KR102194193B1 - Companion animal optimization healthcare system - Google Patents

Abstract

The present invention includes a nutritional information module in which information on nutritional supplements for companion animals or foods and beauty/sanitary products is stored, and the optimization module requests information on at least one nutritional supplement selected by the owner to the nutritional information module and returns the received nutritional information It is about the optimal health management system for companion animals that can generate nutrient excess or deficiency information by determining the excess or deficiency of nutrients in preparation for the recommended amount of nutrients for animals. By using the present invention, the owner will be able to easily find a nutrient suitable for his pet.

Description

Companion animal optimal health management system {COMPANION ANIMAL OPTIMIZATION HEALTHCARE SYSTEM}

The present invention relates to an optimal companion animal health management system, and relates to an optimal companion animal health management system that finds and informs the excess or deficiency of a specific nutrient recommended amount in the process of selecting a nutrient required for the companion animal.

In March 2019, the population raising companion animals exceeded 10 million. Companion animals are no longer regarded as family animals, more than just domestic animals.

Accordingly, the culture of companion animals is rapidly changing. One of them is historical history. In the past, the owner of the companion animal (hereinafter referred to as the'owner') only checked whether the raw material was good for the companion animal's feed, but recently, he carefully checks what nutrients contained in the feed and purchases necessary nutrients if there are any deficiencies. To supplement.

Unlike people who eat different foods for each meal, pets only eat feed, so an excess or lack of certain nutrients is a serious problem. Moreover, it is very important to find an appropriate nutritional supplement for the life cycle because the nutritional content required varies according to the age group of the companion animal.

Companion animals differ in size for each species, their health status is different for each companion animal, and feeds for each companion animal are different. This is even more so because each pet has likes and dislikes for feed.

After all, there is no such thing as a good nutritional supplement for all pets. In order to help pets that are aging faster than humans age healthily and to prevent them from suffering from various diseases, owners should consider carefully to find the right nutrient for their pets.

In general, a user who wants to purchase a nutritional supplement online searches for a product with a desired function, and then goes through the process of purchasing the product by referring to personal blogs, SNS, and reviews of shopping sites.

However, there are more than hundreds of types of nutritional supplements currently on sale, and the types of products and information about them are also diverse, and their information is scattered on different sites. As a result, the user's point of view has widened the range of nutritional choices, and at the same time, it is difficult to select any one of a number of products. In addition, each nutritional supplement contains different nutrients in different amounts. In addition, each pet's preferred nutritional formulation is different. It is not easy to feed your pets with nutrients, so you need to satisfy all the nutrients with only two or three nutrients. Given these circumstances, finding the right nutritional supplement for your pet is like solving a puzzle that is too difficult.

Among these numerous products, there has not been a system that provides an optimized solution that compares and analyzes the brands, prices, and nutrient content of interested products in order to select a product suitable for their companion animal. Therefore, there is a need for a way to solve this problem at once.

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Unexamined Patent Publication No. 10-2018-0058438 (2018.06.01.) Unexamined Patent Publication No. 10-2016-0101413 (2016.08.25.)

Votik. “Petpic K, a companion animal app that lets you know the ingredients of dog/cat feed”, Naver Blog, <https://blog.naver.com/PostPrint.nhn?blogId=bobo3312&logNo=22 1325112386> (2018.07.24 .)

An object of the present invention is to provide an optimal health management system for companion animals that efficiently provides ingredient information of various nutrients, and finds and informs the excess or deficiency of the recommended amount of specific nutrients according to the companion animal when selecting individual or multiple nutrients.

Meanwhile, other objects not specified of the present invention will be additionally considered within a range that can be easily deduced from the following detailed description and effects thereof.

The optimal companion animal health management system according to an embodiment of the present invention for achieving the above object may determine an excess or deficiency of the recommended amount of nutrients in a nutrient to be fed to the companion animal. To this end, a companion animal optimal health management system according to an embodiment includes a nutritional information module storing information on a nutritional supplement for a companion animal; An optimization module that requests and receives at least one nutrient information selected by the user to the nutrient information module, and determines an excess or deficiency of nutrients by comparing the received nutrient information and the recommended nutrient amount of a companion animal to generate nutrient excess or deficiency information; And an output module for receiving and outputting the nutrient excess or insufficient information.

In one embodiment, the information on the companion animal nutritional supplement includes nutrient content, intake method information according to age and weight, product composition information, functional nutritional ingredient information, basic nutritional ingredient information, ingredient safety information of raw materials, user reviews It may include at least one or more pieces of information.

In one embodiment, when there are a plurality of nutrients selected by the user, the output module may output comparison information of each nutrient.

In one embodiment, in the case of a plurality of nutrients selected by the user, the optimization module may generate nutrient excess or deficiency information by summing the nutrients included in each nutrient and determining the excess or deficiency of nutrients in comparison with the recommended nutrient amount of the companion animal. have.

In one embodiment, the optimization module uses the companion animal's nutrient information by using at least one companion animal information among the companion animal's species, weight, sex, age, health status, activity amount, type of feed, and feeding amount of the feed. You can determine the recommended amount.

At this time, feed information is stored in the nutrient information module, and when information on the type and amount of feed consumed by the companion animal is transmitted to the optimization module, the optimization module requests feed information to the nutrient information module and returns it. The recommended amount of nutrients for companion animals can be determined according to the type of animal feed and the amount of feed fed. In addition, the health status may be a result of analyzing at least one or more of hair, urine, and oral epithelial cells of the companion animal.

In one embodiment, the optimization module determines the recommended amount of nutrients for the companion animal based on the companion animal's weight and activity index, and the determination of the recommended amount of nutrients for the companion animal, the optimization module uses Equation 1 below. and nutritional factors (X) a nutritional factor (X) selected, and the ^selected-by multiplying the recommended dose of the selected relative to the 1000 kcal nutrient one can calculate the recommended dose of nutrient one nutrient.

[Equation 1]

In one embodiment, the optimization module evaluates the component stability (S _i ) of the nutrient selected by the user, and the component stability is Equation 2 below (however, EWG _a means a weight according to the EWG grade, n _a means the number of ingredients of the corresponding EWG grade among nutrients, TOXIN _b means the weight according to the toxicity grade, n _b means the number of ingredients of the corresponding toxicity grade among nutrients, and CANCER _c is the presence or absence of carcinogens. Means the weight according to, n _c means the number of raw materials that are carcinogens among the nutritional supplements, and T means the total number of raw materials contained in the nutritional supplement).

[Equation 2]

In one embodiment, the optimization module transmits nutrient excess or deficiency information to the nutrient information module, the nutrient information module determines a supplemental nutrient capable of solving the nutrient excess and deficiency, and the output module receives and outputs the supplementary nutrient information. can do.

In one embodiment, the optimization module determines an optimal nutritional intake amount so that the nutrient with the largest excess amount among the nutrient excess or shortage information corresponds to a reference value of the recommended nutrient amount, and the output module may transmit and output the optimal nutritional intake amount.

In this case, the optimization module may generate nutrient deficiency information in the case of an optimal nutrient intake amount, and the output module may receive and output nutrient deficiency information.

The optimal companion animal health management system according to an embodiment of the present invention includes a nutritional information module in which information on a nutritional supplement for a companion animal is stored, and the optimization module requests information on at least one nutritional supplement selected by the owner to the nutritional information module. , By comparing the received nutrient information and the recommended amount of nutrients of the companion animal, it determines the excess or deficiency of nutrients and transmits the nutrient excess or deficiency information to the output module, and the output module informs the owner of which nutrients are over or under. This allows owners to easily find suitable nutritional supplements for their pets.

Furthermore, in the optimal companion animal health management system according to an embodiment of the present invention, the optimization module analyzes nutrient excess or deficiency information for a plurality of nutrients selected by the owner, determines the intake amount of each nutrient, and transmits it to the output module. Inform the owner of the intake of each supplement. This allows owners to supply nutrients to their companion animals so that there is no excess or shortage of nutrients.

In addition, in the optimal companion animal health management system according to an embodiment of the present invention, the optimization module analyzes nutrient excess or deficiency information for a plurality of nutrients selected by the owner, selects another nutrient capable of solving the nutrient excess and shortage, and transmits it to the output module. , The output module informs the owner of the intake of each nutrient. In this way, the owner can easily meet the recommended amount of nutrients for the companion animal.

On the other hand, the optimal companion animal health management system according to an embodiment of the present invention is at least one of the companion animal species, weight, sex, age, health status, activity amount, type of feed, and feeding amount of the companion animal in the optimization module. Determines the recommended amount of nutrients for the companion animal using companion animal information, compares the information on a plurality of nutrients selected by the owner and the recommended amount of nutrients for the companion animal, determines the excess or deficiency of nutrients, and transmits the nutrient excess or deficiency information to the output module, The output module tells the owner what nutrients are over or under. This allows owners to easily find customized nutritional supplements for their pets.

Ultimately, through the optimal companion animal health management system according to an embodiment of the present invention, it is expected that more companion animals can become healthy and create an environment in which they can be happy with the owner.

On the other hand, even if it is an effect not explicitly mentioned herein, it is added that the effect described in the following specification and its provisional effect expected by the technical features of the present invention are treated as described in the specification of the present invention.

1 is a flowchart illustrating a method of optimizing a companion animal nutritional supplement using an optimal companion animal health management system according to an embodiment of the present invention.
2 is a method of optimizing a companion animal's nutritional supplement according to the determined nutrient recommended amount by using the companion animal optimal health management system according to an embodiment of the present invention, but using companion animal information This is a flow chart to illustrate.
3 is a flow chart for explaining a method of optimizing a companion animal nutritional supplement using the optimal companion animal health management system according to an embodiment of the present invention, and further determining a supplementary nutrient capable of resolving an excess or shortage.
4 is a flow chart illustrating a method of inputting new nutritional information into the optimal companion animal health management system according to an embodiment of the present invention.
5 to 15 are reference diagrams for explaining a method for a user (owner) to optimize a nutritional supplement required for his companion animal using an application implemented as an optimal companion animal health management system according to an embodiment of the present invention. .

In the description of the present invention, when it is determined that the subject matter of the present invention may be unnecessarily obscured as matters apparent to those skilled in the art with respect to known functions related to the present invention, a detailed description will be omitted.

The term "module" used in this document may include a unit implemented in hardware, software, or firmware, and may be used interchangeably with terms such as logic, logic blocks, parts, or circuits. The module may be an integrally configured component or a minimum unit of the component or a part thereof that performs one or more functions.

In this document, a "module" performs operations such as moving, storing, and converting data using a computing device such as a CPU or AP. For example, "module" or "node" may be implemented as a device such as a server, a PC, a tablet PC, or a smartphone.

This document describes an optimal companion animal health management system that enables consumers of companion animals to search for products optimized for their companion animals using the ingredient information of nutritional supplements. Such an optimal companion animal health management system may be provided in the form of a mobile application.

The purpose of the optimal companion animal health management system to be provided in this document is to be provided to users in a simple and clear form. This is because consumers do not purchase while studying the ingredient information for all products. As in the prior art, the process of manually entering and confirming information about the product of interest with keywords is actually a task that requires sufficient prior knowledge about the product, which is an inefficient consumption activity in which it is not possible to select the optimized product that the person wants from among numerous products. It is a process that is likely to lead.

Hereinafter, a companion animal optimal health management system according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a flowchart illustrating a method of optimizing a companion animal nutritional supplement using an optimal companion animal health management system 100 (hereinafter referred to as “health management system”) according to an embodiment of the present invention.

First, the health management system 100 includes an input module 10, an optimization module 20, a nutritional information module 30, and an output module 40. The functions and roles of each module will be described with reference to FIG. 1 along with the process of optimizing the nutritional supplement to be fed to the user's companion animal.

First, the user (the owner of the companion animal, P) selects a nutritional supplement through the input module 10 (S101). In the nutritional supplement information module 30 of the health management system 100, information on the companion animal nutritional supplement is stored. Among the companion animal nutritional supplements in which information is stored in this way, the nutritional supplement to be fed to the companion animal is selected. At this time, not only one nutritional supplement can be selected, but multiple nutritional supplements can be selected.

The problem is that when selecting a number of nutrients like this, it is necessary to calculate the excess or deficiency of certain nutrients. Because nutrients are composed of many types of vitamins, minerals such as zinc or calcium, and folic acid, biotin, taurine, etc. It is not easy to calculate the excess or deficiency of nutrients. And because there are so many types of nutritional supplements, it is not easy to find which nutritional supplement is suitable for your pet. It's like finding a needle on the sandy beach. However, a user who uses the health management system 100 only needs to select his or her favorite nutritional supplement.

When the user P selects a nutritional supplement, the input module 10 transmits nutritional selection information to the optimization module (S102).

The optimization module 20 requests information on the nutritional agent selected by the nutritional information module 30 (S103). As described above, the nutritional information module 30 stores information on the nutritional supplement for companion animals, where the information on the nutritional supplement for the companion animal means intake method information according to age and weight, product composition information, functional nutritional ingredient information, and basic nutrition. Refers to at least one of ingredient information, nutritional content, ingredient safety information, and user mood review information. Product composition information includes one or more information selected from brand, country of manufacture, formulation, taste, certification status, efficacy, and price information. In addition, the basic nutritional component information is characterized by including one or more information selected from crude protein, crude fat, minerals, and vitamins. Such information may have been quantified.

The nutritional supplement information module 30 transmits information about the requested nutritional supplement to the optimization module 20 (S104).

The optimization module 20 compares the received nutritional information and the recommended amount of nutrients of the companion animal to determine the excess or deficiency of nutrients (S105). Through this determination process, the optimization module 20 generates nutrient excess or shortage information. The nutrient excess or deficiency information refers to information on which nutrients were exceeded or insufficient when the user selected a nutrient based on the recommended amount of nutrients that the companion animal should consume per day. At this time, among the nutrients, water-soluble ones do not accumulate in the body, so nutrient shortage is a problem, and fat-soluble ones cause serious problems when overdose, so both nutrient deficiency and excess are problematic.

In the case of a plurality of nutrients selected by the user P, the nutrient excess or deficiency information is generated by dividing the cases into two cases. The first is to generate nutrient excess and deficiency information for each nutritional supplement. This is used when the user P wants to compare a plurality of nutritional supplements with each other. Second, by summing the nutrients included in each nutrient, the excess or deficiency of nutrients is determined in comparison with the recommended nutrient amount of the companion animal to generate nutrient excess or deficiency information.

On the other hand, the optimization module 20 may determine the component safety (S) of the Yangyang agent. That is, the optimization module 20 may evaluate the component safety level (S) for the product or products selected by the user. For such component safety (S), the first evaluation for the EWG grade, the second evaluation for the toxicity grade, and the third evaluation for carcinogens can be used. The EWG class is classified as high, medium, and low risk, and the toxicity class is also classified as high, medium, and low toxicity. Carcinogens can be divided into presence or absence. Information related to such first to third evaluations is stored in the nutritional information module 30.

The component safety (S _i ) of any one nutritional supplement is calculated using Equation 1 below.

[Equation 1]

Here, EWG _a is the weight according to the EWG grade, and n _a is the number of ingredients of the EWG grade among the nutritional supplements. TOXIN _b is the weight according to the toxicity class, and n _b is the number of ingredients of the toxicity class in the nutrient. CANCER _c is the weight according to the presence or absence of carcinogens, n _c is the number of carcinogens in the nutrient, and T is the total number of ingredients contained in the nutrient.

When calculated as a specific example, it is shown in Table 1 below.

At this time, the weight of the EWG grade and the toxicity grade may be set to be greater than the difference between the high and the middle difference between the middle and the low. This makes it possible to further clarify the safety of ingredients.

The component safety of each product in Table 1 above is calculated as follows.

For example, the component score of product #1 becomes {(4Х1) + (2Х4) + (1Х5)} + {(4Х1) + (2Х4) + (5Х1) + (30Х2) = 94, which is the total raw material. If we divide by the number 22 and multiply it by 100, the component safety (S ₁ ) is 23.4. In this way, the component safety level of product #2 (S ₂ ) is 57.14, the component safety level of product #3 (S ₃ ) is 100, and the component safety level of product #4 (S ₂ ) is calculated in this way. ₄ ) is 25, and the ingredient safety (S ₅ ) of product #5 is 20.18, indicating that product #3, which has a value closest to 100, is the safest nutrient.

Next, the generated nutrient excess or deficiency information is transmitted to the output module 40 (S106), and the output module 40 outputs nutrient excess or deficiency information (S107). At this time, information on the stability of ingredients may be transmitted together with information on nutrient excesses or shortages. In this case, when there are a plurality of nutrients selected by the user P, the output module 40 outputs comparison information comparing the selected nutrients with each other.

On the contrary, the optimization module 20 may determine an optimal nutrient intake so that the nutrient with the largest excess of the nutrient excess and shortage information corresponds to the reference value of the recommended nutrient amount, rather than simply generating the nutrient excess or shortage information. At this time, the output module 40 receives and outputs the optimal nutritional intake amount. The user (P) can solve the problem of nutrient excess by supplying nutrients to companion animals according to the optimal nutritional intake.

In addition, the optimization module 20 may also generate nutrient deficiency information when determining the optimal nutritional intake amount. The nutrient deficiency information may be transmitted to the user P through the output module 40 or may be directly transmitted to a company that produces a customized nutritional supplement.

The user (P) is able to make the companion animal healthier by using the health management system 100 of the present invention.

However, it is difficult to generalize the recommended amount of nutrients like humans because companion animals have many variables such as species, size, age, and sex. That is, the nutrient excess or deficiency information generated by using the generalized nutrient recommendations may not be suitable for individual companion animals.

Therefore, it is necessary to determine the recommended amount of nutrients required for each companion animal. The present invention has solved the problem according to the difference in the recommended amount of nutrients for each companion animal by using the health management system described in FIG. 2 below.

2 is a method of optimizing a companion animal's nutritional supplement according to the determined nutrient recommended amount by using the companion animal optimal health management system according to an embodiment of the present invention, but using companion animal information This is a flow chart to illustrate.

First, the user P inputs companion animal information through the input module 10 (S201). Companion animal information means at least one of the companion animal's species, weight, sex, age, health status, neutralization, activity amount, type of feed, and feeding amount of feed. Meanwhile, the health status may be configured such that a user requests an analysis of at least one of the companion animal's hair, urine, and oral epithelial cells, and the result is directly transmitted to the input module 10. At this time, the information on health status is the result of comprehensively grasping the nutritional intake status over a long period of time and reflecting the physiological changes of the companion animal's body.

When the user P inputs the companion animal information, the input module 10 transmits the companion animal information to the optimization module (S202).

If the companion animal information contains information on the type and amount of feed consumed by the companion animal and is transmitted to the optimization module 20, the optimization module 20 requests feed information to the nutritional information module 30 (S203-1), and the nutritional supplement information module 30 transmits the requested feed information to the optimization module 20 again. To this end, the nutritional information module 30 stores feed information.

The optimization module 20 uses the companion animal information to determine the recommended amount of nutrients for the companion animal (S204). For example, for companion animals with kidney failure, lower the recommended amount of sodium or protein among the recommended nutrients.

When calculating the recommended amount of nutrients for a companion animal based on the weight and activity index of the companion animal registered by the user, the following method can be used.

First, a step of selecting a nutritional coefficient (X) is performed. Nutrition coefficient (X) is determined using the companion animal's weight (W) and activity index (P). In particular, the nutritional coefficient (X) is selected using Equation 2 below based on the weight (W).

[Equation 2]

At this time, the activity index (P) is shown in Table 2 below.

Activity index (P) dog cat <4 months 3 2.5 5 to 12 months 1.8 2.3 Neutralization 1.8 1.4 Neutralization 1.6 1.2 Obesity (weight loss) 1.0 0.8

When the nutritional coefficient (X) is selected, the step of determining the recommended amount of nutrients is performed. The recommended amount of nutrients (N _D ) of any one nutrient (N) is determined using Equation 3 below.

[Equation 3]

Where N _R is It means the recommended amount of any one nutrient (N) selected based on 1000 kcal.

For example, the recommended amount of nutrient for arginine (N _R =2500 mg) in adult dogs with a weight of 3 kg and neutralized surgery is as follows. The nutrient coefficient (X) becomes X = (70Х(3+1) Х1.6)/1000 = 0.448. If the nutrient coefficient (N _D ) of arginine in adult dogs with a weight of 3 kg and undergone neutralization surgery is calculated, it can be seen that N _D =0.448Х2500 = 1120 mg.

Further, it is possible to generate nutrient excess or deficiency information (M) using the recommended amount of nutrients (N _D ). This can use Equation 4 below.

[Equation 4]

Here, N _i is the content of nutrients (N) contained in any one nutritional supplement. In the case of a plurality of nutrients, the nutrient excess and deficiency information (M) is calculated by adding up. When M exceeds 1, the content of nutrients (N) exceeds the recommended amount of nutrients, and when M is less than 1, it is less than the recommended amount of nutrients.

The optimization module 20 transmits the determined nutrient recommendation amount to the output module 40, and the output module 40 outputs the transmitted nutrient recommendation amount information (S206).

The user (P) can accurately grasp which nutrients are lacking in his companion animal through the nutrient recommended amount information, and can select a nutrient based on this. However, in such a case, it is virtually impossible to find one nutrient that will solve the lack of nutrients because the recommended amount of nutrients for each pet is different. In other words, you can choose multiple nutritional supplements, not just one.

At this time, the user who uses the health management system 100 only needs to select his or her favorite nutritional supplement without much trouble.

The user P selects a nutrient through the input module 10 (S207). When the user P selects a nutritional supplement, the input module 10 transmits nutritional selection information to the optimization module 20 (S208). The optimization module 20 requests information on the nutritional supplement selected by the nutritional information module 30 (S209). The nutritional supplement information module 30 transmits information about the requested nutritional supplement to the optimization module 20 (S210). The optimization module 20 compares the received nutritional information and the recommended amount of nutrients of the companion animal to determine the excess or deficiency of nutrients (S211) to generate nutrient excess or deficiency information. The generated nutrient excess or deficiency information is transmitted to the output module 40 (S212), and the output module 40 outputs nutrient excess or deficiency information (S213).

On the other hand, when the user P receives the nutrient excess or shortage information, it is necessary to find a method for solving the insufficient nutrients or the excess nutrients. The health management system 100 of the present invention can solve a problem based on such nutrient excess or shortage information.

3 is a flow chart for explaining a method of optimizing a companion animal nutritional supplement using the optimal companion animal health management system according to an embodiment of the present invention, and further determining a supplementary nutrient capable of resolving an excess or shortage.

First, it is the same as the above-described method to obtain the nutrient excess and deficiency information.

The user P selects a nutritional supplement through the input module 10 (S301). When the user P selects a nutritional supplement, the input module 10 transmits nutritional selection information to the optimization module 20 (S302). The optimization module 20 requests information on the nutritional supplement selected by the nutritional supplement information module 30 (S303). The nutritional supplement information module 30 transmits information about the requested nutritional supplement to the optimization module 20 (S304). The optimization module 20 compares the received nutritional information and the recommended amount of nutrients of the companion animal to determine the excess or deficiency of nutrients (S305) to generate nutrient excess or deficiency information. The generated nutrient excess or deficiency information is transmitted to the output module 40 (S306), and the output module 40 outputs nutrient excess or deficiency information (S307).

The user P requests supplementation to the input module 10 (S308). Then, the input module 10 requests supplementation to the optimization module 20 (S309). In some cases, steps S306 to S309 can be omitted. That is, when nutrient excess or shortage information is generated, a process of supplementing it may be performed immediately.

The optimization module 20 transmits nutrient excess or deficiency information to the nutritional supplement information module 30 (S310). If the optimization module 20 determines the optimal nutritional intake amount, it transmits nutrient deficiency information to the nutritional information module 30.

The nutrient information module 30 determines an additional (or alternative) nutrient that can fill the insufficient nutrients or an alternative nutrient that can lower the excess nutrients (S311), and transmits supplementary nutrient information to the output module 40 (S312) do. The output module 40 outputs supplementary nutritional information (S313).

However, new nutritional supplements are constantly released, and in order to select more accurate nutritional supplements for companion animals, new nutritional supplements must be updated in the nutritional information module 30.

4 is a flow chart for explaining a method of inputting new nutritional information to a health management system when a user discovers a new nutritional supplement.

When the user P finds a new nutritional supplement that is not recorded in the health management system 100, the new nutritional supplement information is inputted through the input module 10 (S401). At this time, although the user P may individually input the nutritional information, the character recognition technology of the image may be used.

The input module 10 transmits the new nutritional supplement information to the nutritional supplement information module 30 (S402). The nutritional supplement information module 30 adds new nutritional supplement information (S403), and transmits the added nutritional supplement information to the output module 40 (S404).

If the information on the added nutrient is correct, the process of adding a new nutrient is terminated. However, if there is a part to be modified, the user P inputs the correction item S406 through the input module 10, and the correction item is transmitted to the nutritional supplement information module 30 (S407). The nutritional supplement information module 30 corrects the nutritional supplement information according to the correction (S408), and transmits the corrected nutritional supplement information to the output module 40 (S408). The output module 40 outputs the corrected nutritional supplement information (S409).

In the above, an optimal companion animal health management system 100 according to an embodiment of the present invention has been described. Such a companion animal optimal health management system 100 may be implemented through a smartphone application or the like.

5 to 15 illustrate a method for a user to optimize a nutritional supplement required for his companion animal using an application (hereinafter referred to as'app') implemented as an optimal companion animal health management system according to an embodiment of the present invention These are reference maps for

First, referring to FIG. 5, a user who accesses the app faces a home screen. The home screen shows what nutritional supplements other users are interested in, and also tells you what nutritional supplements are newly registered.

Users who want to select a nutritional supplement select the category tab. 6 shows a screen of a category tab. The user selects the type of his companion animal, the function of the spiritual agent, and the necessary function, and is provided with the necessary nutrient among numerous nutrients. The nutritional supplements stored in the nutritional information module 30 of the health management system 100 may be stored with a tag for classifying such a category. Furthermore, as shown in FIG. 7, the user can further select the nutritional supplement he/she needs by using the filter.

When a user finds and clicks a favorite nutrient, screens as shown in FIGS. 8 and 9 are provided. Information about the selected nutritional supplement is provided.

Furthermore, when the user selects various nutrients, it is possible to compare them with each other as shown in FIG. 10. Most importantly, when various nutrients are selected, nutrient excess and deficiency information is provided through a graph to determine which nutrients are insufficient or exceeded, as shown in FIG. 11. It can be seen that the currently selected nutritional supplement for H is exceeded.

In addition, the user has his own management space as shown in FIG. 12. On this screen, the user can apply for a hair test to check the health status of his companion animal, and manage the nutritional supplement he is taking. For example, as shown in FIG. 13, by inputting the start and end dates and expiration date, as shown in FIG. 14, it is possible to know the nutritional supplement that the companion animal is taking or has taken. In addition, if more than two times a day is required by specifying the dosage time, nutritional supplements can be provided at regular times every day, and the rest period of some nutritional supplements that require attention when taking long-term use can be systematically managed.

Finally, the user can share other users' information through the review tab on the home screen.

As described above, the companion animal nutritional optimization method described in FIGS. 1 to 4 may be implemented as a program (or mobile application) including an executable algorithm that can be executed on a computer. The program may be provided by being stored in a non-transitory computer readable medium. Here, the non-transitory readable medium refers to a medium that stores data semi-permanently and can be read by a device, not a medium that stores data for a short moment, such as a register, cache, and memory. Specifically, the various applications or programs described above may be provided by being stored in a non-transitory readable medium such as a CD, DVD, hard disk, Blu-ray disk, USB, memory card, ROM, or the like.

Furthermore, the companion animal nutritional optimization method according to an embodiment of the present invention may store information on beauty and hygiene products in a nutritional information module, and provide an optimization method for beauty and hygiene products in the above-described optimal method. .

The scope of protection of the present invention is not limited to the description and expression of the embodiments explicitly described above. In addition, it is added once again that the scope of protection of the present invention may not be limited due to obvious changes or substitutions in the technical field to which the present invention pertains.

Claims (11)

As a companion animal optimal health management system that can determine the excess or deficiency of the recommended amount of nutrients in the nutritional supplement to be fed to the companion animal:
A nutritional supplement information module in which information about a companion animal's nutritional supplement is stored;
An optimization module that requests and receives at least one nutrient information selected by the user to the nutrient information module, and determines an excess or deficiency of nutrients by comparing the received nutrient information and the recommended nutrient amount of a companion animal to generate nutrient excess or deficiency information; And
Includes; an output module for receiving and outputting the nutrient excess or insufficient information,
The optimization module determines the recommended amount of nutrients for the companion animal based on the companion animal's weight and activity index,
The determination of the recommended amount of nutrients for the companion animal,
The optimization module selects the nutritional coefficient (X) using Equation 1 below, and the selected nutritional coefficient (X) An optimal health management system for companion animals that multiplies the recommended amount of daily nutrients selected on the basis of 1000 kcal to calculate the recommended amount of nutrients per day.

[Equation 1]

The method of claim 1,
Companion animal nutritional information includes at least one of nutrient content, intake method information according to age and weight, product composition information, functional nutrition ingredient information, basic nutrition ingredient information, ingredient safety information, and user review information. Companion animal optimal health management system comprising a.
The method of claim 1,
When there are a plurality of nutrients selected by the user, the output module outputs comparison information of each nutrient.
The method of claim 1,
In the case of a plurality of nutrients selected by the user, the optimization module combines the nutrients contained in each nutrient to determine the excess or deficiency of nutrients in comparison with the recommended nutrient amount of the companion animal to generate nutrient excess or deficiency information.
The method of claim 1,
The optimization module determines the recommended amount of nutrients for the companion animal by using at least one companion animal information among the companion animal species, weight, sex, age, health status, neutralization, activity amount, type of feed, and feeding amount of feed. The optimal health management system for companion animals.
The method of claim 5,
Feed information is stored in the nutrient information module,
When information on the type and amount of feed consumed by the companion animal is transmitted to the optimization module, the optimization module requests and transmits the feed information to the nutritional information module, and is returned according to the type of feed and the amount of feed of the companion animal. An optimal health management system for companion animals that determines the recommended amount of nutrients for animals.
The method of claim 1,
The optimization module transmits nutrient excess or deficiency information to the nutrient information module,
The nutrient information module determines a supplemental nutrient capable of solving an excess or shortage of nutrients,
Companion animal optimal health management system in which the output module receives and outputs supplementary nutritional information.
The method of claim 1,
The optimization module determines the optimal nutrient intake amount so that the nutrient with the maximum excess amount among the nutrient excess or shortage information corresponds to the reference value of the recommended nutrient amount
Companion animal optimal health management system in which the output module receives and outputs the optimal nutritional intake.
The method of claim 8,
The optimization module generates nutrient deficiency information in case of an optimal nutrient intake,
The optimal companion animal health management system for the output module to receive and output nutrient deficiency information.
As a companion animal optimal health management system that can determine the excess or deficiency of the recommended amount of nutrients in the nutritional supplement to be fed to the companion animal:
A nutritional supplement information module in which information about a companion animal's nutritional supplement is stored;
An optimization module that requests and receives at least one nutrient information selected by the user to the nutrient information module, and determines an excess or deficiency of nutrients by comparing the received nutrient information and the recommended nutrient amount of a companion animal to generate nutrient excess or deficiency information; And
Includes; an output module for receiving and outputting the nutrient excess or insufficient information,
The optimization module evaluates the component stability (S) of the nutrient selected by the user,
The ingredient stability is Equation 2 below (however, EWG _a means the weight according to the EWG grade, n _a means the number of ingredients of the corresponding EWG grade among nutrients, and TOXIN _b means the weight according to the toxicity grade. And n _b means the number of raw materials of the corresponding toxicity grade among nutrients, CANCER _c means the weight according to the presence or absence of carcinogens, n _c means the number of raw materials that are carcinogens among nutrients, and T is the nutritional supplement. Companion animal optimal health management system calculated using (meaning the total number of ingredients contained in).

[Equation 2]

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