KR20070059350A - Menu diagnosis system and method thereof - Google Patents

Abstract

A system and a method diagnosing a menu are provided to offer an optimal menu by correctly/efficiently diagnosing suitability of the menu formed by a user for a predetermined period, and reporting a diagnosis result. An interface(10) receives menu information, which comprises at least one menu provided for a set period, to be diagnosed. The first diagnoser diagnoses at least one of a calorie ratio, a nutrition ratio, menu duplication, color combination, and taste combination of the menu information. The second diagnoser diagnoses at least one of recipe distribution, food material distribution, the menu duplication, economical efficiency, and preference of menu information. A diagnosis result generator(30) generates and provides a diagnosis result for the menu information based on the result of the first and second diagnoser. A menu generator provides a plurality of menus, and generates the menu for the set period by combining the menus according to selection of the user.

Description

Diet diagnosis system and method

1 is a structural diagram of a diet diagnosis system according to an embodiment of the present invention.

FIG. 2 is a detailed structural diagram of the diagnostic processor shown in FIG. 1.

3 is a view showing an embodiment of a diet diagnosis system according to an embodiment of the present invention.

4 is an overall flowchart of a diet diagnosis process according to an embodiment of the present invention.

5 is a detailed flowchart of a first diagnosis process according to an embodiment of the present invention.

6 is an exemplary view showing a distribution diagram of the main material measured according to an embodiment of the present invention.

7 is a detailed flowchart of a second diagnosis process according to an embodiment of the present invention.

8 is a diagram showing an example of a recipe distribution measured according to an embodiment of the present invention.

9 is an exemplary view illustrating a unit price check result according to an exemplary embodiment of the present invention.

10 is an exemplary view showing the preference of the diet measured according to an embodiment of the present invention.

11 is an exemplary view illustrating a diagnosis result for each item according to an exemplary embodiment of the present invention.

12 is an exemplary view illustrating a diagnosis result of calorie composition ratio according to an embodiment of the present invention.

13 is an exemplary view showing a result of nutrient composition diagnosis according to an embodiment of the present invention.

14 is an exemplary view showing a result of diagnosing redundancy of ingredients and recipes according to an embodiment of the present invention.

15 and 16 are exemplary views showing a result of diagnosis of redundancy of color and taste according to an embodiment of the present invention.

The present invention relates to a diet diagnosis system and a method thereof, and more particularly, to a system and method for diagnosing a diet for a predetermined period and reporting the result.

A diet is a table listing the types and order of dishes, and is called a table or a menu. For convenience of explanation, each of the dishes is referred to as a "menu", and those including such a plurality of menus are referred to as "diet".

In general, depending on how the diet is composed of the food to be eaten and the resulting nutrients are different, in recent years, interest in the optimal diet, along with health concerns.

These diets play an important role in group meals, mainly in military meals such as the military, industry, schools, dormitories, hospitals, social welfare facilities and prisons. In a group food service, a licensed dietitian prepares a diet for a period of time. In this case, the dietitian should prepare a diet considering the nutritional side, economic side, cooking side, and working side, but the period of the diet should be usually set to 8 to 12 days so that the same food is not provided on the same day. In addition to the nutritional value of the 'recommended amount', the purchase and management of food ingredients must be thoroughly carried out so as not to exceed the shelf life or rot.

However, in group meals such as schools, hospitals, and industry that currently provide group meals, one or two nutritionists will take care of all of them. As the cooking process is different, there are many differences in the taste of food.In addition, by converting nutrition and calories of food ingredients, it is not scientific and systematic in nutrition management and food management, which is the recommended amount of nutrition for Koreans. It implies

In addition to such a group food service in recent years, the demand for a balanced diet is increasing at home, and in order to meet such demands, services for preparing a diet on the Internet have been provided.

The prior art related to the composition of the diet is a restaurant system that can provide a health diet by the integrated health information management system through the Internet disclosed in Korean Patent Application Publication No. 2002-4926. The system is formulating a diet based on the analysis results of experts based on health information from individual diagnostic records and health consultation records, and ordering food for these diets.

Another technique is disclosed in the Republic of Korea Patent Application Publication No. 2004-49738 "interactive customized food supply system and method between the supplier and the orderer using the Internet". This prior art selects and registers a menu of the most necessary basic diet for each disease, disease or constitution by a provider with expertise in diet and the like for each disease and condition, and among the registered menus It is disclosed that it is possible to provide food by the most suitable diet.

However, these techniques only describe the provision of a suitable diet for a given condition (e.g. personal health condition, illness, disease, etc.) and do not provide any means of diagnosing compliance with an already formulated diet. not.

Another technique is a "group meal management system using the Internet" disclosed in Korean Patent Application Publication No. 2003-17664. In order to manage group meals, the conventional technology is used to manage the ordering of food ingredients from the ordering of the ingredients. All tasks are processed in a batch to improve work efficiency, while providing standard diet table, standard recipe, and nutrition analysis table, making diet management and recipe management more convenient and simple, standardizing menu management, logistics and purchasing management. It is disclosed a method for making it easy.

However, these prior arts describe only methods for standardization and efficiency of management tasks for group meals, and provide no specific method for diagnosing whether a predetermined diet composed by a nutritionist or the like satisfies optimal conditions. not.

Therefore, the technical problem to be achieved by the present invention is to solve the conventional problems, to accurately and efficiently diagnose the suitability of a predetermined diet configured by the user to provide an optimal diet.

According to an aspect of the present invention, a method for diagnosing a diet includes: a) receiving diet information to be diagnosed, wherein the diet information comprises at least one menu provided during a setting period; b) obtaining first evaluation data by performing a first diagnosis process of diagnosing a diet based on a combination of ingredients constituting a menu based on the diet information; c) obtaining second evaluation data by performing a second diagnosis process of diagnosing a diet based on the set period based on the diet information; And d) generating and providing a diagnosis result for the diet information based on the first and second evaluation data.

The first diagnosis process may include: calculating a calorie composition ratio from the diet information to diagnose a calorie composition state; Diagnosing nutrient composition by calculating nutrient composition for each nutrient from the diet information; Diagnosing redundancy of recipes of each menu from the diet information; Diagnosing redundancy of ingredients used in each menu from the diet information; Diagnosing the harmony of colors of the ingredients used in each menu from the diet information; The method may include at least one of diagnosing harmony of taste of each menu from the diet information.

The second diagnostic process may further include determining a recipe of each menu from the diet information, and measuring a distribution for each recipe during the set period based on the determination result; Determining food ingredients of each menu from the diet information, and measuring distribution of food ingredients during the set period based on the determination result; Determining whether the same menu or a similar menu of the menu exists in a set section based on each menu from the diet information, and diagnosing redundancy of each menu based on the menu; Calculating a unit price for each menu from the diet information, determining whether the calculated unit price satisfies the set unit price, and diagnosing the economics of the diet based on the result; And diagnosing how much of the menus satisfies the preference information by comparing the menu information with the preference information set with each menu.

In addition, the diet diagnosis system according to another aspect of the present invention, the interface unit for receiving the diet information to be diagnosed-the diet information is made up of at least one menu provided during the set period; A first diagnosis processor configured to diagnose at least one of calorie composition ratio, nutrient composition ratio, recipe redundancy, color harmony, and taste harmony with respect to the diet information; A second diagnostic processor configured to diagnose at least one of a recipe distribution map, a food distribution map, a menu redundancy, economic feasibility, and preference with respect to the diet information; And a diagnosis result providing unit configured to generate and provide a diagnosis result for the diet information based on the results of the first and second diagnosis processing units.

Hereinafter, exemplary embodiments of the present disclosure will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present disclosure. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In addition, when a part is said to "include" a certain component, this means that it may further include other components, except to exclude other components unless otherwise stated.

1 is a view showing the structure of a diet diagnosis system according to an embodiment of the present invention.

As shown in FIG. 1, the diet diagnosis system 100 (also referred to as a “diagnosis system” for convenience of description) according to an embodiment of the present invention may include an interface unit 10 for internal and external interfaces, and a set item. Diagnostic processing unit 20 for diagnosing a diet for each, and a diagnostic result providing unit 30 for generating a diagnostic result report based on the diagnostic results for each item, the storage unit 40 stores a variety of data for the diagnosis of the diet (40) More).

The interface unit 10 interfaces with various types of external devices, provides the first interface unit 11 for inputting various types of data provided from the external device, and provides various data including a diagnosis result of the system to the external device. The second interface unit 12 may be included. When the system provides a diagnostic service through a network, a swap server or a web server may be included in the interface unit 10. In addition, the interface unit 10 may perform an interface function between internal and external components of the diagnostic system 100.

The diagnosis processor 20 diagnoses a predetermined diet for each predetermined item. 2 illustrates a detailed structure of a diagnostic processor according to an exemplary embodiment of the present invention.

In the embodiment of the present invention, the items to be considered when diagnosing a diet include nutrition, redundancy, and sensuality. In addition, there are other items such as economics based on the price of foods, and preferences of customers for the diet.

Nutrition is the process by which organisms ingest substances from the outside to make body components and generate energy in the body to maintain life phenomena (maintaining life, growing, maintaining health, etc.). Diagnosis is performed by nutrients, which are the nutrients that are effective in the body, and the amount of energy that is generated in the body.

Redundancy is intended to diagnose how diverse the diet's characteristics are, without overlapping, specifically how evenly distributed the recipes, ingredients (especially the main ingredients), and how overlapping the menus are. It also diagnoses whether the recipes or ingredients overlap.

Sensory refers to the degree of stimulation of the sense organs, especially the degree of stimulation of taste. Here, the color harmony of the ingredients of the diet is checked and the taste harmony is also checked in order to diagnose the sensory functionality of the diet.

In addition, since the unit price of the ingredients can not be considered when preparing a diet, the embodiment of the present invention diagnoses the economics according to whether or not the unit price of the material satisfies the highest unit price or the lowest unit price as other items.

In addition, even if a given diet optimally satisfies nutrition, redundancy, and sensuality, users may not like it. Therefore, an embodiment of the present invention examines the preferences of the users for the diet provided to date, and diagnoses the preferences of the users for the predetermined diet based on the collected information.

Therefore, in the embodiment of the present invention, as described above, in order to perform the diagnostic processing for each setting item that is considered for the optimal diet, as shown in FIG. The diagnosis unit 22 is divided into a sensory diagnosis unit 23, an economic diagnosis unit 24, and a preference diagnosis unit 25.

The nutrition diagnosis unit 21 includes a first diagnosis module 211 for diagnosing the calorie composition of the diet, and a second diagnosis module 212 for diagnosing the nutrient composition of the diet.

The redundancy diagnosis unit 22 includes a third diagnostic module 221 for diagnosing a recipe distribution map, a fourth diagnostic module 222 for diagnosing a distribution map of food ingredients, a fifth diagnostic module 223 for diagnosing redundancy of a menu, a recipe The sixth diagnostic module 224 for diagnosing redundancy, and the seventh diagnostic module 225 for diagnosing redundancy of food ingredients.

In addition, the sensory diagnosis unit 23 includes an eighth diagnostic module 231 for diagnosing color harmony and a ninth diagnostic module 232 for diagnosing harmony of taste.

Meanwhile, the storage unit 40 may include a first storage unit 41 in which various diagnostic data for efficient and accurate diagnosis processing of the diagnostic processing unit 20 having such a structure are stored, and a diagnosis result of the diet. It can be divided into two storage 42.

The first storage unit 42 is a foodstuff database 411 that stores calorie information, nutrient information, color information, taste information, and purchase price information by food ingredient or cooking type, and a preference database 412 that stores preference information. It includes.

The food material database 411 may be classified and implemented as a database storing calorie information, a database storing nutrient information, a database storing color information, a database storing taste information, and a database storing purchasing unit price information. Herein, a plurality of such information is implemented in a form that is included in one database, but is not limited thereto.

The calorie information indicates calorie information generated per predetermined unit, and includes information such as calories per 100 g of beef or calories per 100 g of beef bulgogi. In particular, it may include information on the composition ratio of the calories generated by the sugar, protein, lipid of the total calories generated per predetermined unit.

Nutrient information indicates how many nutrients such as protein, minerals, vitamins, fats, carbohydrates (sugars) are contained per unit by food or cooking type, and color information indicates that the ingredients or dishes are green, yellow, red, white, etc. It shows what color system it consists of. In addition, the taste information indicates what kind of taste the dishes of the menu have, for example, what kind of sourness, sweetness, or salty taste. In the case of having a plurality of flavors, the most representative flavor may be selected and used.

The purchase price information indicates current market price information distributed for each food ingredient, or price information required for cooking a predetermined dish. The market price information may include the highest price, the lowest price, or the average price, and may be updated every predetermined period.

The preference database 412 stores information on a preferred diet for each user characteristic using the diet, where the user characteristic includes region, gender, age, and the like. The regional preference information may include preference information for each business place, especially in the case of group meals.

The second storage unit 42 stores a diagnosis result for each diagnosed diet, and the diagnosis result includes evaluation data for each diagnosis item, diagnosis date and time, and the like.

On the other hand, the diet diagnosis system 100 having such a structure may further include a diet generator 50 to configure a predetermined diet, while performing a diagnosis on the already generated diet. The diet generator 50 may select and combine a menu constituting a diet, and may select each menu separately according to ingredients or recipes of a corresponding dish. In particular, it is possible to organize the diet on a daily basis (breakfast, lunch, dinner) for a predetermined period (for example, 2 weeks, 3 weeks, one month, etc.), and the recipe of the selected menu (recipe: the amount of ingredients to be cooked) , Storage, recipes, and how to eat deliciously). Methods of constructing a diet are well known and thus detailed descriptions are omitted here. In this case, the interface unit 10 may perform a function of providing the diet data provided from the diet generator 50 to the diagnosis processor 20.

The diet diagnosis system according to an embodiment of the present invention having a structure as described above may be implemented in various forms to perform a diet diagnosis. For example, a menu diagnosis service may be performed by predetermined user terminals connected through a network. Can provide. 3 shows an embodiment of a diet diagnosis system. As illustrated in FIG. 3, the diet diagnosis system 100 is connected to a plurality of user terminals 310, 320, 330... Through various types of networks, such as a wired network, a telephone network, the Internet, and a wireless communication network. Collectively), a predetermined diet may be provided, and a diagnosis service for the diet may be provided. In addition, the diagnostic system may be implemented in various forms to perform a diet diagnosis.

Next, a diagnosis method of the diet diagnosis system according to an embodiment of the present invention will be described in detail.

Figure 4 shows the overall flow of the diet diagnosis process according to an embodiment of the present invention.

The diagnosis system 100 may perform a diagnosis on a self-generated diet through the diet generator 50 or a diagnosis on a predetermined diet provided from an external device through the interface unit 10.

In an embodiment of the present invention, a first diagnosis process of performing a diet diagnosis based on a combination of ingredients constituting a diet and a second diagnosis process of performing a diet diagnosis based on a period of configuring a diet are performed. Here, the first diagnostic process may be performed first, but for convenience, the second diagnostic process may be performed first.

As shown in FIG. 4, when diet information corresponding to a predetermined period for diagnosis, that is, diet data is input (S100 and S200), the diagnosis processing unit 20 performs a first diagnosis process (S300). The first diagnosis process is performed for each item such as calorie composition ratio, nutrient composition amount, recipe duplication, food redundancy, color harmony, and taste harmony. In general, calories and nutrients required for a person's activity are calculated on a daily basis, so that calories, nutrients, redundancy, color and taste harmony are calculated on a daily basis, and the final evaluation results are synthesized by the calculated daily unit results. It can also be configured.

5 illustrates a first diagnosis process according to an embodiment of the present invention in detail.

As shown in FIG. 5, the first diagnostic module 211 of the nutrition diagnosis unit 21 calculates a ratio of sugars, proteins, and lipids in calories, that is, energy, calculated from diet data, and calculates the calculated ratios. It is determined whether the total energy charge required for the human body occupies the set ratio (S310). For example, according to each menu, the calories by sugars, proteins, and lipids included therein are respectively measured (S311), and the measured values are added to sugars, proteins, and lipids, respectively, and the total amount of sugars in the total calories of the diet. The composition ratio, the total composition ratio of proteins, and the total composition ratio of lipids are calculated (S312). Then, the degree of satisfaction of each of the calculated total composition ratio and the set ratio according to the recommended amount of energy is compared, and evaluation data according to the comparison result is generated and stored in the second storage unit 42 (S313 to S314). Here, the set ratio may be set to, for example, 60 to 65% of sugar, 15 to 20% of protein, and 20% of lipid.

In addition, the second diagnostic module 212 calculates a nutrient composition amount from the diet data, and compares and evaluates whether each calculated nutrient composition amount satisfies the set amount of recommended nutrients (S320). For example, the amount of nutrients such as protein, sugar, fat, vitamins, minerals, etc. is measured in each menu, and the measured values are summed for each nutrient to calculate a constituent of each nutrient for the diet. (S321 to S322). Then, the calculated constituents of each nutrient are compared with the set recommended amount, and the evaluation data according to the comparison result is stored in the second storage unit 42 (S323 to S324).

In addition, the sixth diagnostic module 224 of the redundancy diagnosis unit 22 diagnoses the redundancy of the recipes so that the cooking process is not complicated by shifting the recipes (S330). Here, the recipe includes a method of cooking ingredients such as washing, cutting, cooking, snapping, and soaking to prepare a dish. In addition, the recipe may include recipes such as roasting, stewed foods, raw vegetables, herbs, stir-fry, deep-fry, pancake, and soup. . The sixth diagnosis module 224 determines what are the recipes of the menus constituting the diet data, respectively (S331), calculates how many times each recipe is used, and determines the redundancy of the recipes based on the calculated results. The evaluation data is stored in the second storage unit 42 (S332 to S333).

In addition, the seventh diagnosis module 225 of the redundancy diagnosis unit 22 diagnoses redundancy of the food ingredients (S340). When certain ingredients are duplicated, problems such as excessive intake or lack of specific nutrients may occur and may also affect the taste, so that the ingredients may be used in various ways without being duplicated. Specifically, by distinguishing the main ingredients and the subsidiary materials constituting the cooking for each menu (S341), it is calculated how many times each main ingredients and subsidiary materials were used. 6 shows a distribution diagram of the main materials calculated according to the food ingredients. The redundancy of the food ingredients is judged on the basis of the result of the distribution of the materials and the like, and the evaluation data is stored in the second storage unit 42 (S342 to S343). On the other hand, based on the results of the material discrimination can be inquired the distribution of the main ingredients used in the subsequent diet, in this case can be provided query results as illustrated in FIG.

In addition, the eighth diagnostic module 231 of the sensory diagnostic unit 23 measures the degree of harmony of the colors of the ingredients used in the menu constituting the diet (S350). The taste of people may vary depending on the color of the food, and in addition, when a variety of foods are provided in a variety of colors, the taste of people may be further promoted. Therefore, to provide a more colorful diet, and to this end, by determining the overall color according to the color of the ingredients used for each menu or the cooking state of the cooking specifically (S351), and classified into red, white, green series, etc. In other words, how many menus of a color corresponding to each series exist, that is, the number of times of use is measured (S352). The color harmony is determined based on the measured result, and the evaluation data is stored in the second storage 42 (S353).

In addition, the ninth diagnostic module 232 determines the taste of the menu constituting the diet to measure the degree of harmony (S360). Specifically, it is determined by classifying which series of the dish belongs to a salty, spicy, sour, etc. menu, and how many dishes of taste corresponding to each series exist, that is, measuring the number of times of use (S361 to S362). . Then, the degree of harmony of the taste is determined based on the measured result, and the evaluation data is stored in the second storage unit 42 (S363).

As described above, in the first diagnosis process, the calorie composition ratio, nutrient composition content, recipe redundancy, food redundancy, color harmony, and taste harmony of the diet are analyzed, and the result is stored in the second storage unit. Each of them is stored at 42. The first, second, sixth, seventh, eighth, and ninth diagnostic modules 211, 212, 224, 225, 231, and 232 performing the first diagnostic process may be referred to as a "first diagnostic processor."

In addition, the diagnostic processing unit 20 performs a second diagnostic process. 7 is a detailed flowchart of a second diagnosis process according to an embodiment of the present invention. The second diagnosis step performs a recipe such as recipe distribution, main ingredient distribution, menu redundancy, high / low unit price check, and preference check.

As shown in FIG. 7, the third diagnostic module 221 of the redundancy diagnosis unit 22 measures the distribution of recipes during a period (for example, three weeks) in which a diet is configured, and determines a particular recipe during the period. This is to be evenly distributed without being biased (S410). 8 illustrates a recipe distribution measured according to an embodiment of the present invention. As shown in (a) of FIG. 8, the recipe distribution map measures the frequency of use of a specific recipe used for cold water on a daily basis and measures the reflectance of various recipes based on the measured number of recipes (S411 to S413). In addition, as shown in (b) of FIG. 8, the recipes used in accordance with the breakfast, lunch, and dinner menus were measured on a daily basis, and based on the results, the total recipes used for each of breakfast, lunch, and dinner during the composition of the diet were used. The number of times is calculated and the ratio used is measured.

The fourth diagnostic module 222 measures the distribution of the food ingredients used in the diet so that no particular material is biased (S420). Specifically, it is determined whether the main ingredients of each menu of the diet are meat, pork, seafood, etc., the number of times of use of each main ingredient is measured based on the determination result, and the distribution of each main ingredient is calculated based on the result (S421 to S423).

In addition, since the same dish is repeatedly provided to reduce the appetite of people, the fifth diagnosis module 223 diagnoses whether the same menu or similar menu is duplicated in the diet within a predetermined period of time (S430). For example, when determining whether a menu is redundant, it is determined whether the same or similar dishes are included within 5 days before and after the date when the menu is provided, and the menus included in the menu are checked and stored. (S431 to S432).

In addition, even if the diet consists of nutritious or tasty dishes, it cannot be a good diet if it exceeds the budget range. When a dish made of ingredients is provided, the variation of the menu becomes severe and the fairness falls. Therefore, the economic diagnosis unit 24 checks the unit prices of the ingredients used to make each menu constituting the diet so that the ingredients of the appropriate standard can be used (S440). In this case, the economics diagnosis unit 24 checks the unit price of the main material among the food ingredients constituting the predetermined menu, and then determines whether the set maximum unit price or the minimum unit price is exceeded (S441 to S442). The unit price to the highest unit price) is exceeded (S443). In this way, it is possible to determine whether the set unit price is satisfied based on the unit price of the main material, or measure the unit price of the entire dish (the sum of the unit prices of the ingredients used to make the dish) and determine whether the set unit price is satisfied. 9 is an exemplary view showing a unit price check result according to an exemplary embodiment of the present invention. In detail, FIG. 9 is a graph showing unit costs (measurement unit costs) required to configure menus of one time zone of breakfast, lunch, and dinner for each day, and it is easy to know the difference between the unit cost and the appropriate unit price.

In addition, even if it is nutritious or tastes good, people prefer different foods. Therefore, the preference diagnosis unit 25 measures the satisfaction state of the people for the diet based on the previously collected information of the people (S450). That is, by comparing the menus included in the diet with preferred menus according to the age, gender, or regional characteristics of the people provided with the diet (S451 to S452), the diet includes some people's preferred menus. The measurement is made and the result is stored in the second storage unit 42 (S453). 10 illustrates a preferred state of the diet measured according to an embodiment of the present invention. As illustrated in FIG. 10, the preference is divided into a plurality of grades (eg, A to D grades), and a corresponding grade is assigned to each menu to score the score. Each score calculated as described above may be collectively processed to indicate a preference state of the corresponding diet.

The third, fourth, and fifth diagnostic modules 221, 222, and 223 performing the second diagnostic process, the economical diagnostic unit 24, and the preference diagnosis unit 25 may be referred to as a “second diagnostic processor”.

As described above, the results for each item obtained by performing the first and second diagnostic procedures are stored in the second storage unit 42, and as shown in FIG. 4, the diagnostic result providing unit 30 is then On the basis of the result data stored in the second storage unit 42 generates an itemized diagnosis result for the diet (S400). In other words, the ratio of calorie composition, nutrient composition, recipe redundancy, food redundancy, color harmony, taste harmony, recipe distribution, main ingredient distribution, menu redundancy, high / low unit price check, preference check, etc. Generate diagnostic results for each item. For example, the diagnosis result may be classified into upper, middle, and lower states according to how much the predetermined score calculated for each item satisfies the reference score.

And it provides a diagnosis result as necessary (S600). An example of the diagnostic results provided in FIG. 11 is shown. As illustrated in FIG. 11, the result statuses of "good", "good", "need review", etc. corresponding to the upper, middle, and lower parts of the diagnostic result are displayed for each item. In addition, opinions are provided for the comprehensive diagnosis of the diagnosis results for each item.

In addition, detailed diagnosis results for each item may be provided. 12 to 16 illustrate detailed diagnosis results provided for each item.

FIG. 12 illustrates a diagnosis result of a calorie composition ratio. As illustrated in FIG. 12, the diagnosis result of the calorie composition ratio measured for each diet constituting breakfast, lunch, and dinner by date for a predetermined period of time is determined by a predetermined grade ( Example: Good, check). And when the user selects a Chinese diet on a specific time of day, for example, June 8, 2005, the caloric composition ratio for the selected diet is displayed graphically by sugar, protein, and lipid as shown in FIG. 12. And the measured result is displayed along with the recommended ratio so that it is easy to know how much the calorie composition ratio of the diet satisfies the recommended amount.

FIG. 13 shows a diagnosis result of nutrient composition. As illustrated in (a) and (b) of FIG. 13, the amount of each nutrient included in the diet is displayed while the recommended amount of each nutrient is displayed together. Make it easy to know how much nutrients are in your diet.

14 shows the result of diagnosing the degree of redundancy of the ingredients. As illustrated in FIG. 14, the diagnosis result of the food redundancy measured for each diet constituting breakfast, lunch, and dinner by date for a predetermined period of time is displayed in a predetermined grade (eg, good or check). And when the user selects a Chinese diet on a specific time of day, for example, June 2, 2005, as shown in Figure 14, the redundancy of the ingredients for the selected diet, the menu name (recipe name) using the ingredients and the ingredients in duplicate To be concrete. In addition, an indication of whether the food material is a main ingredient or a subsidiary material, and an additional indication of the number of times the food material is used repeatedly may be used to determine how much of the food ingredient is used.

In addition, the overlapping status of the recipes may be displayed, and in this case, as shown in FIG. 14, the redundancy of the recipes may be displayed as a grade for each diet, and specific redundancy for a specific diet may be separately displayed. At this time, it is possible to know how many menus use the recipe by displaying the number of times of overlapping use while displaying a predetermined recipe and a plurality of menu names using the same.

15 and 16 show the results of diagnosing the redundancy of color and taste. As illustrated in FIG. 15, for a predetermined period of time, the result of diagnosis of color redundancy (color harmony) measured for each diet constituting breakfast, lunch, and dinner by date is given a predetermined grade (eg, goodness, check). Indicated by. When a user selects a Chinese diet on a specific time of day, for example, June 24, 2005, the color redundancy of the selected diet is displayed as shown in FIG. Correspondingly, the number of overlaps of the corresponding color may be additionally displayed to determine how many menus of the color series are used.

In addition, as illustrated in FIG. 16, the redundancy of taste (combination of taste) with respect to the diet for a predetermined time is indicated by a predetermined grade (eg, goodness, check). When the user selects a Chinese diet on a specific time of day, for example, on June 8, 2005, the taste redundancy for the selected diet is displayed as shown in FIG. It may be displayed in correspondence with each other, and the number of overlaps of the flavors may be displayed so that the number of the menus having the flavors may be known.

As described above, the diagnosis is performed for each item for each of the predetermined diets, and the results are provided, so that the diet preparer can adjust the menu of the diet based on the results, thereby configuring a more optimal diet.

On the other hand, after the diet diagnosis is performed and the diet is adjusted according to the result, the order for purchasing the ingredients corresponding to the diet may be automatically made. Such automatic orders may be connected to a predetermined device (for example, a food supply server or an order agency server) through a network (telephone network, the Internet, etc.) to process the order.

The diet diagnosis method including each process described above may be implemented in the form of a program stored in a computer-readable recording medium. The recording medium may include any kind of recording device that stores data that can be read by a computer. For example, a CD-ROM, a magnetic tape, a floppy disk, and the like may be used. Included is implemented in the form of).

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

According to this embodiment of the present invention it can be easily known whether the suitability for a predetermined diet. In addition, the diagnosis is made for each item of the diet and the result is provided, so that it is easy to know which part of the diet is lacking and which part is excessive. Therefore, it is possible to construct an optimal diet based on the diagnosis results.

Claims (8)

a) receiving diet information to be diagnosed, wherein the diet information comprises at least one menu provided during a setting period; b) obtaining first evaluation data by performing a first diagnosis process of diagnosing a diet based on a combination of ingredients constituting a menu based on the diet information; c) obtaining second evaluation data by performing a second diagnosis process of diagnosing a diet based on the set period based on the diet information; And d) generating and providing a diagnosis result for the diet information based on the first and second evaluation data Diet diagnosis method comprising a. The method of claim 1 The first diagnostic process is Diagnosing a calorie composition state by calculating a calorie composition ratio from the diet information; Diagnosing nutrient composition by calculating nutrient composition for each nutrient from the diet information; Diagnosing redundancy of recipes of each menu from the diet information; Diagnosing redundancy of ingredients used in each menu from the diet information; Diagnosing the harmony of colors of the ingredients used in each menu from the diet information; Diagnosing the harmony of taste of each menu from the diet information; Diet diagnosis method comprising at least one of. The method of claim 1 The second diagnostic process Determining a recipe of each menu from the diet information, and measuring a distribution for each recipe during the set period based on the determination result; Determining food ingredients of each menu from the diet information, and measuring distribution of food ingredients during the set period based on the determination result; Determining whether the same menu or a similar menu of the menu exists in a set section based on each menu from the diet information, and diagnosing redundancy of each menu based on the menu; Calculating a unit price for each menu from the diet information, determining whether the calculated unit price satisfies the set unit price, and diagnosing the economics of the diet based on the result; And Diagnosing how much of the menus satisfies the preference information by comparing the menu with the preference information set by the menu information; Diet diagnosis method comprising at least one of. A storage medium having recorded thereon a program for executing the method according to any one of claims 1 to 3 on a computer. An interface unit receiving diet information to be diagnosed, wherein the diet information comprises at least one menu provided during a setting period; A first diagnosis processor configured to diagnose at least one of calorie composition ratio, nutrient composition ratio, recipe redundancy, color harmony, and taste harmony with respect to the diet information; A second diagnostic processor configured to diagnose at least one of a recipe distribution map, a food distribution map, a menu redundancy, economic feasibility, and preference with respect to the diet information; Diagnostic result providing unit for generating and providing a diagnostic result for the diet information based on the results of the first and second diagnostic processing unit Diet diagnosis system comprising a. The method of claim 5 It provides a plurality of menus, and further comprising a diet generation unit for generating a diet for the set period by combining the menus according to the user selection, And the first and second diagnosis processing units generate the diagnosis through the diet generation unit and perform the diagnosis based on the diet information provided through the interface unit. The method according to claim 5 or 6 Various diagnostic data for diagnosing the diet information, wherein the diagnostic data is stored in correspondence with at least one of calorie information, nutrient information, color information, taste information, and purchase price information for each ingredient or menu. A first storage unit; And A second storage unit for storing the evaluation data for each diagnostic item of the first and second diagnostic processing unit Diet diagnosis system further comprising. The method of claim 7, The diagnostic data further includes a preference information which is information on a preferred menu for each user characteristic.

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