KR-20260065170-A - SYSTEM AND METHOD FOR RESETTING CUSTOM JEWELRY

Abstract

A customer-customized jewelry resetting system and method are disclosed. A customer-customized jewelry resetting system according to an embodiment of the present invention includes a user terminal device that requests a jewelry resetting service by uploading a jewelry image of jewelry to be reset, and a jewelry setting server that provides a jewelry resetting service in response to the jewelry resetting service request. The jewelry setting server includes a network interface unit that receives the jewelry resetting service request, a feature extraction unit that analyzes the uploaded jewelry image to extract key features, a customer data collection unit that collects customer data from the user terminal device, a design generation unit that trains a design generation model with jewelry design trends and generates a new design for the jewelry using the trained design generation model, an option generation unit that generates design options for the new design generated based on the extracted key features and collected customer data, and a control unit that controls the transmission of the new design and design options to the user terminal device through the network interface unit.

Inventors

• 김소원

Assignees

• 김소원

Dates

Publication Date

20260508

Application Date

20241101

Claims (6)

1. A user terminal device that requests a jewelry resetting service by uploading a jewelry image of the jewelry to be reset; and A jewelry setting server that provides a jewelry resetting service in accordance with the above jewelry resetting service request; The above jewelry setting server is, A network interface unit that receives the above jewelry resetting service request; A feature extraction unit that analyzes the uploaded jewelry image above to extract key features; A customer data collection unit that collects customer data from the above-mentioned user terminal device; A design generation unit that trains a design generation model with jewelry design trends and generates a new design for the jewelry using the trained design generation model; An option generation unit that generates design options for the new design generated above based on the extracted key features and the collected customer data; and A customer-customized jewelry resetting system characterized by including a control unit that controls the transmission of the new design and design options to the user terminal device through the network interface unit.
2. In Article 1, A customer-customized jewelry resetting system characterized by the above feature extraction unit analyzing the jewelry image to identify the shape, material, type of gemstone, and condition of the jewelry.
3. In Article 1, A customer-customized jewelry resetting system characterized by the above customer data including the customer's jewelry purchase history, preferred style, preferred color, and preferred gemstone type.
4. In Article 1, It further includes a design monitoring unit that monitors and collects the latest jewelry design information, and A customer-customized jewelry resetting system characterized in that the design generation unit, when the latest jewelry design information is collected by the design monitoring unit, trains the design generation module with the latest jewelry design information.
5. In Article 1, A customer-customized jewelry resetting system characterized by further including a designer matching unit that provides a list of jewelry designers and performs a matching operation with a designer selected through the jewelry designer list.
6. A step of requesting a jewelry resetting service by uploading a jewelry image of the jewelry to be reset on a user terminal device; In the jewelry setting server, when the jewelry resetting service request is received, a step of analyzing the uploaded jewelry image to extract key features; A step of collecting customer data from the user terminal device in the jewelry setting server; A step of generating a new design for the jewelry using a design generation model that has learned jewelry design trends in the jewelry setting server; A step of generating design options for the newly generated design based on the extracted key features and the collected customer data in the jewelry setting server; and A customer-customized jewelry resetting method characterized by including the step of transmitting the new design and design options from the jewelry setting server to the user terminal device.

Description

Customer-Customized Jewelry Resetting System and Method {SYSTEM AND METHOD FOR RESETTING CUSTOM JEWELRY} The present invention relates to a customer-customized jewelry resetting system and method, and more specifically, to a customer-customized jewelry resetting system and method that enables customer-customized design during the jewelry resetting process by utilizing artificial intelligence. Gems are hard, rare minerals and semi-minerals with high aesthetic value that are primarily used as jewelry after processing. Gems commonly used in modern times include emeralds, rubies, sapphires, and diamonds, while other gems may be classified as semi-precious stones. Additionally, depending on public preference, organic materials such as pearls, coral, and amber can also be considered gems. Jewelry is not a consumable item to be replaced or discarded after a certain period of use, but rather something to be used for a long time, passed down through generations. Depending on the type of jewelry, its value may increase compared to the time of purchase, thereby enhancing its collectible value; consequently, there is a characteristic where the quantity of previously sold jewelry products accumulates among customers almost unchanged and continues to grow. Gems are mostly used as the primary material for jewelry. Jewelry comes in a wide variety of types, including crowns, necklaces, earrings, bracelets, and rings, and each type features a diverse range of designs. The designs of jewelry featuring gemstones change with the times. Consequently, while customers purchase new jewelry, there is a growing demand to redesign and reuse existing pieces due to the annual increase in the resale value of jewelry. To reset existing jewelry, it is common practice to visit a jewelry retailer to obtain an estimate for the reset design and costs. However, visiting a retailer in person is a very cumbersome process that requires time and effort, and since estimates vary significantly from company to company, it is difficult for customers to trust these retailers. In order to eliminate the inconvenience of customers having to search for and visit jewelry retailers in person, a service providing quotes for jewelry resetting online has been launched, but it is criticized for not properly reflecting consumer tastes as it only recommends a limited number of designs and designers. FIG. 1 is a network configuration diagram of a customer-customized jewelry resetting system according to an embodiment of the present invention. FIG. 2 is a block diagram of a jewelry setting server according to an embodiment of the present invention, FIGS. 3a to 3f are exemplary diagrams of a UI provided in a customer-customized jewelry resetting system according to an embodiment of the present invention, and, FIG. 4 is a flowchart illustrating a customer-customized jewelry resetting method according to one embodiment of the present invention. The above objects, other objects, features, and advantages of the present invention will be easily understood through the following preferred embodiments associated with the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided to ensure that the disclosed content is thorough and complete and to ensure that the spirit of the invention is sufficiently conveyed to those skilled in the art. In this specification, when a component is described as being on another component, it means that it may be formed directly on the other component or that a third component may be interposed between them. Additionally, in the drawings, the thicknesses of the components are exaggerated for the effective description of the technical content. Furthermore, when it is stated that the first element (or component) operates or is executed on (ON) the second element (or component), it should be understood that the first element (or component) operates or is executed in the environment where the second element (or component) operates or is executed, or operates or is executed through direct or indirect interaction with the second element (or component). Where any element, component, device, or system is described as including a component consisting of a program or software, it should be understood that, even without explicit mention, that element, component, device, or system includes hardware (e.g., memory, CPU, etc.) or other programs or software (e.g., an operating system or a driver required to run the hardware) necessary for the program or software to execute or operate. Furthermore, unless otherwise specified regarding the implementation of any element (or component), it should be understood that the element (or component) may be implemented in software, hardware, or in any form that combines both software and hardware. Furthermore, the terms used herein are for describing the embodiments and are not intended t