CN108154100B - Intelligent dosing device and method based on biological recognition technology - Google Patents

Abstract

The present invention relates to the field of disease prevention and control; the intelligent dosing device comprises a solar cell power supply device for providing electric energy; the animal image acquisition device acquires an animal image; the attraction target animal device releases a food calling smell or food to attract the suspected target animal to approach; the identification device identifies the target animal through the animal image to obtain information of each animal, and generates administration information according to the animal information, and the administration device administers the drug to the canine once; the data storage and output device stores and outputs the identified animal and the administered animal data. The invention identifies the information of the target animals including the types and individuals of dogs, foxes and wolves through the animal images, and carries out timed and quantitative drug delivery on each target animal around the set point of the device, thereby ensuring the accurate and in-place drug delivery.

Description

Intelligent dosing device and method based on biological recognition technology

Technical Field

The invention relates to the field of disease prevention and control, in particular to an intelligent dosing device and method based on a biological recognition technology.

Background

The dog is the most main infection source of echinococcosis transmission, and the 'canine administration and monthly anthelmintic' are important measures for controlling the infection source in the echinococcosis prevention and treatment, and the problems exist at present: 1. the artificial dispensing is not in place, and each dog cannot be dosed monthly, and the artificial dispensing is difficult to implement particularly when the dogs are grazed in a remote grazing place. 2. The pesticide is applied for a plurality of times once, and the farmer and the herd can expel insects by themselves, and the past research shows that the farmer and the herd can not expel the insects by themselves; 3. people live in a very scattered manner, and the administration is hard and bitter, so that laches are easily caused; 4. at present, the target animal for expelling the insects is still a domestic dog, but terminal hosts of canidae animals such as foxes and wolfs exist; 5. the field administration can not be carried out on target animals (canines), and because a large number of domestic animals such as rats, cattle, sheep and the like exist, the administered drugs contain baits and can also be eaten by other animals, and the drugs can be decomposed when meeting rain and snow.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an intelligent dosing system and method based on biological recognition, which are used for acquiring animal image information, recognizing information such as types and individuals of target animals (dogs, foxes and wolves) through the animal image, and dosing each target animal around the set point of the device every 1 month, so that the dosing accuracy is ensured.

In order to achieve the above object, the intelligent medication administration device based on the biometric identification technology provided by the invention comprises an animal image acquisition device, an identification device, an attraction target animal and a medication administration device. The target animal attracting device releases attracting smell and food or sends out conditioned reflex signals to the suspected target animals to attract the animals to approach; the animal image acquisition device acquires animal images from different directions and uploads the animal images to the identification device; the identification device judges whether the animal type is a target animal (dog, fox and wolf) or not according to the animal image, judges whether the stored known target animal individual is or not for each target animal individual, obtains and stores the image information of each new target animal individual, gives a number, and generates dosing information for the new target animal individual and the animal individual which is not dosed; the administration apparatus receives the administration information, administers the drug to the canine once, and saves the administered information for the corresponding number of the individual animal.

Further, the animal image acquisition device uploads the animal image to the identification device, and then the identification device distinguishes each target animal individual and then respectively numbers the target animal individual.

Further, the identification device verifies the administration history information by determining whether the administration interval between the current administration time and the last administration time recorded in the history information is greater than a preset administration interval, and if so, the identification device generates the administration information.

Further, the medication information received by the medication device refers to medication administration for each newly discovered canine, and medication administration for the identified canine when the last medication administration time is greater than a preset medication administration interval; the dosing interval was set to 25 days.

Furthermore, the intelligent medicine dosing device based on the biological recognition technology is also provided with a conditional reflection manufacturing device, and the conditional reflection manufacturing device produces sound after each medicine taking of the animal so that the animal can generate a conditional reflection; the conditioned reflex manufacturing device sends out a conditioned reflex signal when the animal is not convenient to identify, and attracts the animal to approach the device.

Further, the identification device is provided with 4 optical probes, and the 4 optical probes collect animal images from different directions.

Furthermore, the intelligent dosing device based on the biological recognition technology further comprises a solar battery power supply device, wherein the solar battery power supply device comprises a solar cell panel and a lithium battery; the solar cell panel obtains light energy and then converts the light energy into electric energy, the electric energy is stored in the lithium battery, and the electric energy is provided for the intelligent dosing device based on the biological recognition technology.

Further, the intelligent drug administration device based on the biological recognition technology further comprises a data storage and output device, wherein the data storage and output device stores, but is not limited to store, the animal image, the animal information and the drug administration history record, and outputs the stored animal image, the animal information and the drug administration history record to an external device.

The intelligent dosing method based on the biological recognition technology is suitable for an intelligent dosing device based on the biological recognition technology; the intelligent dosing method based on the biological recognition technology is characterized by comprising the following steps of:

the target animal attracting device releases attracting smell and food or sends out conditioned reflex signals to the suspected target animals to attract the animals to approach;

the animal image acquisition device acquires animal images from different directions and uploads the animal images to the identification device;

the identification device judges whether the animal type is a target animal (dog, fox and wolf) or not according to the animal image, judges whether the stored known target animal individual is or not for each target animal individual, obtains and stores the image information of each new target animal individual, gives a number, and generates dosing information for the new target animal individual and the animal individual which is not dosed;

the administration apparatus receives the administration information, administers the drug to the canine once, and saves the administered information for the corresponding number of the individual animal.

Further, the medication information received by the medication device refers to medication administration for each newly discovered canine, and medication administration for the identified canine when the last medication administration time is greater than a preset medication administration interval; the dosing interval was set to 25 days.

The invention has the beneficial effects that: the invention provides an intelligent dosing system and method based on biological recognition, which can be used for collecting animal image information, recognizing information such as types and individuals of target animals through the animal image, and regularly and quantitatively dosing each target animal around a set point of the device so as to ensure accurate dosing.

Drawings

FIG. 1 is a system block diagram of an embodiment of an intelligent administration apparatus based on biometric identification technology according to the present invention;

fig. 2 is a flowchart of an embodiment of the intelligent administration method based on biometric identification technology according to the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1, the intelligent administration device based on the biological recognition technology comprises an animal image acquisition device, a recognition device, an attraction target animal and a conditioned reflex device, and an administration device; the target animal attracting device releases attracting food to the suspected target animal to attract the animal to approach; the animal image acquisition device acquires animal images from different directions and uploads the animal images to the identification device; the identification device judges whether the animal species is a dog, a fox and a wolf or not according to the animal image, and ignores the animal image if the animal species is not the dog, the fox and the wolf; if the animal types are dogs, foxes and wolves, judging whether each target animal individual is a stored known target animal individual; if the animal image is not the stored known target animal individual, obtaining and storing image information of each new target animal individual, giving numbers to the image information, generating administration information for the new target animal individual and the animal individual which is not administered, and if the animal image is the stored known target animal individual, ignoring the animal image; the drug device receives the administration information, administers the drug to the canine once, and saves the administered information for the corresponding number of the individual animal.

In the actual working process, the target animal attracting device can release food attracting smell or food and send out a conditioned reflex signal to attract animals with longer distance to get close, so that the identification and judgment are facilitated; the animal image acquisition device can find and acquire animal images from different directions, and it needs to be explained that the animal image acquisition device comprises but is not limited to an infrared imager, a linear array camera and/or an area array camera, 4 optical probes are installed in four directions of the animal image acquisition device, and the 4 optical probes acquire the animal images from different directions, so that the animal image acquisition efficiency is improved.

In this embodiment, the animal information includes administration history information, animal type information, and animal individual characteristic information. Specifically, the identification device performs biometric identification on the animal image after receiving the animal image, the identification device in the present application document may connect "biometric identification device (CN 200910160288.8)" to the present system to realize identification of the animal species and the individual in the animal image, and the identification device may also use other biometric identification components as long as the same function can be realized.

In this embodiment, the identification device verifies the medication history information, and if the medication interval between the current medication time and the last medication time recorded in the history information is greater than a preset medication interval, the identification device generates the medication information. Specifically, the identification device may directly generate the medication information if no relevant history information is found according to the matching between the current animal image acquired by the animal image acquisition device and the history information stored in the system. If the system has the relevant historical record information, verifying whether the administration interval time of the last administration time recorded by the historical record information is greater than the preset administration interval time; if the administration time of the current administration time and the last administration time recorded by the historical record information is greater than the preset administration time, generating administration information; and if the administration interval time between the current administration time and the last administration time recorded by the historical record information is less than the preset administration interval time, not generating the administration information.

In this embodiment, the identification device matches corresponding administration information according to the type information of the target animal and the individual characteristic information of the target animal, where the administration information includes the drug type and the drug dose. In the practical application process, the identification device carries out biological identification through the animal image acquired by the animal image acquisition device, so as to obtain species information including but not limited to animals and animal individual characteristic information; and if the animal image is not the administration target, deleting the animal image, otherwise, storing the image and recording a characteristic image of the animal, and outputting the determined administration information to the administration device.

In this embodiment, the animal image acquisition device further numbers each animal image after uploading the animal image to the identification device. Specifically, after an animal appears at a certain position of the intelligent dosing device based on the biological recognition technology, the animal image acquisition device acquires an animal image, transmits the numbered animal image to the recognition device, numbers the animal image, and can manage the animal image more orderly by numbering the animal image, so that the animal image is convenient to call and check at the later stage.

In this embodiment, the medication administration device sequentially delivers the medicines at the medicine delivery site according to the numbered animal images and the medication administration information. Specifically, after receiving the administration information, the administration device selects one or two drugs according to the type and dose of the drugs in the administration information and delivers the selected drugs to a position close to the animal, the dose is set according to the body size of the target animal, the probability of administration is increased, the animals are repelled by the administration operation, the repellent interval is about 25 days and 1 time, and the repeller can be administered again after more than 25 days. It should be noted that the medicine installed in the medication administering device is installed according to the number of animals and the shelf life of the medicine, the number of the medicine should be administered within the shelf life, and the medicine should be replenished after the administration.

In this embodiment, the intelligent medication dosing device based on the biometric identification technology further includes a solar battery power supply device, where the solar battery power supply device includes a solar cell panel and a lithium battery; the solar cell panel obtains light energy and then converts the light energy into electric energy, the electric energy is stored in the lithium battery, and the electric energy is provided for the intelligent dosing device based on the biological recognition technology. In the practical application process, the intelligent dosing device based on the biological recognition technology is configured with a charging interface, external 220V mains supply can be accessed through the charging interface, the charging and discharging lithium battery is charged through alternating current and direct current conversion of a power adapter, and the intelligent dosing device based on the biological recognition technology is supplied to the intelligent dosing device based on the biological recognition technology after the electric quantity of the charging and discharging lithium battery is full to ensure the normal work of the intelligent dosing device. Besides, the solar cell panel can be configured on the system and fixed at the top of the device, so that photovoltaic power generation can be realized and stored in the charging and discharging lithium battery to supply power to the system in the daytime when weather is good.

In this embodiment, the intelligent medication dosing device based on the biometric identification technology is further provided with a conditional reflection manufacturing device, where the conditional reflection manufacturing device includes, but is not limited to, a buzzer, a loudspeaker, or other external devices capable of producing sound; in the practical application process, after the dosing of the dosing device of the intelligent dosing device based on the biological recognition technology is finished through the external device, the animal sends out a whistle after taking the medicine each time, and the animal forms the conditioned reflex by repeatedly executing the step. The device can realize the effect of attracting animals, send out flute sound or other sound signals representing conditioned reflex to the animals suspected to be dosed far away, attract the animals to approach, collect animal images and judge whether to dose.

In this embodiment, the intelligent medication administration device based on the biometric identification technology further includes a data storage and output device, where the data storage and output device stores, but is not limited to, a stored animal image, animal information, and a medication history, and outputs the stored animal image, the stored animal information, and the stored medication history to an external device. Each intelligent administration device based on the biological recognition technology is given a fixed number, and data can be downloaded through a Bluetooth transceiver and/or a USB interface configured in the device; in the area where the network connection signal exists, the information recorded by the device can be remotely monitored.

As shown in fig. 2, the intelligent medication administration method based on biometric technology is applicable to the intelligent medication administration device based on biometric technology, and the method specifically includes:

and S1, the solar cell panel converts the light energy into electric energy, and stores the electric energy in the lithium battery to provide electric energy for the intelligent dosing device based on the biological recognition technology.

And S2, the target animal attracting device releases the attracting food or sends out a conditioned reflex signal to the suspected target animal to attract the animal to approach.

And S3, the animal image acquisition device acquires animal images from different directions and uploads the animal images to the identification device.

Specifically, the identification device is provided with 4 optical probes, the 4 optical probes collect animal images from different directions, and the animal image collection device further numbers each animal image before uploading the animal image to the identification device.

And S4, the identification device judges whether the animal types are dogs, foxes and wolves according to the animal images, judges whether the stored known target animal individuals exist for each target animal individual, obtains and stores the image information of each new target animal individual, gives a number to the new target animal individual and the animal individuals which are not dosed, and generates dosing information.

Specifically, the identification device verifies the medication history information, and if the medication interval between the current medication time and the last medication time recorded in the history information is longer than a preset medication interval, the identification device generates the medication information.

S5, the medication administration device receives the medication administration information, administers the medication once to the canine, and saves the information of the medication administration for the corresponding number of the individual animal.

Specifically, the medication administration device receives the medication administration information and the animal image, and administers the medication to each newly discovered canine, and once administration for 25 days is set for the identified canine.

S6, the device produces a sound after each dose of the animal, causing the animal to produce a conditioned reflex.

And S7, storing, including but not limited to storing, animal images, animal information and administration history by the data storage and output device, and outputting the stored animal images, animal information and administration history to the external device.

It should be noted that, in the embodiment of the intelligent dosing method based on the biometric identification technology, the solar battery power supply device, the animal image acquisition device, the identification device, the attraction target animal device, the dosing device, the data storage and output device, and the conditioned reflex manufacturing device are mentioned; functions and usages of the solar battery powered device, the animal image collecting device, the identification device, the attraction target animal device, the medication device, the data storage and output device, and the conditioned reflex manufacturing device in the intelligent medication administration device based on the biometric identification technology are substantially similar and will not be described again here.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (9)

1. The intelligent dosing device based on the biological recognition technology comprises an animal image acquisition device, a recognition device, an attraction target animal and a dosing device; the method is characterized in that:

the target animal attracting device releases attracting smell and food or sends out conditioned reflex signals to the suspected target animals to attract the animals to approach;

the animal image acquisition device acquires animal images from different directions and uploads the animal images to the identification device;

the identification device judges whether the animal type is a target animal or not through the animal image, the target animal is a dog, a fox or a wolf, judges whether each target animal individual is a stored known target animal individual or not, obtains and stores image information of each new target animal individual, gives a number to the new target animal individual and animal individuals which are not dosed, and generates dosing information;

the drug administration device receives the drug administration information, administers the drug to the canine once, and stores the administered information for the corresponding serial number of the individual animal;

the identification device can match the current animal image acquired by the animal image acquisition device with historical record information stored by a system, and if no relevant historical record information is found, the identification device directly generates dosing information; if the system has the relevant historical record information, verifying whether the administration interval time of the last administration time recorded by the historical record information is greater than the preset administration interval time; if the administration time of the current administration time and the last administration time recorded by the historical record information is greater than the preset administration time, generating administration information; and if the administration interval time between the current administration time and the last administration time recorded by the historical record information is less than the preset administration interval time, not generating the administration information.

2. The intelligent medication administration device based on biological recognition technology according to claim 1, wherein: the animal image acquisition device uploads the animal image to the identification device, and then the identification device further numbers each target animal individual after distinguishing the type.

3. The intelligent medication administration device based on biological recognition technology according to claim 2, wherein: the drug administration information received by the drug administration device refers to the drug administration for each newly discovered canine, and the drug administration for the identified canine when the last drug administration time is greater than the preset drug administration interval; the dosing interval was set to 25 days.

4. The intelligent medication administration device based on biological recognition technology according to claim 3, wherein: the intelligent dosing device based on the biological recognition technology is also provided with a conditional reflex manufacturing device, and the conditional reflex manufacturing device produces sound after each time the animal takes medicine, so that the animal forms conditional reflex; the conditioned reflex manufacturing device sends out a conditioned reflex signal when the animal is not convenient to identify, and attracts the animal to approach the device.

5. The intelligent medication administration device based on biological recognition technology according to claim 4, wherein: the identification device is provided with 4 optical probes, and the 4 optical probes collect animal images from different directions.

6. The intelligent medication administration device based on biological recognition technology of claim 5, wherein: the intelligent dosing device based on the biological recognition technology further comprises a solar battery power supply device, wherein the solar battery power supply device comprises a solar cell panel and a lithium battery; the solar cell panel obtains light energy and then converts the light energy into electric energy, the electric energy is stored in the lithium battery, and the electric energy is provided for the intelligent dosing device based on the biological recognition technology.

7. The intelligent medication administration device based on biological recognition technology of claim 6, wherein: the intelligent drug administration device based on the biological recognition technology further comprises a data storage and output device, wherein the data storage and output device stores, but is not limited to, animal images, animal information and drug administration history records, and outputs the stored animal images, animal information and drug administration history records to an external device.

8. An intelligent dosing method based on biological recognition technology, which is suitable for the intelligent dosing device based on biological recognition technology according to any one of claims 1-7; the intelligent dosing method based on the biological recognition technology is characterized by comprising the following steps of:

the target animal attracting device releases attracting smell and food or sends out conditioned reflex signals to the suspected target animals to attract the animals to approach;

the animal image acquisition device acquires animal images from different directions and uploads the animal images to the identification device;

the identification device judges whether the animal type is a target animal or not through the animal image, the target animal is a dog, a fox or a wolf, judges whether each target animal individual is a stored known target animal individual or not, obtains and stores image information of each new target animal individual, gives a number to the new target animal individual and animal individuals which are not dosed, and generates dosing information;

the drug administration device receives the drug administration information, administers the drug to the canine once, and stores the administered information for the corresponding serial number of the individual animal;

the identification device can match the current animal image acquired by the animal image acquisition device with historical record information stored by a system, and if no relevant historical record information is found, the identification device directly generates dosing information; if the system has the relevant historical record information, verifying whether the administration interval time of the last administration time recorded by the historical record information is greater than the preset administration interval time; if the administration time of the current administration time and the last administration time recorded by the historical record information is greater than the preset administration time, generating administration information; and if the administration interval time between the current administration time and the last administration time recorded by the historical record information is less than the preset administration interval time, not generating the administration information.

9. The intelligent administration method based on biological recognition technology as claimed in claim 8, wherein: the drug administration information received by the drug administration device refers to the drug administration for each newly discovered canine, and the drug administration for the identified canine when the last drug administration time is greater than the preset drug administration interval; the dosing interval was set to 25 days.

Images