• 대한기계학회논문집
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• 제18권2호
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• pp.479-491
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• 1994

Discrete vortex method was applied for simulating an active control of turbulent leading- edge separation bubble. The leading-edge separation zone was perturbed by a time-dependent sinusoidal perturbation of different frequencies and levels. In order to describe the local sinusoidal perturbation at the separation point, a source pulsation vortex technique was proposed. The present two-dimensional vortex simulations were qualitatively compared with the experimental results for a blunt circular cylinder, where perturbation was introduced along the square-cut leading edge of the cylinder $(Kiya et al.^{(6,7)}).$ It was found that the reattachment length attained a minimum point at low levels of perturbation and two minima at a moderate higher perturbation frequency. The effects of local perturbation on the evolution of leading-edge separation bubble were scrutinized by comparing the perturbed flow with the natural flow. These comparisons were made for the distributions of mean velocity and its velocity fluctuations, intermittency and wall velocity. The motions of instantaneous reattachment in the space-time domain were demonstrated, which were also compared with the experimental findings. In order to investigate the reduction mehanism of reattachment length in the separation bubble, various cross-correlations for velocity and pressure and the relevant convection velocities were evaluated. It was observed that the convection velocity was closely associated with its corresponding pulsationg frequency.

• 대한기계학회논문집
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• 제19권4호
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• pp.1134-1147
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• 1995

POD (proper orthogonal decomposition) is applied to turbulent leading-edge separation bubble to extract coherent structures. A two-dimensional leading-edge separation bubble is simulated by discrete-vortex method, where a time-dependent source forcing is incorporated. Based on the wealth of numerical data, POD is applied in a range of the forcing amplitude ( $A_{o}$ = 0, 0.5, 1.0 and 1.5) and forcing frequency (0 .leq. $f_{F}$H/ $U_{\infty}$.leq. 0.3). It is demonstrated that the structures of POD have noticeable changes with local forcings. In an effort to investigate the mechanism of decreasing reattachment length, dynamic behaviors of the expansion coefficients and contributions of the eigenfunctions of POD are scrutinized. As the forcing amplitude increases, the large-scale vortex structures are formed near the forcing amplitude increases, the large-scale vortex structures are formed near the separation point and the flow structures become more organized and more regular, accompanying with the reduction of reattachment length. By further inverstigation of POD global entropy, it is seen that the reattachment length is closely linked to the degree of organization of the flow structures.es.s.

• 방송공학회논문지
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• 제21권2호
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• pp.169-179
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• 2016

오늘날 UHDTV (Ultra-High-Definition TV) 시대에 사용될 멀티미디어 부호화기로 MPEG-H에 대한 표준화가 진행되고 있다. 향후 방송용 오디오 콘텐츠는 채널 기반 오디오 콘텐츠에서 진화하여 객체 기반 오디오 콘텐츠까지도 포함하게 될 예정이다. 이에 따라, 채널 기반 오디오 콘텐츠의 객체 기반 오디오 콘텐츠로의 유기적인 변환이 필요한 실정이다. 본 논문에서는 이러한 유기적인 변환을 실현 가능하게 할 수 있는 비균등 선형 마이크로폰 어레이 기반의 음원분리 기법을 제안한다. 제안된 기법은 주어진 어레이 배치에 따라 채널간의 시간차를 분석하고, 분석된 시간차에 따라 주파수별로 특정 방위각에 위치한 입력 오디오 신호의 spectral magnitude를 예측한다. 이후, azimuth와 width 파라메타를 조정함으로써 객체 오디오 생성을 위한 음원을 분리한다. 제안된 음원분리 기법의 성능을 평가하기 위하여 객관적 음원분리 지표 및 분리정확도를 측정하였고, 최소 분산 무손실 응답 빔형성기와 독립 성분 분석 기법 등 기존 음원분리 기법과의 그 성능을 비교하였다. 비교 결과, 제안된 기법이 기존 음원분리 기법들에 비하여 우수한 음원분리 성능을 보이는 것을 알 수 있었다.