CN103034154B - Livestock temperature management system and livestock temperature correction method - Google Patents
Livestock temperature management system and livestock temperature correction method Download PDFInfo
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Abstract
The invention provides a livestock temperature management system and a livestock temperature correction method. The livestock temperature management system comprises a microprocessor circuit, N infrared temperature measuring guns which are provided with humidity sensors, at least one electron ear tag and a Radio Frequency Identification Devices (RFID) reader which is used for identifying the electron ear tags. The microprocessor circuit is connected with the RFID reader to obtain identity codes of the livestock. The microprocessor circuit is connected with the infrared temperature measuring guns to collect the temperature and humidity of the environment and the temperatures of the livestock. The livestock temperature correction method includes that the microprocessor obtains the identity codes and collects temperature and environmental humidity, then conducts a preliminary comparison between the temperatures of the livestock and the environmental temperature and the sifts. Single point repeat evaluation is conducted until M groups of effective temperatures of the livestock are obtained, and single point filtering evaluation is conducted. Then, estimated values of the N infrared temperature measuring guns are conducted by multipoint comprehensive evaluation, and shell temperatures TB of the livestock which correspond to the identity codes are obtained. Then compensation is conducted and real temperatures T of the livestock are obtained. The livestock temperature management system and the livestock temperature correction method have the advantages of reducing breeding cost and being scientific and practical.
Description
Technical field
The present invention relates to a kind of livestock management system for breeding, specifically, relate to a kind of livestock body temperature management system and body temperature bearing calibration thereof.
Background technology
Existing plant, utilize electron ear tage to carry out identity coding to livestock more, and carry out identification by a RFID reader, and how the monitoring of animal health situation is by manual measurement mode, manual measurement is carried out as utilized clinical thermometer or independent infrared temperature-measuring gun, workload is large, consuming time, take a lot of work, and measuring error is large again.
In order to solve above Problems existing, people are seeking a kind of desirable technical solution always.
Summary of the invention
The object of the invention is for the deficiencies in the prior art, thus a kind of design science is provided, saves the livestock body temperature management system that manpower, work efficiency are high, reduce aquaculture cost, additionally provide a kind of Data correction science, accuracy is high, body temperature bearing calibration that science is practical.
To achieve these goals, the technical solution adopted in the present invention is: a kind of livestock body temperature management system, it comprise microcontroller circuit, N number of there is humidity sensor infrared temperature-measuring gun, be no less than an electron ear tage and the RFID reader for identifying described electron ear tage; Wherein, described microcontroller circuit connects described RFID reader for identifying that the livestock with electron ear tage also obtains the identity code corresponding with this livestock; Described microcontroller circuit connects described infrared temperature-measuring gun for gathering ambient temperature and humidity and livestock body temperature and generating the animal health information including the true body temperature of the livestock corresponding with identity code, ambient temperature and humidity after being corrected by livestock body temperature; N be not less than 1 natural number.
Based on above-mentioned, it also comprises host computer and the communication interface circuit being connected described microcontroller circuit, and the communication interface circuit that described host computer connects described microcontroller circuit is for receiving animal health information and judging the health status of this livestock accordingly.
Based on above-mentioned, it also comprises warning circuit, and described microcontroller circuit connects described warning circuit to judge whether to produce the healthy warning message of this livestock according to animal health information and to report to the police according to healthy warning message.
Based on above-mentioned, it also comprises display circuit, described microcontroller circuit connects described display circuit so as display environment humiture, identity code and the livestock body temperature corresponding with this identity code, the true body temperature of livestock.
A body temperature bearing calibration for livestock body temperature management system, the method comprises the following steps:
Step 1, data acquisition and identification: microprocessor works on power, by the livestock identity code that also acquisition with this livestock corresponding of RFID reader identification with electron ear tage, by N number of infrared temperature-measuring gun collecting temperature and ambient humidity respectively;
Before microprocessor gets identity code, microprocessor is considered as ambient humidity HEi, environment temperature TEi respectively by by the humidity of i-th infrared temperature-measuring gun collection, temperature, otherwise microprocessor is considered as ambient humidity HEi, livestock body temperature TZi respectively by by the humidity of i-th infrared temperature-measuring gun collection, temperature;
Step 2, tentatively judgement: livestock body temperature TZi and environment temperature TEi is compared, if there is difference, then livestock body temperature TZi is effective, be designated as first effective livestock body temperature TYi, otherwise then livestock body temperature TZi is invalid, is considered as environment temperature TEi, and returns step 1;
Step 3, single-point repeat value: compared by the effective livestock body temperature TYi of next group livestock body temperature TZi and first gathered, if the poor of the two belongs to default temperature difference fluctuation range, then this group livestock body temperature TZi is effective, be designated as second effective livestock body temperature TYi, otherwise, then this group livestock body temperature TZi is invalid, and continues the effective livestock body temperature TYi of next group livestock body temperature TZi and first to compare, judge; According to this, until obtain M group effective livestock body temperature TYi;
Step 4, single-point filtering value: the maximal value in effective for M group livestock body temperature TYi and minimum value are removed, then remaining effective livestock body temperature TYi is averaged, namely obtain the livestock temperature TMi corresponding with i-th infrared temperature-measuring gun;
The comprehensive value of step 5, multiple spot: the livestock temperature corresponding with N number of infrared temperature-measuring gun obtained is averaged, obtains average temperature value Tp; Again according to the ambient temperature and humidity preset on livestock temperature impact-temperature fluctuation data D1, inquire about and obtain and environment temperature TEi, ambient humidity HEi, temperature fluctuation value △ Ti that livestock temperature TMi is corresponding; Then, carry out amplitude limit judgement, if that is, the absolute value of the difference of livestock temperature TMi and average temperature value Tp is not more than temperature fluctuation value △ Ti, then livestock temperature TMi is considered as amplitude limit shell temperature, otherwise livestock temperature TMi is invalid; Finally, institute's Finite Amplitude shell temperature is averaged, namely obtain the livestock shell temperature TB corresponding with this identity code;
Step 6, compensation value: according to the livestock body surface temperature preset and livestock true body temperature-temperature gap data D2, inquiry obtains the temperature gap △ T1 corresponding with livestock shell temperature TB; Again according to the ambient temperature and humidity preset on temperature gap impact-temperature compensation data D3, inquire about and obtain and environment temperature TE, ambient humidity HE, temperature compensation value △ T2 that temperature gap △ T1 is corresponding; Then, livestock shell temperature TB is added with temperature compensation value △ T2, namely obtains the true body temperature T of livestock;
Wherein, described environment temperature TE refers to the mean value of the environment temperature of N number of infrared temperature-measuring gun collection or refers to the environment temperature that i-th infrared temperature-measuring gun gathers, and described ambient humidity HE refers to the mean value of the ambient humidity of N number of infrared temperature-measuring gun collection or refers to the ambient humidity that i-th infrared temperature-measuring gun gathers;
M be not less than 3 natural number, i is the natural number being not more than N.
Based on above-mentioned, in step 4, single-point filtering value comprises following sub-step:
4.1, single-point filtering value: the maximal value in effective for M group livestock body temperature TYi and minimum value are removed, then remaining effective livestock body temperature TYi is average, obtain first group of average livestock temperature;
4.2, single-point filtering value repeatedly: repeat abovementioned steps, until obtain the average livestock temperature of X group, or, until microprocessor obtains less than identity code or when getting different identity codes, the average livestock temperature of the getable Y group of institute;
4.3, the comprehensive value of single-point: average for X group livestock temperature is averaged, or average for Y group livestock temperature is averaged, obtain the livestock temperature TMi corresponding with i-th infrared temperature-measuring gun;
Wherein, X, Y are natural numbers.
Based on above-mentioned, it is further comprising the steps of: step 7, generate animal health information: microprocessor, according to the identity code, environment temperature, ambient humidity, the true body temperature of livestock that obtain, generates the animal health information including identity code and the true body temperature of the livestock corresponding with this identity code, ambient temperature and humidity.
Based on above-mentioned, it is further comprising the steps of: step 8, host computer judge, management: animal health information is uploaded to host computer by microprocessor, and host computer judges the health status of this livestock according to animal health information and generates the electronic health record of this livestock.
Hinge structure of the present invention has outstanding substantive distinguishing features and marked improvement, and specifically, the present invention has the following advantages:
1, existing identity recognizing technology is to encode to livestock identity information separately, and can not once solve identity coding add body temperature monitoring problem, can not generate the long-term observation table of corresponding coding livestock, and the mode that the present invention adopts reader and temperature-measuring gun to be combined with each other well solves this problem.
2, existing infrared temperature measurement apparatus many employings single point metering system, when automatic temperature measurement, the problem that measure livestock must be considered in the installation site of temperature measurer can, and Multi-point infrared temperature measuring technology adopts multiple probe different angles to put, swept area is made to form fan taper, can make to be that larger volume animal or smaller size smaller animal are all placed in measurement range, the mounting means simultaneously making temperature-measuring gun no matter adopt furred ceiling or tilt upward with putting, can measure livestock.
3, the mode of some infrared measurement of temperature of the many employings of existing independent temperature-measuring gun, bigger error, and the present invention adopts the mode of multi-point temperature measurement, and analytic operation is carried out to multiple spot, pass through comparison algorithm, the point that point for measuring temperature that livestock do not detected and thermometric are disturbed bigger error can be excluded, also can utilize and not detect that the point for measuring temperature of livestock is monitored environment temperature, coordinate the temperature sensor that temperature measurer is built-in simultaneously, get rid of the interference of environment temperature, accurately calculate the body temperature when pre-test livestock by algorithm.
4, existing livestock management system, identity information is only had automatically to gather, and the present invention can arrange by computing machine upper computer software the identity information and health status that collect, automatically animal health situation is monitored, when staff can be reminded in the unhealthy computer-chronograph interface of livestock.
Accompanying drawing explanation
Fig. 1 is the structural representation of livestock body temperature management system described in embodiment 1.
Fig. 2 is the structural representation of livestock body temperature management system described in embodiment 2.
Embodiment
Below by embodiment, technical scheme of the present invention is described in further detail.
embodiment 1
As shown in Figure 1, a kind of livestock body temperature management system, it comprise host computer, microcontroller circuit, the described microcontroller circuit of connection communication interface circuit, N number of there is humidity sensor infrared temperature-measuring gun, be no less than an electron ear tage and the RFID reader for identifying described electron ear tage; Wherein, described microcontroller circuit connects described RFID reader for identifying that the livestock with electron ear tage also obtains the identity code corresponding with this livestock; Described microcontroller circuit connects described infrared temperature-measuring gun for gathering ambient temperature and humidity and livestock body temperature and generating the animal health information including the true body temperature of the livestock corresponding with identity code, ambient temperature and humidity after being corrected by livestock body temperature; The communication interface circuit that described host computer connects described microcontroller circuit is for receiving animal health information and judging the health status of this livestock accordingly; N be not less than 1 natural number, that is, the quantity of infrared temperature-measuring gun is generally 5-10, during use, lays, can both measure same livestock, and can measure the livestock of multiple different size, measure reliable in fan taper.
During use, this equipment is placed in livestock must through ground, as places such as drinking area, feeding points, by the identity information of RFID reader identification livestock, by infrared temperature-measuring gun, measurement of bldy temperature is carried out to the livestock recognizing identity information, and pass through the body temperature information slip of the different livestock different times of microprocessor records, analyze the health status of livestock, and then data are passed to host computer, compensate for large-scale plant and can only carry out separately the deficiency that identity automatically identifies, automatically cannot measure livestock body temperature.
A body temperature bearing calibration for livestock body temperature management system, the method comprises the following steps:
Step 1, data acquisition and identification: microprocessor works on power, by the livestock identity code that also acquisition with this livestock corresponding of RFID reader identification with electron ear tage, by N number of infrared temperature-measuring gun collecting temperature and ambient humidity respectively;
Before microprocessor gets identity code, microprocessor is considered as ambient humidity HEi, environment temperature TEi respectively by by the humidity of i-th infrared temperature-measuring gun collection, temperature, otherwise microprocessor is considered as ambient humidity HEi, livestock body temperature TZi respectively by by the humidity of i-th infrared temperature-measuring gun collection, temperature;
Step 2, tentatively judgement: livestock body temperature TZi and environment temperature TEi is compared, if there is difference, then livestock body temperature TZi is effective, be designated as first effective livestock body temperature TYi, otherwise then livestock body temperature TZi is invalid, is considered as environment temperature TEi, and returns step 1;
Step 3, single-point repeat value: compared by the effective livestock body temperature TYi of next group livestock body temperature TZi and first gathered, if the poor of the two belongs to default temperature difference fluctuation range, then this group livestock body temperature TZi is effective, be designated as second effective livestock body temperature TYi, otherwise, then this group livestock body temperature TZi is invalid, and continues the effective livestock body temperature TYi of next group livestock body temperature TZi and first to compare, judge; According to this, until obtain M group effective livestock body temperature TYi;
Step 4, single-point filtering value: the maximal value in effective for M group livestock body temperature TYi and minimum value are removed, then remaining effective livestock body temperature TYi is averaged, namely obtain the livestock temperature TMi corresponding with i-th infrared temperature-measuring gun;
The comprehensive value of step 5, multiple spot: the livestock temperature corresponding with N number of infrared temperature-measuring gun obtained is averaged, obtains average temperature value Tp; Again according to the ambient temperature and humidity preset on livestock temperature impact-temperature fluctuation data D1, inquire about and obtain and environment temperature TEi, ambient humidity HEi, temperature fluctuation value △ Ti that livestock temperature TMi is corresponding; Then, carry out amplitude limit judgement, if that is, the absolute value of the difference of livestock temperature TMi and average temperature value Tp is not more than temperature fluctuation value △ Ti, then livestock temperature TMi is considered as amplitude limit shell temperature, otherwise livestock temperature TMi is invalid; Finally, institute's Finite Amplitude shell temperature is averaged, namely obtain the livestock shell temperature TB corresponding with this identity code;
Step 6, compensation value: according to the livestock body surface temperature preset and livestock true body temperature-temperature gap data D2, inquiry obtains the temperature gap △ T1 corresponding with livestock shell temperature TB; Again according to the ambient temperature and humidity preset on temperature gap impact-temperature compensation data D3, inquire about and obtain and environment temperature TE, ambient humidity HE, temperature compensation value △ T2 that temperature gap △ T1 is corresponding; Then, livestock shell temperature TB is added with temperature compensation value △ T2, namely obtains the true body temperature T of livestock;
Wherein, described environment temperature TE refers to the mean value of the environment temperature of N number of infrared temperature-measuring gun collection or refers to the environment temperature that i-th infrared temperature-measuring gun gathers, and described ambient humidity HE refers to the mean value of the ambient humidity of N number of infrared temperature-measuring gun collection or refers to the ambient humidity that i-th infrared temperature-measuring gun gathers;
Step 7, generate animal health information: microprocessor, according to the identity code, environment temperature, ambient humidity, the true body temperature of livestock that obtain, generates the animal health information including identity code and the true body temperature of the livestock corresponding with this identity code, ambient temperature and humidity.
Step 8, host computer judge, management: animal health information is uploaded to host computer by microprocessor, and host computer judges the health status of this livestock according to animal health information and generates the electronic health record of this livestock; By upper computer software, livestock detected for a long time, observe, and the health problem of staff's Timeliness coverage livestock can be reminded;
Wherein, M be not less than 3 natural number, i is the natural number being not more than N.
Method of the present invention adopts multi-point temperature measurement mode to measure, and by detecting multiple spot body temperature, getting rid of invalid point for measuring temperature and the larger point for measuring temperature of deviation, and can solve the inaccurate technical barrier of thermometric by backoff algorithm.
embodiment 2
The present embodiment is mainly from the different of embodiment 1: a kind of livestock body temperature management system, it also comprises warning circuit and display circuit, and described microcontroller circuit connects described warning circuit to judge whether to produce the healthy warning message of this livestock according to animal health information and to report to the police according to healthy warning message; Described microcontroller circuit connects described display circuit so as display environment humiture, identity code and the livestock body temperature corresponding with this identity code, the true body temperature of livestock.
A body temperature bearing calibration for livestock body temperature management system, wherein, in step 4, single-point filtering value comprises following sub-step:
4.1, single-point filtering value: the maximal value in effective for M group livestock body temperature TYi and minimum value are removed, then remaining effective livestock body temperature TYi is average, obtain first group of average livestock temperature;
4.2, single-point filtering value repeatedly: repeat abovementioned steps, until obtain the average livestock temperature of X group, or, until microprocessor obtains less than identity code or when getting different identity codes, the average livestock temperature of the getable Y group of institute;
4.3, the comprehensive value of single-point: average for X group livestock temperature is averaged, or average for Y group livestock temperature is averaged, obtain the livestock temperature TMi corresponding with i-th infrared temperature-measuring gun;
Wherein, X, Y are natural numbers.
The present invention both can identify the identity coding of livestock, measurement inspection can be carried out again to the health status of livestock especially body temperature, simplify the conventional management models of large-scale plant, make to manage more scientific, intelligent, robotization, simultaneously, greatly reduce aquaculture cost, meet the automatic breeding needs of large-scale plant.
Finally should be noted that: above embodiment is only in order to illustrate that technical scheme of the present invention is not intended to limit; Although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the field are to be understood that: still can modify to the specific embodiment of the present invention or carry out equivalent replacement to portion of techniques feature; And not departing from the spirit of technical solution of the present invention, it all should be encompassed in the middle of the technical scheme scope of request of the present invention protection.
Claims (9)
1. a livestock body temperature management system, is characterized in that: it comprise microcontroller circuit, N number of there is humidity sensor infrared temperature-measuring gun, be no less than an electron ear tage and the RFID reader for identifying described electron ear tage; Wherein, described microcontroller circuit connects described RFID reader for identifying that the livestock with electron ear tage also obtains the identity code corresponding with this livestock; Described microcontroller circuit connects described infrared temperature-measuring gun for gathering ambient temperature and humidity and livestock body temperature and generating the animal health information including the true body temperature of the livestock corresponding with identity code, ambient temperature and humidity after being corrected by livestock body temperature;
Livestock body temperature corrects and comprises:
Step 1, data acquisition and identification: microprocessor works on power, by the livestock identity code that also acquisition with this livestock corresponding of RFID reader identification with electron ear tage, by N number of infrared temperature-measuring gun collecting temperature and ambient humidity respectively;
Before microprocessor gets identity code, microprocessor is considered as ambient humidity HEi, environment temperature TEi respectively by by the humidity of i-th infrared temperature-measuring gun collection, temperature, otherwise microprocessor is considered as ambient humidity HEi, livestock body temperature TZi respectively by by the humidity of i-th infrared temperature-measuring gun collection, temperature;
Step 2, tentatively judgement: livestock body temperature TZi and environment temperature TEi is compared, if there is difference, then livestock body temperature TZi is effective, be designated as first effective livestock body temperature TYi, otherwise then livestock body temperature TZi is invalid, is considered as environment temperature TEi, and returns step 1;
Step 3, single-point repeat value: compared by the effective livestock body temperature TYi of next group livestock body temperature TZi and first gathered, if the poor of the two belongs to default temperature difference fluctuation range, then this group livestock body temperature TZi is effective, be designated as second effective livestock body temperature TYi, otherwise, then this group livestock body temperature TZi is invalid, and continues the effective livestock body temperature TYi of next group livestock body temperature TZi and first to compare, judge; According to this, until obtain M group effective livestock body temperature TYi;
Step 4, single-point filtering value: the maximal value in effective for M group livestock body temperature TYi and minimum value are removed, then remaining effective livestock body temperature TYi is averaged, namely obtain the livestock temperature TMi corresponding with i-th infrared temperature-measuring gun;
The comprehensive value of step 5, multiple spot: the livestock temperature corresponding with N number of infrared temperature-measuring gun obtained is averaged, obtains average temperature value Tp; Again according to the ambient temperature and humidity preset on livestock temperature impact-temperature fluctuation data D1, inquire about and obtain and environment temperature TEi, ambient humidity HEi, temperature fluctuation value △ Ti that livestock temperature TMi is corresponding; Then, carry out amplitude limit judgement, if that is, the absolute value of the difference of livestock temperature TMi and average temperature value Tp is not more than temperature fluctuation value △ Ti, then livestock temperature TMi is considered as amplitude limit shell temperature, otherwise livestock temperature TMi is invalid; Finally, institute's Finite Amplitude shell temperature is averaged, namely obtain the livestock shell temperature TB corresponding with this identity code;
Step 6, compensation value: according to the livestock body surface temperature preset and livestock true body temperature-temperature gap data D2, inquiry obtains the temperature gap △ T1 corresponding with livestock shell temperature TB; Again according to the ambient temperature and humidity preset on temperature gap impact-temperature compensation data D3, inquire about and obtain and environment temperature TE, ambient humidity HE, temperature compensation value △ T2 that temperature gap △ T1 is corresponding; Then, livestock shell temperature TB is added with temperature compensation value △ T2, namely obtains the true body temperature T of livestock;
Wherein, described environment temperature TE refers to the mean value of the environment temperature of N number of infrared temperature-measuring gun collection or refers to the environment temperature that i-th infrared temperature-measuring gun gathers, and described ambient humidity HE refers to the mean value of the ambient humidity of N number of infrared temperature-measuring gun collection or refers to the ambient humidity that i-th infrared temperature-measuring gun gathers;
N be not less than 1 natural number, M be not less than 3 natural number, i is the natural number being not more than N.
2. livestock body temperature management system according to claim 1, it is characterized in that: it also comprises host computer and the communication interface circuit being connected described microcontroller circuit, the communication interface circuit that described host computer connects described microcontroller circuit is for receiving animal health information and judging the health status of this livestock accordingly.
3. the livestock body temperature management system described in claim 1 or 2, it is characterized in that: it also comprises warning circuit, described microcontroller circuit connects described warning circuit to judge whether to produce the healthy warning message of this livestock according to animal health information and to report to the police according to healthy warning message.
4. the livestock body temperature management system described in claim 1 or 2, it is characterized in that: it also comprises display circuit, described microcontroller circuit connects described display circuit so as display environment humiture, identity code and the livestock body temperature corresponding with this identity code, the true body temperature of livestock.
5. livestock body temperature management system according to claim 3, it is characterized in that: it also comprises display circuit, described microcontroller circuit connects described display circuit so as display environment humiture, identity code and the livestock body temperature corresponding with this identity code, the true body temperature of livestock.
6. the body temperature bearing calibration of livestock body temperature management system according to claim 1, it is characterized in that, the method comprises the following steps:
Step 1, data acquisition and identification: microprocessor works on power, by the livestock identity code that also acquisition with this livestock corresponding of RFID reader identification with electron ear tage, by N number of infrared temperature-measuring gun collecting temperature and ambient humidity respectively;
Before microprocessor gets identity code, microprocessor is considered as ambient humidity HEi, environment temperature TEi respectively by by the humidity of i-th infrared temperature-measuring gun collection, temperature, otherwise microprocessor is considered as ambient humidity HEi, livestock body temperature TZi respectively by by the humidity of i-th infrared temperature-measuring gun collection, temperature;
Step 2, tentatively judgement: livestock body temperature TZi and environment temperature TEi is compared, if there is difference, then livestock body temperature TZi is effective, be designated as first effective livestock body temperature TYi, otherwise then livestock body temperature TZi is invalid, is considered as environment temperature TEi, and returns step 1;
Step 3, single-point repeat value: compared by the effective livestock body temperature TYi of next group livestock body temperature TZi and first gathered, if the poor of the two belongs to default temperature difference fluctuation range, then this group livestock body temperature TZi is effective, be designated as second effective livestock body temperature TYi, otherwise, then this group livestock body temperature TZi is invalid, and continues the effective livestock body temperature TYi of next group livestock body temperature TZi and first to compare, judge; According to this, until obtain M group effective livestock body temperature TYi;
Step 4, single-point filtering value: the maximal value in effective for M group livestock body temperature TYi and minimum value are removed, then remaining effective livestock body temperature TYi is averaged, namely obtain the livestock temperature TMi corresponding with i-th infrared temperature-measuring gun;
The comprehensive value of step 5, multiple spot: the livestock temperature corresponding with N number of infrared temperature-measuring gun obtained is averaged, obtains average temperature value Tp; Again according to the ambient temperature and humidity preset on livestock temperature impact-temperature fluctuation data D1, inquire about and obtain and environment temperature TEi, ambient humidity HEi, temperature fluctuation value △ Ti that livestock temperature TMi is corresponding; Then, carry out amplitude limit judgement, if that is, the absolute value of the difference of livestock temperature TMi and average temperature value Tp is not more than temperature fluctuation value △ Ti, then livestock temperature TMi is considered as amplitude limit shell temperature, otherwise livestock temperature TMi is invalid; Finally, institute's Finite Amplitude shell temperature is averaged, namely obtain the livestock shell temperature TB corresponding with this identity code;
Step 6, compensation value: according to the livestock body surface temperature preset and livestock true body temperature-temperature gap data D2, inquiry obtains the temperature gap △ T1 corresponding with livestock shell temperature TB; Again according to the ambient temperature and humidity preset on temperature gap impact-temperature compensation data D3, inquire about and obtain and environment temperature TE, ambient humidity HE, temperature compensation value △ T2 that temperature gap △ T1 is corresponding; Then, livestock shell temperature TB is added with temperature compensation value △ T2, namely obtains the true body temperature T of livestock;
Wherein, described environment temperature TE refers to the mean value of the environment temperature of N number of infrared temperature-measuring gun collection or refers to the environment temperature that i-th infrared temperature-measuring gun gathers, and described ambient humidity HE refers to the mean value of the ambient humidity of N number of infrared temperature-measuring gun collection or refers to the ambient humidity that i-th infrared temperature-measuring gun gathers;
M be not less than 3 natural number, i is the natural number being not more than N.
7. the body temperature bearing calibration of livestock body temperature management system according to claim 6, is characterized in that: in step 4, and single-point filtering value comprises following sub-step:
4.1, single-point filtering value: the maximal value in effective for M group livestock body temperature TYi and minimum value are removed, then remaining effective livestock body temperature TYi is average, obtain first group of average livestock temperature;
4.2, single-point filtering value repeatedly: repeat abovementioned steps, until obtain the average livestock temperature of X group, or, until microprocessor obtains less than identity code or when getting different identity codes, the average livestock temperature of the getable Y group of institute;
4.3, the comprehensive value of single-point: average for X group livestock temperature is averaged, or average for Y group livestock temperature is averaged, obtain the livestock temperature TMi corresponding with i-th infrared temperature-measuring gun;
Wherein, X, Y are natural numbers.
8. the body temperature bearing calibration of the livestock body temperature management system according to claim 6 or 7, it is characterized in that, it is further comprising the steps of:
Step 7, generate animal health information: microprocessor, according to the identity code, environment temperature, ambient humidity, the true body temperature of livestock that obtain, generates the animal health information including identity code and the true body temperature of the livestock corresponding with this identity code, ambient temperature and humidity.
9. the body temperature bearing calibration of livestock body temperature management system according to claim 8, it is characterized in that, it is further comprising the steps of:
Step 8, host computer judge, management: animal health information is uploaded to host computer by microprocessor, and host computer judges the health status of this livestock according to animal health information and generates the electronic health record of this livestock.
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