KR20050021391A - Personal Color Building System - Google Patents

Abstract

PURPOSE: A system for setting personal colors based on a principle of the Five elements and the colorimetric is provided to offer a result to increase probability between human being and color on color interface construction of an information technology field. CONSTITUTION: The system is divided into a basic information inputting module(A), a system menu module(B) for processing/treating data, and application modules(c,d,e) for applying the processed data to an individual system. The processed data is extracted/stored/processed by respectively installing a database to each module. The data applied to the individual system as the personal color construction is applied as a personal color interface, such as a screen color, color-related contents, and an image color, fit to a feature of each system.

Description

Personal Color Building System

The technology applied to the present invention constructs a system by computer technology. Its technologies include database, network, data mining, and programming module technologies, enabling personal color building systems. Various theories in the implementation have raised the reliability of data extraction through the theoretical system that has been academically verified in five elements, statistics, and chromatics. Based on the reliability of data extraction, basic data was extracted from the construction system of the present invention and the optimal color could be constructed by utilizing academic theory and data processing techniques through the extracted data. In the prior art, five elements (5, 行) used the basic properties of five elements (木, 火, 土, 金, 水) to combine the data technology using only the principle of win-win and the relationship. In the past, colorism is a meaning of color itself, and in many cases, it remained only in theoretical implementation in computer systems. However, the present invention applies the elements of the five elements to the harmonization principle, applies them to specific data, derives new data values, and builds source data to create conditions for creating new data through the derived data values. It has the form of a system. The present invention is a technique for providing a clue that can lead to another invention rather than the end of the invention with a personal color construction system.

The core of the technical task of the present invention was to extract a system of oriental philosophy and science into reliable data, and to prepare a system that can be processed and utilized on the basis of empirical proof of Western science through the extracted data. As a key task for this purpose, data extraction and construction through harmonization principle of five elements, color scheme based on color scheme, color CRM by user's data implementation, personal color construction Emphasis was placed on implementing optimal color interfaces and extracting data mining using data implemented by modules. The key element of the technology is that it is possible to predict the information on the individual's color in advance and analyze the information about the color experience by computerizing the harmony system of five elements and color theory. Through this, by applying it to the field of personal color interface, the system is implemented so that an individual can effectively acquire information or make an optimal color implementation proposal for the individual when communicating with an object. It is also providing a foundation for implementing color CRM through data mining as the scale of DB based on such individual color implementation.

For the purpose of realizing the above object, the configuration of the system is representative of the module part A according to the basic information input as shown in FIG. 1 and the module part B of the system menu for processing the data and the processed data separately from the system. It is divided into the module part (C) applied to. In order to operate the modules, each module has a DB to extract, store and process the data processed by the module. In the configuration of the present invention, the module-specific description of the steps prior to DB accumulation, and the scheme applied to the individual system through the developed module. Data applied to individual systems through personal color construction are applied as personal color interface such as screen coloration, color related content, image color, etc. according to the characteristics of each system.

Representative diagram Although the input method of the personal information input portion 11 of FIG. 1 may vary according to the characteristics of the individual system application module unit C, the representative diagram details the module portion A according to the basic information input of FIG. 1. As shown in FIG. 2, the essential items to be entered must be provided to the system as a year of birth, month, day, and hour (A1). And the information request device to increase the reliability of the information through the additional survey (A2). The system inputs and processes the date information A3 from the system itself in addition to the information input by the user. After receiving the primary information, the birth year, month, day, hour A1 and date information A3 of the user are converted into five rows by the five conversion module A4. The converted five-point information is replaced by a five-color module A7, and divided into supplementary color and reserved color data and stored in a DB.

The five-point conversion module A4 extracts eight and six five-fold elements from the five elements of the five elements from the date of birth, month, day, hour A1 and date information A3, respectively. This is because two errors are extracted from each of year, month, day and hour. The number of five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements of the five elements. The excess part should be ruled by a different stigma, which fills this gap and complements the dynamics that govern the excess with other elements of the stigma, and the complementary color in color. This also applies to the six elements of the five elements of a date falsification. Table 1 shows the above explanation.

[Table-1 Five Elements Extraction Process]

The principle of supplemental misunderstanding is explained through the relationship between coexistence and epidemic, and the principle that the excess is governed and fills up with the lack is the dynamics of the five misinteractions according to the coexistence and epidemic relation of misperception. Table 2 is a five-point map that expresses the coexistence relationship and five-pole relationship of five elements and shows that they are harmonized through cooperation and tension between five elements. This principle is applied to the foundation of personal color construction system using the principle of coexistence, cooperation between the two countries and harmony.

                   [Table-2 Five Maps]

The user's five-point information DB A5 and the date five-point information DB A6 are converted into five colors by the five color conversion module A7. This is specified in Table 3 as part of the basic nature of the misunderstanding. Colors are extracted based on Table-3, and the application of the principles of coexistence and mutual cooperation and coordination in tension as described above is applied to the program as complementary and retained colors for colors (A7). In Figure 2, we extract the data for member's five colors and today's five colors.

                       Table-3 Fail Table

In addition to the user's basic information (A1) and today's date information (A3), the colors obtained through the survey of colors (A2) to reflect the portion of the preferred color obtained by the user's experience are the basic colors. Some of the dog colors and 14 colors including 12 colors and 2 achromatic colors are stored in the DB, and the value is represented as basic data for applying to the module part (B) of the system menu in FIG. Have. In addition, the correlation between the preferred color through the questionnaire and the user's false colors (including the retained color and the supplemental color) is continuously valued.

Representative view A detailed view of the module unit B of the system menu of FIG. 1 will be described in detail with reference to FIG. 3. Data for the basic colors obtained through FIG. 2 are classified into menu types according to user selections to provide data. The menu is divided into four categories. The first allows the user to select a color (B1). The selected color is braked by the color scheme B5 in the form of service required by the individual system. The colors presented are 14 colors, including 12 color rings and 2 achromatic colors, providing the same colors as in the above color survey. The second is the natural supplemental color (B2), which extracts the color to be supplemented to the user by the user's birth year, month, day, and hour, and makes the color serviced to the individual system through the color matching engine (B5). The third is a system that provides users with today's recommended color (B3) compared to today's five colors based on the color information to be supplemented to the user. The fourth compares the biorhythm with today's recommended color of the data user of the third menu, and when the user selects a color from the first menu, the biorhythm value of the day is matched with the selected color. The system automatically extracts the color recommended by the system (B4) through comparative analysis between the existing five-color information and biorhythms and biorhythm analysis according to the user's selection, and provides the color to the individual system through the color matching engine (B1). The data that can be obtained through the color scheme B5 can be obtained from the palette and color scheme data for each menu color. In the color scheme, color schemes are divided into similar, identical, complementary colors, and contrast, and data obtained by each color scheme is stored in the DB 17 individually.

Representative diagram In FIG. 1, the image color data DB 18 for each menu pre-classifies and stores images according to colors based on 12 colors and 2 achromatic colors used in a color survey. Images are usually produced in primary and secondary colors, which are pre-stored in each individual color classification based on the primary colors. This operation is intended to provide image information together with color in the module unit C applied to the system.

Representative diagram In FIG. 1, the module unit C applied to the system is divided into a web page C1, an operating system C2, and a mobile C3 part. This is because the above color data can be applied and driven for each system. In the case of the web page C1, the screen color, image skin, background color, and text color may be changed through the color information. Since it is divided into a color application section and an image application section, it can be applied to the web selectively or mixedly to build an optimal color interface for an individual. In the case of the operating system C2, if the above color data of the personal color building system is applied, the foundation for constructing the most suitable interface for the individual user is prepared. In the operating system, the application of the screen color scheme is composed of text color, background color, title bar, and so on. In the case of mobile (C3) has the advantage that can provide all services applied in the web and the operating system. Mobile is not limited to mobile phones. The generic name of the wireless handheld terminal enables the construction and presentation of an optimal system suitable for individual users in the construction of color interfaces between devices and people.

In the case of system recommendation color, it establishes and presents the correlation between biorhythm, erroneous color, and user's choice color step by step, so that users can find colors close to user's emotion along with color change according to user's emotion. Has the advantage.

The present invention is expected to have many effects in the construction of color interfaces in the IT field. In addition, through the personal color construction system, it is possible to bring a result that increases the probability of the person and color. It can be positioned as a system that provides clues to find and provide the optimal color suitable for the individual, rather than applying the characteristics of color to the unspecified majority in the application of various fields through color. The utilization of the primary data, the processed secondary data, and the accumulated data through the personal color construction system is valuable as data that can function as a source for cognitive and emotional engineering throughout the industry. . In addition, it can contain data that provides clues to identify and utilize the characteristics of color and the relationship between individuals as a method of color psychology and as a psychiatric treatment.

The present invention has the significance of converting the academic theory of the East and the West into data applicable to practical field as suggested above. It is expected to be a small proposal in the future as an application of Oriental philosophy and science as data.

1 is a general flow diagram of a personal color building system as a representative view

2 is a flow chart of generating basic color data according to customer information

Fig. 3 Flow chart of optimized color data generation for customer selection

4 is a flow chart serviced on the Web

5 is a flow chart serviced on the operating system

Figure 12 12 color ring and achromatic color classification

Tone classification to be used for color scheme

8 color scheme

Figure 9 Survey

Claims (9)

Personal color information construction system that extracts the five elements of the date by inputting the date information using the principle of five elements, extracts the supplemental and retained five elements, and then changes the five elements to five colors Complementary errors are those that are recommended in the misunderstandings obtained through basic personal information (birth, month, day, hour) and date information. Personal color information construction system that applies and provides the theory that supplemental misunderstanding is insufficient or governs excessive based on the principle of misunderstanding. A personal color information construction system that obtains color palette and color scheme data based on color theory obtained from paragraphs 1 and 2 based on color theory theory (same, similar, contrast, complementary). A personal color information construction system which obtains color palette and color scheme data according to a user's selection and a questionnaire. Data obtained by Paragraphs 3 and 4 obtains individual individual color information DB of individual when it is based on personal information input, and personal color information that obtains color information of individual date from DB when it is based on date information input Building system. The color that is recommended to the user today is insufficient or excessive due to the principle of misunderstanding by combining the user's own misleading color and today's misleading color. It is a personal color information construction system that suggests how to extract recommended colors by applying the affinity principle of five elements. The system recommendation color is a combination of the user's biorhythm value, the value of Clause 7, and the color information according to the user's choice. The system recommendation color is analyzed and stored in the DB by changing the color information according to the change of the biorhythm. Personal color information construction system provided by DB based on data. The data of DB obtained by 4, 5, 6 and 7 are applied as color interface to web, computer & communication operating system, mobile (wireless communication terminal and attached S / W generic name). The color interface part is a personal color information construction system required for efficient information delivery and effective screen composition. Personal color information construction system that builds a new DB through classification, prediction, and data processing of users through the DB established by Clauses 5, 6, and 8.