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A visual shape descriptor using sectors and shape context of contour lines
Peng, Shao-Hu,Kim, Deok-Hwan,Lee, Seok-Lyong,Chung, Chin-Wan Elsevier 2010 Information sciences Vol.180 No.16
<P><B>Abstract</B></P><P>This paper describes a visual shape descriptor based on the sectors and shape context of contour lines to represent the image local features used for image matching. The proposed descriptor consists of two-component feature vectors. First, the local region is separated into sectors and their gradient magnitude and orientation values are extracted; a feature vector is then constructed from these values. Second, local shape features are obtained using the shape context of contour lines. Another feature vector is then constructed from these contour lines. The proposed approach calculates the local shape feature without needing to consider the edges. This can overcome the difficulty associated with textured images and images with ill-defined edges. The combination of two-component feature vectors makes the proposed descriptor more robust to image scale changes, illumination variations and noise. The proposed visual shape descriptor outperformed other descriptors in terms of the matching accuracy: 14.525% better than SIFT, 21% better than PCA-SIFT, 11.86% better than GLOH, and 25.66% better than the shape context.</P>
The Metallization of Diamond Grits
Sung James-C.,Hu Shao-Chung,Chang Yen-Shuo 한국분말야금학회 2006 한국분말야금학회 학술대회논문집 Vol.2006 No.1
A revolutionary "Active Braze Coated Diamond" (ABCD) has been developed for bonding diamond grits firmly in the metal matrix. The molten braze is wetted and reacted with diamond to form strong chemical bond at the interface so that the diamond does not become knocked out of tools. The ABC is a nickel alloy that can form metallurgical diffusion bondswith the metal matrix. In essence, ABCD turns diamond into a metal grain so that the diamond tools can be made by conventional powder metallurgical process without being concerned about the poor bonding between matrix metal powder and the diamond as before.
The Revolution of Diamond Synthesis Technology
Sung James-C.,Hu Shao-Chung,Lin I-Chiao,Tsai Chia-Cheng 한국분말야금학회 2006 한국분말야금학회 학술대회논문집 Vol.2006 No.1
The ultrahigh pressure process for synthesizing diamond grits is due to make a quantum leap: the raw materials will incorporate diamond seeds with a predetermined pattern. The result is doubling the diamond yield with a narrower size distribution. Moreover, the shape of diamond crystals can be precisely tuned. For example, diamond octahedra or diamond cubes, that are not available today, can be mass-produced. The new technology is now being implemented worldwide so the future diamond grits will have improved quality at reduced prices.
Amorphous Diamond for Generating Cold Cathode Fluorescence Light
Sung James-C.,Kan Ming-Chi,Hu Shao-Chung 한국분말야금학회 2006 한국분말야금학회 학술대회논문집 Vol.2006 No.1
Amorphous diamond has a very low work function (1 eV) at modest temperature (150℃). It has been coat coated on electron emitting electrodes. Such electrodes are used for cold cathode fluorescence lamps (CCFL) that illuminate liquid crystal displays (LCD) for rnote books and television sets. Amorphous diamond can dramatically reduce the turn-on voltage to lit CCFL so the lamp life can be greatly extended. Moreover, the electrical current can be increased to enhance the brightness of the light.