method comprising: detecting a longitudinal acceleration, a vertical acceleration, and a lateral acceleration with the three-axis acceleration sensor; an acceleration storing step of storing together with time data; an analytical data extracting step of extracting at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration together with the elapsed time data; and the analytical data extracting step. a rumination determination step of determining a rumination motion period from at least one of the extracted longitudinal acceleration, the vertical acceleration, and the lateral acceleration; A mastication speed determination step of calculating the frequency frequency from at least one of the directional acceleration, the vertical acceleration, and the lateral acceleration, and determining a frequency peak value around 1 Hz as the mastication speed; and the rumination determination step. a swallowing interval calculating step of calculating a swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period; an evaluation step of evaluating the rumen environment of the cow from the chewing speed and the swallowing interval time calculated in the swallowing interval calculating step, wherein the evaluation step includes the current chewing speed and the swallowing interval. The time is compared with the mastication speed and the swallowing interval time in the past, and when the chewing speed decreases and the swallowing interval time becomes shorter, it is evaluated that the rumen environment is improved. do.
The present invention according to claim 3 is characterized in that, in the cattle rumen environment evaluation method according to claim 1 or claim 2 , fast Fourier transform analysis is used to calculate the frequency frequency in the mastication speed determination step. do.
According to a fourth aspect of the present invention, there is provided a cattle rumen environment evaluation apparatus according to the fourth aspect of the present invention. A cattle rumen environment evaluation apparatus for evaluating the cattle rumen environment by calculating a speed and a swallowing interval time, wherein the detected longitudinal acceleration, the vertical acceleration, and the lateral acceleration are stored as elapsed time data. analysis data extraction means 23 for extracting at least one of the longitudinal acceleration, the vertical acceleration, and the horizontal acceleration together with the elapsed time data; and the analysis data extraction means 23 a rumination determination means 24 for determining a rumination motion period from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration extracted in , and in the rumination motion period determined by the rumination determination means 24 , a mastication speed determination means 25 for calculating a frequency frequency from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration, and determining a frequency peak value around 1 Hz as the mastication speed; a swallowing interval calculating means 26 for calculating the swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined by the rumination determining means 24; evaluation means 27 for evaluating the rumen environment of the cow from the mastication speed determined by the speed determination means 25 and the swallowing interval time calculated by the swallowing interval calculation means 26; 27 is characterized in that when the mastication speed exceeds the mastication threshold and the swallowing interval time increases beyond the swallowing threshold, the possibility of ruminal acidosis is evaluated as high.
According to a fifth aspect of the present invention, there is provided a cattle rumen environment evaluation apparatus according to claim 5, wherein at least one of longitudinal acceleration, vertical acceleration, and lateral acceleration obtained by a three-axis acceleration sensor attached to the neck of a cow is used to measure mastication. A cattle rumen environment evaluation apparatus for evaluating the cattle rumen environment by calculating a speed and a swallowing interval time, wherein the detected longitudinal acceleration, the vertical acceleration, and the lateral acceleration are stored as elapsed time data. analysis data extraction means 23 for extracting at least one of the longitudinal acceleration, the vertical acceleration, and the horizontal acceleration together with the elapsed time data; and the analysis data extraction means 23 a rumination determination means 24 for determining a rumination motion period from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration extracted in , and in the rumination motion period determined by the rumination determination means 24 , mastication speed determination means 25 for calculating a frequency frequency from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration, and determining a frequency peak value around 1 Hz as the mastication speed; a swallowing interval calculating means 26 for calculating the swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined by the rumination determining means 24; evaluation means 27 for evaluating the rumen environment of the cow based on the chewing speed determined by the speed determination means 25 and the swallowing interval time calculated by the swallowing interval calculation means 26; In 27, the current chewing speed and the swallowing interval time are compared with the past chewing speed and the swallowing interval time, and when the chewing speed decreases and the swallowing interval time becomes shorter, the lumen environment is evaluated as being improved .

According to the present invention, the mastication speed and the swallowing interval time are calculated using at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration, and the rumen environment of the cow is calculated using the chewing speed and the swallowing interval time. can be evaluated.

FIG. 1 is a flowchart showing a cattle rumen environment evaluation method according to an embodiment of the present invention. FIG. 2 is a block diagram showing a device for realizing the cattle rumen environment evaluation method according to the present embodiment by means of function realization means. Photograph showing the first control unit described in the present embodiment A graph showing the rumination behavior of a cow Graph showing the results of calculating the frequency frequency from the acceleration during the rumination period Graph of cows fed different feeds with mastication speed on the vertical axis and swallowing interval time on the horizontal axis

A cattle rumen environment evaluation method according to a first embodiment of the present invention includes a detection step of detecting longitudinal acceleration, vertical acceleration, and lateral acceleration with a three-axis acceleration sensor; an acceleration storage step of storing the acceleration and the lateral acceleration along with the elapsed time data; an analysis data extracting step of extracting at least one of the longitudinal acceleration, the vertical acceleration and the lateral acceleration along with the elapsed time data; A rumination determination step of determining the rumination motion period from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration extracted in the data extraction step, and the longitudinal acceleration in the rumination motion period determined in the rumination determination step A mastication speed determination step of calculating the frequency frequency from at least one of the vertical acceleration and the horizontal acceleration, and determining the frequency peak value around 1 Hz as the mastication speed; , a swallowing interval calculation step of calculating the swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration; In the evaluation step, if the chewing speed exceeds the chewing threshold and the swallowing interval time increases beyond the swallowing threshold, the possibility of ruminal acidosis is high. and an evaluation step of evaluating According to this embodiment, at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration is used to calculate the chewing speed and the swallowing interval time, and the chewing speed and the swallowing interval time are used to calculate the lumen of the cow. Environment can be evaluated. Acceleration obtained from a three-axis accelerometer attached to the neck of the cow can also be used to assess the possibility of ruminal acidosis.

A cattle rumen environment evaluation method according to a second embodiment of the present invention comprises a detection step of detecting longitudinal acceleration, vertical acceleration, and lateral acceleration with a three-axis acceleration sensor ; an acceleration storage step of storing the acceleration and the lateral acceleration along with the elapsed time data; an analysis data extracting step of extracting at least one of the longitudinal acceleration, the vertical acceleration and the lateral acceleration along with the elapsed time data; A rumination determination step of determining the rumination motion period from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration extracted in the data extraction step, and the longitudinal acceleration in the rumination motion period determined in the rumination determination step A mastication speed determination step of calculating the frequency frequency from at least one of the vertical acceleration and the horizontal acceleration, and determining the frequency peak value around 1 Hz as the mastication speed; , a swallowing interval calculation step of calculating the swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration; In the evaluation step, the current chewing speed and swallowing interval time are compared with the past chewing speed and swallowing interval time, and the chewing speed is evaluated. When it decreases and the swallowing interval time shortens, it is evaluated that the rumen environment has improved. According to this embodiment, the improvement of the lumen environment can be evaluated from the acceleration obtained from the triaxial acceleration sensor attached to the neck of the cow.

A third embodiment of the present invention uses fast Fourier transform analysis to calculate the frequency frequency in the chewing speed determination step in the cattle rumen environment evaluation method according to the first or second embodiment. According to the present embodiment, it is possible to calculate the frequency frequency during the rumination period, and determine the frequency peak value around 1 Hz as the mastication speed, thereby obtaining an accurate mastication speed.

A cattle rumen environment evaluation apparatus according to a fourth embodiment of the present invention includes acceleration storage means for storing detected longitudinal acceleration, vertical acceleration, and lateral acceleration together with elapsed time data; Analysis data extracting means for extracting at least one of directional acceleration and lateral acceleration together with elapsed time data; , a rumination determining means for determining a rumination motion period, and at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined by the rumination determining means, the frequency frequency is calculated to be about 1 Hz. mastication speed determination means for determining the frequency peak value of as the mastication speed, and the swallowing interval time is calculated from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration during the rumination motion period determined by the rumination determination means. evaluation means for evaluating the rumen environment of the cow from the mastication speed determined by the mastication speed determination means and the swallowing interval time calculated by the swallowing interval calculation means; If the mastication speed exceeds the mastication threshold and the swallowing interval time increases beyond the swallowing threshold, the possibility of ruminal acidosis is evaluated. According to this embodiment, at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration is used to calculate the chewing speed and the swallowing interval time, and the chewing speed and the swallowing interval time are used to calculate the lumen of the cow. Environment can be evaluated. Acceleration obtained from a three-axis accelerometer attached to the neck of the cow can also be used to assess the possibility of ruminal acidosis.

A cattle rumen environment evaluation apparatus according to a fifth embodiment of the present invention includes acceleration storage means for storing detected longitudinal acceleration, vertical acceleration, and lateral acceleration together with elapsed time data; Analysis data extracting means for extracting at least one of directional acceleration and lateral acceleration together with elapsed time data; , a rumination determining means for determining a rumination motion period, and at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined by the rumination determining means, the frequency frequency is calculated to be about 1 Hz. mastication speed determination means for determining the frequency peak value of as the mastication speed, and the swallowing interval time is calculated from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration during the rumination motion period determined by the rumination determination means. evaluation means for evaluating the rumen environment of the cow from the mastication speed determined by the mastication speed determination means and the swallowing interval time calculated by the swallowing interval calculation means; , Compare the current mastication speed and swallowing interval time with the past chewing speed and swallowing interval time, and evaluate that the rumen environment is improved when the chewing speed decreases and the swallowing interval time becomes shorter. is. According to this embodiment, at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration is used to calculate the chewing speed and the swallowing interval time, and the chewing speed and the swallowing interval time are used to calculate the lumen of the cow. Environment can be evaluated. Improvements in the lumen environment can also be evaluated from the acceleration obtained from a triaxial accelerometer attached to the neck of the cow.

An embodiment of the present invention will be described below with reference to the drawings.
In the cattle rumen environment evaluation method of the present invention, a 3-axis acceleration sensor is attached to the neck of the cow, and the rumen environment is evaluated using the acceleration obtained by the 3-axis acceleration sensor.
FIG. 1 is a flowchart showing a cattle rumen environment evaluation method according to an embodiment of the present invention.
The cattle rumen environment evaluation method according to the first embodiment of the present invention comprises a detection step 1 (S1) of detecting acceleration with a triaxial acceleration sensor, an acceleration storage step 2 (S2) of storing the detected acceleration, an analysis Analysis data extraction step 3 (S3) for extracting data, rumination determination step 4 (S4) for determining the rumination motion period, mastication speed determination step 5 (S5) for determining mastication speed, and calculation of the swallowing interval time It has a swallow interval calculation step 6 (S6) and an evaluation step 7 (S7) for evaluating the rumen environment of the cow.

In detection step 1, longitudinal acceleration, vertical acceleration, and lateral acceleration are detected by a triaxial acceleration sensor.
In the acceleration storage step 2, the detected longitudinal acceleration, vertical acceleration, and lateral acceleration are stored together with elapsed time data.
In the analysis data extracting step 3, at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration is extracted together with the elapsed time data.
In the rumination determination step 4, the rumination motion period is determined from at least one of the longitudinal acceleration, the vertical acceleration, and the horizontal acceleration extracted in the analysis data extraction step 3.
In the mastication speed determination step 5, the frequency frequency is calculated from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined in the rumination determination step 4, and the frequency peak value around 1 Hz is obtained. is determined as the chewing speed. Here, the chewing speed is the speed of chewing once in rumination. Experiments have shown that the chewing speed of cows is between 0.9 Hz and 1.6 Hz, regardless of whether they are beef or dairy cows, and whether they are forage or concentrate.
In the swallowing interval calculation step 6, the swallowing interval time is calculated from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration during the rumination motion period determined in the rumination determination step 4. Here, the swallowing interval time is the time from one swallowing motion to the next swallowing motion at a certain time, not the time of one swallowing motion.
In the evaluation step 7, the rumen environment of the cow is evaluated from the chewing speed determined in the chewing speed determining step 5 and the swallowing interval time calculated in the swallowing interval calculating step 6.
According to this embodiment, at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration is used to calculate the chewing speed and the swallowing interval time, and the chewing speed and the swallowing interval time are used to calculate the rumen environment of the cow. can be evaluated.

Fast Fourier transform analysis is suitable for calculating the frequency frequency in the mastication speed determination step 5 .
According to the present embodiment, it is possible to calculate the frequency frequency during the rumination period, and determine the frequency peak value around 1 Hz as the mastication speed, thereby obtaining an accurate mastication speed.
In the evaluation step 7, when the mastication speed exceeds the mastication threshold and the swallowing interval time increases beyond the swallowing threshold, it is evaluated that the possibility of ruminal acidosis is high.
According to this embodiment, the possibility of rumen acidosis can be evaluated from the acceleration obtained from the triaxial acceleration sensor attached to the neck of the cow.
In the evaluation step 7, the current chewing speed and swallowing interval time are compared with the past chewing speed and swallowing interval time. evaluated as being
According to this embodiment, the improvement of the lumen environment can be evaluated from the acceleration obtained from the triaxial acceleration sensor attached to the neck of the cow.

FIG. 2 is a block diagram showing an apparatus for realizing the cattle rumen environment evaluation method according to an embodiment of the present invention by means of function implementation means.
The cattle rumen environment evaluation apparatus according to the first embodiment includes a first control unit 10 attached to the neck of the cattle, and a second control unit receiving data from the first control unit 10 and evaluating the cattle rumen environment. 20.
The first control unit 10 has detection means 11 comprising a triaxial acceleration sensor, acceleration storage means 12 for storing the detected acceleration, and transmission means 13 for transmitting data stored in the acceleration storage means 12 .
The second control unit 20 includes receiving means 21 for receiving data transmitted from the transmitting means 13, storage means 22 for storing the data received by the receiving means 21, and analysis data from the data stored in the storage means 22. analysis data extraction means 23 for extracting, rumination determination means 24 for determining the rumination motion period, mastication speed determination means 25 for determining the mastication speed, swallowing interval calculation means 26 for calculating the swallowing interval time, cow rumen It has an evaluation means 27 for evaluating the environment and an output means 28 for outputting the result evaluated by the evaluation means 27 .

The detecting means 11 detects longitudinal acceleration, vertical acceleration, and lateral acceleration with a triaxial acceleration sensor.
The acceleration storage means 12 stores the detected longitudinal acceleration, vertical acceleration, and horizontal acceleration together with elapsed time data.
The transmitting means 13 transmits the longitudinal acceleration, the vertical acceleration, and the lateral acceleration stored together with the elapsed time data.

The analysis data extracting means 23 extracts at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration from the storage means 22 together with the elapsed time data.
The rumination discriminating means 24 discriminates the rumination motion period from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration extracted by the analysis data extracting means 23 .
The mastication speed determination means 25 calculates the frequency frequency from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration during the rumination motion period determined by the rumination determination means 24, and obtains a frequency peak value around 1 Hz. is determined as the chewing speed.
The swallowing interval calculation means 26 calculates the swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration during the rumination motion period determined by the rumination determining means 24 .
The evaluation means 27 evaluates the rumen environment of the cow from the chewing speed determined by the chewing speed determining means 25 and the swallowing interval time calculated by the swallowing interval calculating means 26 .

FIG. 3 is a photograph showing the first control unit described in this embodiment.
The first control unit 10 is attached to the right neck of the cow.

4A and 4B are graphs showing the rumination behavior of cows, FIG. 4A is a graph showing the waveform of longitudinal acceleration, FIG. 4B is a graph showing the waveform of vertical acceleration, and FIG. 4 is a graph showing waveforms of lateral acceleration.
In FIG. 4, the horizontal axis is elapsed time (1 point is 0.05 seconds), and the vertical axis is acceleration (10 ⁻² m/s ² ).
The arrows in FIG. 4(a) show one swallowing motion from the vicinity of point 517 (Swallow) to the vicinity of point 603 (Vomit). is shown.
FIG. 4 shows only one swallowing motion, but the swallowing interval time is, for example, the time from the Swallow point in the previous swallowing motion to the Swallow point in the current swallowing motion, or is calculated from the time from the Vomit point in the swallowing motion of 1 to the Vomit point in the current swallowing motion. In addition, it is preferable to set the swallowing interval time to an average value obtained by measuring the time between each swallowing motion.

FIG. 5 is a graph showing the result of calculating the frequency frequency from the acceleration during the rumination period. Fast Fourier transform analysis is used to calculate the frequency frequency.
As shown in FIG. 5, when the frequency frequency is calculated from the acceleration during the rumination period using fast Fourier transform analysis, a plurality of frequency peak values appear. Since the chewing speed of cows is 0.9 Hz to 1.6 Hz, that is, around 1 Hz, the frequency peak value occurring around 1 Hz can be determined as the chewing speed.
In the example shown in FIG. 5, the chewing speed is 1.1133 Hz.

FIG. 6 is a graph with the mastication speed on the vertical axis and the swallowing interval time on the horizontal axis for cows fed with different feeds.
The plot shown in Figure 6 represents one cow. Plot "◎" is dairy cows given inappropriate concentrate feed, plot "△" is dairy cows given appropriate concentrate feed, plot "●" is dry cows with separate feeding, plot "◆" is Wagyu cattle with separate feeding, Plot "□" is Wagyu cattle on roughage.
Dairy cows fed inadequate concentrates are at high risk for ruminal acidosis.
As shown in FIG. 6, the slower the chewing speed and the shorter the swallowing interval, that is, the lower left of the graph, the better the lumen environment.
For example, as shown in FIG. 6, when the chewing speed exceeds the chewing threshold (for example, 1.3 Hz) and the swallowing interval time exceeds the swallowing threshold (for example, 65 sec) and becomes long, the possibility of ruminal acidosis is high. can be evaluated as
Also, when the current chewing speed is lower than the past chewing speed and the current swallowing interval time is shorter than the past swallowing interval time, it can be evaluated that the rumen environment is improved.

As in the present invention, the rumen environment of a cow can be evaluated by calculating the mastication speed and the swallowing interval time from the acceleration obtained by the triaxial acceleration sensor attached to the neck of the cow.

10 first control unit 11 detection unit 12 acceleration storage unit 13 transmission unit 20 second control unit 21 reception unit 22 storage unit 23 analysis data extraction unit 24 rumination determination unit 25 chewing speed determination unit 26 swallowing interval calculation unit 27 evaluation unit 28 output means

Claims (5)

A cattle rumen environment evaluation method comprising attaching a triaxial acceleration sensor to the neck of a cattle and evaluating the rumen environment using acceleration obtained by the triaxial acceleration sensor,
a detection step of detecting longitudinal acceleration, vertical acceleration, and lateral acceleration with the three-axis acceleration sensor;
an acceleration storing step of storing the detected longitudinal acceleration, the vertical acceleration, and the lateral acceleration together with elapsed time data;
an analysis data extracting step of extracting at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration together with the elapsed time data;
a rumination determination step of determining a rumination motion period from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration extracted in the analysis data extraction step;
A frequency frequency is calculated from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined in the rumination determination step, and the frequency peak value around 1 Hz is calculated as the mastication speed. A mastication speed determination step determined as
a swallowing interval calculation step of calculating a swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined in the rumination determination step;
an evaluation step of evaluating the rumen environment of the cow from the chewing speed determined in the chewing speed determining step and the swallowing interval time calculated in the swallowing interval calculating step ;
In the evaluation step, when the mastication speed exceeds the mastication threshold and the swallowing interval time increases beyond the swallowing threshold, it is evaluated that the possibility of ruminal acidosis is high. Rumen environment of cattle Evaluation method. A cattle rumen environment evaluation method comprising attaching a triaxial acceleration sensor to the neck of a cattle and evaluating the rumen environment using acceleration obtained by the triaxial acceleration sensor,
a detection step of detecting longitudinal acceleration, vertical acceleration, and lateral acceleration with the three-axis acceleration sensor;
an acceleration storing step of storing the detected longitudinal acceleration, the vertical acceleration, and the lateral acceleration together with elapsed time data;
an analysis data extracting step of extracting at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration together with the elapsed time data;
a rumination determination step of determining a rumination motion period from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration extracted in the analysis data extraction step;
A frequency frequency is calculated from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined in the rumination determination step, and the frequency peak value around 1 Hz is calculated as the mastication speed. A mastication speed determination step determined as
a swallowing interval calculation step of calculating a swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined in the rumination determination step;
an evaluation step of evaluating the rumen environment of the cow from the chewing speed determined in the chewing speed determining step and the swallowing interval time calculated in the swallowing interval calculating step;
has
In the evaluation step, the current chewing speed and the swallowing interval time are compared with the past chewing speed and the swallowing interval time, and when the chewing speed decreases and the swallowing interval time becomes shorter, the A method for evaluating the rumen environment of cattle, characterized by evaluating that the rumen environment is improved. 3. The cattle rumen environment evaluation method according to claim 1 , wherein fast Fourier transform analysis is used to calculate the frequency frequency in the mastication speed determination step. The rumen environment of the cow is calculated by calculating the chewing speed and the swallowing interval time from at least one of the longitudinal acceleration, vertical acceleration, and lateral acceleration obtained by a triaxial acceleration sensor attached to the neck of the cow. A cattle rumen environment evaluation device to be evaluated,
acceleration storage means for storing the detected longitudinal acceleration, vertical acceleration, and horizontal acceleration together with elapsed time data;
analysis data extracting means for extracting at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration together with the elapsed time data;
Rumination determination means for determining a rumination motion period from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration extracted by the analysis data extraction means;
A frequency frequency is calculated from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined by the rumination determination means, and the frequency peak value of about 1 Hz is masticated. mastication speed determining means for determining speed;
swallowing interval calculation means for calculating the swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined by the rumination determining means;
evaluation means for evaluating the rumen environment of the cow from the chewing speed determined by the chewing speed determining means and the swallowing interval time calculated by the swallowing interval calculating means ;
In the evaluation means, when the mastication speed exceeds the mastication threshold and the swallowing interval time increases beyond the swallowing threshold, it is evaluated that the possibility of rumen acidosis is high. Rumen environment of cattle Evaluation device. The rumen environment of the cow is calculated by calculating the chewing speed and the swallowing interval time from at least one of the longitudinal acceleration, vertical acceleration, and lateral acceleration obtained by a triaxial acceleration sensor attached to the neck of the cow. A cattle rumen environment evaluation device to be evaluated,
acceleration storage means for storing the detected longitudinal acceleration, vertical acceleration, and horizontal acceleration together with elapsed time data;
analysis data extracting means for extracting at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration together with the elapsed time data;
Rumination determination means for determining a rumination motion period from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration extracted by the analysis data extraction means;
A frequency frequency is calculated from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined by the rumination determination means, and the frequency peak value of about 1 Hz is masticated. mastication speed determining means for determining speed;
swallowing interval calculation means for calculating the swallowing interval time from at least one of the longitudinal acceleration, the vertical acceleration, and the lateral acceleration in the rumination motion period determined by the rumination determining means;
evaluation means for evaluating the rumen environment of the cow from the chewing speed determined by the chewing speed determining means and the swallowing interval time calculated by the swallowing interval calculating means ;
In the evaluation means, the current mastication speed and the swallowing interval time are compared with the past chewing speed and the swallowing interval time, and when the chewing speed decreases and the swallowing interval time becomes shorter, the A cattle rumen environment evaluation device characterized by evaluating that the rumen environment is improved .

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