Your search keyword '"Du, Yan-Li"' showing total 3 results

1. Single-shot incoherent digital holography based on spatial light modulator

Author

Wang Pan, Zang Rui-Huan, Rong Teng-Da, Du Yan-Li, Ma Feng-Ying, Duan Zhi-yong, Gong Qiao-Xia, and Bai Yun-He

Subjects

Physics, 020210 optoelectronics & photonics, Optics, Spatial light modulator, business.industry, 0202 electrical engineering, electronic engineering, information engineering, Single shot, General Physics and Astronomy, 02 engineering and technology, business, Digital holography

Abstract

Fresnel incoherent correlation holography (FINCH) is a relatively innovative technology, which can achieve incoherent holograms by using the correlation between the object information and a Fresnel zone plate. In this method, the optical wave front scattered from an object propagates and is incident on a spatial light modulator which a phase mask is mounted on, and then the optical beam is split and phase shifted. The biggest advantage of the FINCH is that it can be matched with any standard optical imaging technology, which can realize microscopic imaging, telescopic imaging, spectroscopic imaging, etc. based on incoherent digital holography, and has important application prospect in remote sensing, astronomy, microscopy, and material analysis. In this paper, based on phase modulation characteristic of spatial light modulator, two types of masks are used. The first mask has an optical axis. And the results show that when the distribution intervals of the three phases on the spatial light modulator (SLM) are larger, the reconstruction image is clearer. On this basis, a new method of mode mounting on the SLM is put forward. The second mask has dual-lens array mode with three phases of 0°, 120°, and 240°, and the three phases respectively correspond to their corresponding optical axis, which means that the mask has three optical axes. Both of the two masks can achieve the single-shot of FINCH. By comparing the two mask forms, we find that the field-of-view of the first mask is larger, which can image the entire resolution board; however, because the sub-phase shift holograms are mixed together and cannot be extracted, the quality of the reconstructed image is worse. The second one can extract three sub-holograms, and the reconstructed image has better quality; but because of smaller imaging field of view, it is suitable for the real-time imaging of micro-organisms and objects. Experiments show that a compound digital hologram including three phase-shifting elements is recorded in charge-coupled device in this way. Three sub-holograms with different phase shift angles are extracted from the compound hologram, and there is no overlapping among the three phase shift holograms. Therefore, the three-phase-shifting technique is usually employed. The sample is reconstructed by numerical reconstruction algorithm. The proposed method may be useful in dynamic process real-time measurement and three-dimensional analysis of the object, and thus providing a new way to promote the development of incoherent digital holography.

Published

2018

2. Sensor Fault Identification and Decentralized Fault-Tolerant Control of Reconfigurable Manipulator Based on Sliding Mode Observer

Author

Du Yan Li and Li Yuan Chun

Subjects

Engineering, Adaptive control, Observer (quantum physics), business.industry, Fault tolerance, Control engineering, Fuzzy control system, Fault (power engineering), Fuzzy logic, Computer Science::Hardware Architecture, Control theory, State observer, Actuator, business

Abstract

An approach of fault-tolerant control for sensor fault of reconfigurable manipulator based on sliding mode observer and decentralized adaptive fuzzy is proposed. The dimension of original system is extended by introducing a first order filter such that sensor fault is equated to actuator fault. The sliding mode observer is designed for the new system which coupling interconnection terms of the joints and modeling uncertainties are estimated by fuzzy system. Then sensor fault can be reconstructed by using the state estimations and system output to implement fault-tolerant control. Simulation results of two different configurations of 3-DOF reconfigurable manipulator verify the validity of the proposed approach.

Published

2012

3. Design and characterization of a terahertz microcavity structure

Author

Guo Mao-Tian, Chi Quan, Du Yan-Li, Liu Jian-Li, Ma Feng-Ying, Liu Xiao-Li, Chen Ming, and Yuan Bin

Subjects

Materials science, Terahertz radiation, business.industry, General Physics and Astronomy, Optoelectronics, business, Characterization (materials science)

Abstract

The complex refractive indices of the Cr film are obtained by terahertz time-domain spectroscopy. The penetration depth the Cr film is calculated based on the complex refractive indices, and then the effective cavity length and the emitted spectrum of the structure Cr/GaAs/Cr are simulated. The resonant frequencies are located at 0.32, 0.65, 0.98, 1.31 and 1.65 THz, respectively. The peak intensity of the cavity photo-conductive resource at 0.32 THz is 25 times higher than that of non-cavity one and the full width at half maximum is greatly narrowed. The relation between the emitting dipoles and the standing wave field in the cavity is also discussed. The results show that the emission intensity is enhanced when the emitting dipoles are located at the nodes of the standing wave field, but greatly suppressed at antinodes.

Published

2012