Journal ArticleDOI
A magnification-continuous calibration method for SEM-based nanorobotic manipulation systems
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TLDR
The results demonstrate that the proposed method is effective and practical for calibrating SEM-based nanorobotic manipulation systems under a wide range of continuous magnifications and the relative error is within 1%.Abstract:
Calibration for scanning electron microscope (SEM) based nanorobotic manipulation systems is important and difficult. Most current calibration methods are cumbersome because they require customized high precision calibration boards and repeated calibration procedures in different magnifications. This paper presents a convenient magnification-continuous calibration method with high precision for SEM-based nanorobotic manipulation systems. The projection matrix containing a continuous magnification factor is obtained by modifying the affine camera model. This facilitates the simplification of the parameter computing process. Movement features are used to align the moving axes of micropositioning stages and calibrate the system, which benefits for the realization of efficient automatic calibration. Three experiments are carried out, and the results demonstrate that the proposed method is effective and practical for calibrating SEM-based nanorobotic manipulation systems under a wide range of continuous magnifications. Experiments also confirm that high precision measurements can be conducted in different magnifications with only once calibration and the relative error is within 1%.read more
Citations
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A Review of Computer Microvision-Based Precision Motion Measurement: Principles, Characteristics, and Applications
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An Improved Template-Matching-Based Pose Tracking Method for Planar Nanopositioning Stages Using Enhanced Correlation Coefficient
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Edge determination improvement of scanning electron microscope images by inpainting and anisotropic diffusion for measurement and analysis of microstructures
TL;DR: A method for improving the edge determination of actual scanning electron microscope (SEM) images for analyzing and measuring microstructures is proposed in this paper, where inpainting and adaptive anisotropic diffusion strategies are developed.
Proceedings ArticleDOI
Static and dynamic stability analysis of an SEM-based nanomanipulation system using a fast sub-pixel template matching algorithm
TL;DR: In this paper, a fast sub-pixel template matching algorithm is proposed and used in the static and dynamic stability analysis of an scanning electron microscope (SEM)-based nanomanipulation system.
Journal ArticleDOI
Zooming-Free Hand-Eye Self-Calibration for Nanorobotic Manipulation Inside SEM
TL;DR: In this article , the authors proposed a zooming-free hand-eye self-calibration method for nanorobotic manipulation inside scanning electron microscope (SEM) to circumvent the hardware regulation problem.
References
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A flexible new technique for camera calibration
TL;DR: A flexible technique to easily calibrate a camera that only requires the camera to observe a planar pattern shown at a few (at least two) different orientations is proposed and advances 3D computer vision one more step from laboratory environments to real world use.
Journal ArticleDOI
Recent advances in nanorobotic manipulation inside scanning electron microscopes.
Chaoyang Shi,Devin K. Luu,Qinmin Yang,Jun Liu,Jun Chen,Changhai Ru,Shaorong Xie,Jun Luo,Ji Ge,Yu Sun +9 more
TL;DR: This paper presents a comprehensive survey of recent advances in nanorobotic manipulation, including the development of nanomanipulation platforms, tools, changeable toolboxes, sensing units, control strategies, electron beam-induced deposition approaches, automation techniques, and nanomonipulation-enabled applications and discoveries.
Journal ArticleDOI
Automated Robotic Manipulation of Individual Colloidal Particles Using Vision-Based Control
TL;DR: In this paper, a dual-probe setup inside a scanning electron microscope is presented for automated manipulation of individual colloidal particles using a tailored probe geometries, which allows reliable pick-up and release sequences of individual particles.
Journal ArticleDOI
Depth-detection methods for microgripper based CNT manipulation in a scanning electron microscope
Volkmar Eichhorn,Sergej Fatikow,Thomas Wich,Christian Dahmen,T. Sievers,K.N. Andersen,Kenneth Carlson,Peter Bøggild +7 more
TL;DR: In this paper, a nanorobot station capable of performing pick-and-place manipulations of carbon nanotubes (CNTs) in a scanning electron microscope (SEM) is presented.
Journal ArticleDOI
Bringing the nanolaboratory inside electron microscopes
TL;DR: In this article, the authors presented the nanolaboratory inside electron microscopes including a transmission electron microscope (TEM), scanning electron microscopy (SEM), and environmental-SEM, for 3D and real-time nanomanipulation, nanoinstrumentation, and nanoassembly.