http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
신승제,Shin, Seung-Je 한국군사과학기술학회 2007 한국군사과학기술학회지 Vol.10 No.2
This report presents the test technique using optic thermal sensor for the HERO evaluation of equipment installed EED. The calibration method of EED-thermal sensor assembly is explained by relation between the current in bridge wire and voltage in thermal sensor. And the HERO test and evaluation method is indicated based on MIL-STD-464A and MIL-STD-331C. The safety and reliability levels of EED-thermal sensor assembly are evaluated when exposed in the electromagnetic environment.
신승제(Seung-Je Shin ),김환우(Whan-Woo Kim) 한국항공우주학회 2018 韓國航空宇宙學會誌 Vol.46 No.8
이 논문에서는 정밀유도 포탄의 성능향상을 위한 유도기법을 제안하였다. 본 논문에서 제안하는 기법은 탄의 운동특성분석 없이 탄도와의 오차를 최대한 줄여 탄약의 표적오차를 줄이기 위해서 고안한 기법이다. 이 기법은 탄약의 회전 및 세차운동으로 발생하는 탄내 장착 관성센서의 출력 변동폭을 줄이기 위해 신호처리 기법으로 많이 사용되는 이동평균필터 기법을 적절히 응용한 것으로 관성센서 출력값을 보정하는 것이 목적이다. 단순히 3차원 유도조종 기법을 적용한 경우와 개선기법을 포함하여 적용한 기법의 성능을 비교하였으며, 명확한 성능개선을 확인하였다. 이 기법의 적용으로 유도탄과는 달리 가혹한 환경조건 및 불규칙한 운동 특성을 가지는 포발사 탄약의 탄착 정확도가 개선되는 것을 확인하였다. In this paper, we propose a method to improve the performance by guidance technique and applying it to the precision guided ammunition. The proposed method is a technique designed to reduce the target error of ammunition by reducing the projectile error without analyzing the motion characteristics of the shot. This technique is applied to the moving average filter technique which is widely used as signal processing technique to reduce the fluctuation of the output of the inboard mounting inertial sensor caused by the rotation and the coning motion of the ammunition. In order to compare the performance of the applied technique including the simple 3D guided control technique and the proposed improvement technique. It is confirmed that the application of this technique improves the accuracy of impact of the cannon - launched ammunition with severe environmental conditions and irregular motion characteristics unlike the missile.
양창섭,정현주,신승제,Yang, Chang-Seob,Chung, Hyun-Ju,Shin, Seung-Je 한국군사과학기술학회 2006 한국군사과학기술학회지 Vol.9 No.2
The underwater electromagnetic signatures of a naval ship are mainly generated from three sources which are the permanent and induced magnetic field in the ship's hull and other ferrous components, the cathodic current electromagnetic field established by the Impressed Current Cathodic Protection(ICCP) system or the Sacrificial Anode and the stray electromagnetic fields generated by onboard equipment. These signatures can be minimized by certain design methods or installation of signature reduction equipment. In this paper, we represented the characteristic of the underwater electromagnetic signature and the signature reduction techniques for a naval ship. Also, we measured the electromagnetic field changes emitted from the real ship using the Electric and Magnetic field Measurement System(EMMS). We found that the underwater electromagnetic signature for a naval ship can be used as input or trigger signal in a surveillance system and an influence mine.
고유수용성 신경근 촉진법 하지 패턴에 기초한 탄력밴드 훈련이 만성 편마비 환자의 보행에 미치는 영향
김좌준,김광일,김도환,성용인,신승제,Kim, Jwa-Jun,Kim, Gwang-Il,Kim, Do-Whan,Sung, Yong-In,Shin, Seung-Je 대한고유수용성신경근촉진법학회 2007 PNF and Movement Vol.5 No.2
Purpose : The purpose of this study were to determine the effect of a Elastic Theraband Exercise Based of PNF L/E pattern on the gait of the chronic Hemiplegic Patients. Methods : We selected the 20 chronic Hemiplegic Patients not given treatment now and divided them into two groups of both 10 Elastic Theraband group and 10 Self Exercise. The first group went through a Elastic Theraband Exercise Based of PNF L/E pattern 30 minutes a day, 5 times a week, for 6 weeks. Exercise used to blue elastic band which 2 patterns of PNF by 1) hip extension - abduction - internal rotation with knee extension. 2) hip flexion - adduction - external rotation with knee flexion. The latter group experienced Self Exercise, 30 minutes a day, 5 times a week, for 6 weeks. Firstly, we measured the absolute improvement of gait velocity(m/s), cadence(steps/min) among walking characters. Secondly, we measured the functional walking ability such as Functional Ambulatory Category(FAC, score out of 5), Modified Motor Assesment Scale(MMAS, score out of 6). Data analysis was performed with using SPSS 12.0 win program. The descriptive analysis was used to obtain average and standard deviation. The independent t-test and the paired t-test were used to compare both the groups about pre and post training test. Treatment effects were established by pre and post assessment. Subjects tolerated the training well without side-effects. Therefore, the results of this study were as follows; Results : 1. There was a more significant improvement of Gait velocity(0.12m/s) Elastic Theraband group(p<.05). 2. There was a more significant improvement of cadence(9.40steps/min) Elastic Theraband group(p<.05). Conclusion : As we can see from above, the findings suggest that Elastic Theraband may be more effective than the Self Exercise for improving some gait parameters such as Gait velocity and Cadency. This conclusion also suggest that Elstic Theraband is more effective for the improvement of gait of chronic Hemiplegic Patients.
양방향 유체 구조 연계 해석 기법을 이용한 날개 전개 해석
김종록(Jong Rok Kim),곽인근(Einkeun Kwak),강병덕(Byungduk Kang),나형진(Hyungjin Na),신승제(Seung Je Shin),방재원(Jaewon Bang) 한국전산유체공학회 2020 한국전산유체공학회지 Vol.25 No.1
Fluid-structure interaction analysis was performed to predict a time of wing deployment using eleatic force and centrifugal force. The Fluent for flow domain and ANSYS-Mechanical for structure domain were applied for fluid-structure interaction simulations. The loosely coupling method exchange force and displacement between two solvers each other at every coupling iteration. The structure alone analysis results showed that the wing’s elastic force, inertia and centrifugal force were well reflected. Fluid structure interaction analysis results showed that the shock wave generated at cavity in front of wings affected the wing deployment time. In addition, pressure field on each wing varied depending on the angle of attack, which caused each wing to have different deployment time.