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종이접기와 키리가미 이론에 기반한 3차원 T-자형 다이폴 안테나 설계
김도현(Dohyun Kim),김경득(Gyoungdeuk Kim),정현민(Hyunmin Jeong),최우혁(Woohyeok Choi),하노겸(Nohgyeom Ha),황명하(Myeongha Hwang),김상길(Sangkil Kim) 한국전자파학회 2021 한국전자파학회논문지 Vol.32 No.8
본 논문은 종이접기와 키리가미 이론을 응용하여 단일 평면기판에 접을 수 있는 3차원 T-자형 다이폴 안테나를 설계했다. 종이접기와 키리가미 기술의 2차원 공간을 3차원으로 매핑하는 이론을 기반으로 하여 Lamina Emergent Torsional(LET) 관절 구조를 0.5 mm 두께의 FR4 기판에 적용하였으며, 단일 기판에 인쇄된 T-자형 다이폴 안테나를 접어서 세울 수 있도록 설계했다. 제안하는 T-자형 다이폴 안테나는 마이크로스트립 전송선로의 전기적 커플링을 통해서 급전되어 20 %의 비대역폭(2.7~3.3 GHz)을 가지며, 상대적으로 높은 이득(6.5 dBi)을 가진다. In this study, the design of a 3D foldable T-shaped dipole antenna inspired by origami and kirigami theory is presented. The origamiand kirigami-inspired techniques map 2D to 3D space. Moreover, the lamina emergent torsional (LET) joint is designed to fold the planar structure. The proposed antenna, including the LET joint, is printed on a planar 0.5 mm thick FR4 substrate. The proposed antenna is fed by a capacitively coupled microstrip line to achieve a 20 % fractional bandwidth (2.7~3.3 GHz), with a measured antenna gain value of 6.5 dBi.
볼류매트릭 촬영 기반 6DoF VR 콘텐츠 생성 및 고도화
유상현(Sanghyun Yoo),유미옥(Miohk Ryoo),김명하(Myeongha Kim),송인규(Inkyu Song) 대한전자공학회 2021 대한전자공학회 학술대회 Vol.2021 No.6
Volumetric capture technology has been a vital part of immersive media design. In this study, we propose a design and implementation of a 6DoF (6 Degree of Freedom) virtual reality contents with volumetric captured characters and computer graphic-based backgrounds. After presenting the comparison of different volumetric video methods, we describe the design process that led to an immersive interactive virtual reality system with real picture-based characters. The installation further explores the role of volumetric captured assets and computer graphic based backgrounds in immersive media contents.
Design and Verification of a Miniaturized Multifunctional Transmitarray Unit Cell for the S-Band
kgd0406@pusan.ac.kr,Hwang, Myeongha,LEE, InGon,Kim, Sangkil 한국전자파학회 2023 Journal of Electromagnetic Engineering and Science Vol.23 No.6
In this paper, a miniaturized multifunctional unit cell structure of a transmitarray operating at S-band and its verification method using a waveguide structure is presented. The unit cell of a multifunctional transmitarray antenna is a critical component because it controls the phase and polarization of an incident wave. The proposed unit cell consists of three main parts: an Rx antenna, a Tx antenna, and a control circuit for phase and polarization. The performance of the designed unit cell is verified by a rectangular waveguide structure. The waveguide structure feeds an electromagnetic wave propagating in a TE10 mode to a 1 × 2 unit cell array to verify polarization and phase shifting capability of the unit cell. The phase shifting and polarization conversion capabilities of the proposed unit cell are directly measured by the radiation patterns and polarization of the transmitted wave.