• Title/Summary/Keyword: 3D 콘텐츠 제작 공정

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A Study on the State-of-the-Art of 3D Printers (3D 프린터의 활용 및 현황 고찰)

  • Choi, Eun-Ji;Kim, Sang-A;Bae, Ji-Yoon;Kwon, Yeon-Ju;Lee, Kang-Hee
    • Proceedings of the Korean Society of Computer Information Conference
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    • 2013.07a
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    • pp.385-388
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    • 2013
  • 본 논문에서는 3D 프린터의 다양한 활용분야를 소개한다. 3D 프린터의 원래의 목적은 상품을 내놓기 전 시제품을 만들기 위해서였으나 최근 들어 그 활용분야가 공업, 의료, 실생활 분야로 넓혀지고 있다. 공업 분야에서는 한 장씩 레이어를 쌓아가는 3D 프린터의 장점을 이용해 보다 정밀하고 세밀한 공정이 가능해 진다. 이러한 특성은 기존의 방식보다 진행시간을 5~10배 이상 단축시켜 제품개발에 소요되는 비용과 노력을 절감하는 뛰어난 효율성을 보여준다. 의료분야에서는 3D모형물을 그대로 제작할 수 있기 때문에 인간의 신체와 보다 흡사한 보형물을 만들 수 있다. 나아가 3D프린터가 상용화 된다면 판매사가 제공하는 3D 콘텐츠를 사용자가 쉽게 이해하고 이에 따른 피드백을 받아 빠르게 제품생산에 이용할 수 있어 상품에 대한 만족도를 높일 수 있게 된다.

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A study about the problems and their solutions in the production process of 3D character animation using optical motion capture technology (옵티컬 모션캡쳐 기술을 활용한 3D 캐릭터 애니메이션에서 제작과정상 문제점 및 해결방안에 관한 연구)

  • Lee, Man-Woo;Kim, Hyun-Jong;Kim, Soon-Gohn
    • Proceedings of the Korea Contents Association Conference
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    • 2006.11a
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    • pp.831-835
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    • 2006
  • Motion capture means the recording of movement of objects such as human beings, animals, creatures, machines, etc in a form applicable to computer. Since the motion capture system can be introduced to the fields where realistic movement of human beings and animals, which cannot be attained with an existing key frame method is required, large scale is necessary or economical burden exists, it has a merit and possibility of new expression. For these reasons, this method is increasingly used in the field of digital entertainment such as movie, TV, advertisement, documentary, music video, etc centering around the game. However, in spite of such an advantage, problems such as too much advance preparation work in digital image expressions using motion capture, marker attachment, compensation of motion data, motion retargeting and lack of professional human resources, etc. are becoming a prominent figure. Accordingly, this study intends to suggest the way of more effective production of motion capture digital image through finding the problems and their draft possible solutions in the production process based on the image production examples using motion capture.

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Study on 3D Printer Suitable for Character Merchandise Production Training (캐릭터 상품 제작 교육에 적합한 3D프린터 연구)

  • Kwon, Dong-Hyun
    • Cartoon and Animation Studies
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    • s.41
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    • pp.455-486
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    • 2015
  • The 3D printing technology, which started from the patent registration in 1986, was a technology that did not attract attention other than from some companies, due to the lack of awareness at the time. However, today, as expiring patents are appearing after the passage of 20 years, the price of 3D printers have decreased to the level of allowing purchase by individuals and the technology is attracting attention from industries, in addition to the general public, such as by naturally accepting 3D and to share 3D data, based on the generalization of online information exchange and improvement of computer performance. The production capability of 3D printers, which is based on digital data enabling digital transmission and revision and supplementation or production manufacturing not requiring molding, may provide a groundbreaking change to the process of manufacturing, and may attain the same effect in the character merchandise sector. Using a 3D printer is becoming a necessity in various figure merchandise productions which are in the forefront of the kidult culture that is recently gaining attention, and when predicting the demand by the industrial sites related to such character merchandise and when considering the more inexpensive price due to the expiration of patents and sharing of technology, expanding opportunities and sectors of employment and cultivating manpower that are able to engage in further creative work seems as a must, by introducing education courses cultivating manpower that can utilize 3D printers at the education field. However, there are limits in the information that can be obtained when seeking to introduce 3D printers in school education. Because the press or information media only mentions general information, such as the growth of the industrial size or prosperous future value of 3D printers, the research level of the academic world also remains at the level of organizing contents in an introductory level, such as by analyzing data on industrial size, analyzing the applicable scope in the industry, or introducing the printing technology. Such lack of information gives rise to problems at the education site. There would be no choice but to incur temporal and opportunity expenses, since the technology would only be able to be used after going through trials and errors, by first introducing the technology without examining the actual information, such as through comparing the strengths and weaknesses. In particular, if an expensive equipment introduced does not suit the features of school education, the loss costs would be significant. This research targeted general users without a technology-related basis, instead of specialists. By comparing the strengths and weaknesses and analyzing the problems and matters requiring notice upon use, pursuant to the representative technologies, instead of merely introducing the 3D printer technology as had been done previously, this research sought to explain the types of features that a 3D printer should have, in particular, when required in education relating to the development of figure merchandise as an optional cultural contents at cartoon-related departments, and sought to provide information that can be of practical help when seeking to provide education using 3D printers in the future. In the main body, the technologies were explained by making a classification based on a new perspective, such as the buttress method, types of materials, two-dimensional printing method, and three-dimensional printing method. The reason for selecting such different classification method was to easily allow mutual comparison of the practical problems upon use. In conclusion, the most suitable 3D printer was selected as the printer in the FDM method, which is comparatively cheap and requires low repair and maintenance cost and low materials expenses, although rather insufficient in the quality of outputs, and a recommendation was made, in addition, to select an entity that is supportive in providing technical support.