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Benke, Kurt K.; Hedger, D F

doi:10.1088/0143-0807/12/4/006

Cited by 4 publications

(2 citation statements)

References 11 publications

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“…This is a serious problem for low concentrations. It is often necessary to spend 5 to 10 min to collect an adequate signal for a useful image 12–14…”

Section: Methodsmentioning

confidence: 99%

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Microscopic analysis of aroma chemical distribution on fibers. I. cis‐3‐hexenyl salicylate

Liu

Obendorf

Young

et al. 2004

J of Applied Polymer Sci

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ABSTRACT:The distribution of aroma chemical cis-3-hexenyl salicylate, on both longitudinal and cross-sectional fiber directions, was identified through backscattered electron microscopy and X-ray microanalysis including X-ray spectrum and X-ray map. Three fibers-cotton, lyocell, and polyester [poly(ethylene terephthalate) (PET)]-were used as substrates to evaluate the influence of fiber physical/chemical nature on the distribution of cis-3-hexenyl salicylate. It was found that the distribution of cis-3-hexenyl salicylate on the external and internal fiber surfaces correlated strongly with the chemical structure, roughness, and both pore and capillary structure of the textiles. cis-3-Hexenyl salicylate distributed through the whole cotton fiber cross section with higher concentrations in lumen and crenulations, whereas it distributed relatively uniformly in the surface and cross section of lyocell fiber. This is believed to relate to the macroand micropores, macroscopic roughness, and the presence of a larger number of polar groups for these cellulose fibers. In contrast, cis-3-hexenyl salicylate accumulated at a few spots on the fiber surfaces of PET and in interfiber spaces of closely packed fibers, attributed to lower polarity, round cross-sectional shape, smooth surfaces, and fewer voids of the PET fiber structure.

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“…This is a serious problem for low concentrations. It is often necessary to spend 5 to 10 min to collect an adequate signal for a useful image 12–14…”

Section: Methodsmentioning

confidence: 99%

“…It is often necessary to spend 5 to 10 min to collect an adequate signal for a useful image. [12][13][14]…”

Section: Interpretation Of Bse and X-ray Microanalysismentioning

confidence: 99%

Microscopic analysis of aroma chemical distribution on fibers. I. cis‐3‐hexenyl salicylate

Liu

Obendorf

Young

et al. 2004

J of Applied Polymer Sci

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Normalization of brightness and contrast in video displays

Benke¹,

Hedger²

1996

Eur. J. Phys.

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The nonlinearity of the video display, together with variations in brightness and contrast arising from variability in the data, will affect the visual discrimination of features of interest. The loss of displayed information is due to environmental and instrumentation effects, and can be partially corrected for in real-time (i.e. at video frame rates) if the data is digitized and approriately normalized. Methods are described for normalizing the contrast and brightness of video displays and for correcting for luminance compression. Experimental results for a sidescan sonar display demonstrate that statistical normalization and gamma-compensation improve the visibility of seabed features and therefore the reliability of visual search during seabed surveillance. Zusammenfassung. Die Un-linearität des Videobildes, zusammen mit den aus der Variabiltät in den Daten herrührenden Variationen in Helligkeit und Kontrast, wird die visuelle Diskriminierung von interessanten Merkmalen beeinflussen. Der Verlust in bildlich dargestellter Information beruht auf Umwelts - und Instrumentierungs - Effekten, und kann teilweise für Echtzeit (d.h. Videobildgeschwindigkeit) korrigiert werden, falls die Daten digital dargestellt und sachgemäss normaliziert sind. Beschrieben sind Methoden für das Normalizieren von Kontrast und Helligkeit des Videobildes und für das Korrigieren der Leuchtkraft - Kompression. Versuchsresultate für ein seitenabsuchendes Echolot - Bild demonstrieren, dass statistische Normalizierung und Gamma - Kompensation die Klarheit der Meeresgrund - Besonderheiten, und damit die Verläss-lichkeit des visuellen Absuchens während einer Meeresgrund - Überwachung, verbessern.

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Application of x-ray instrumentation in medicine: discrimination of neoplasms in radiographs by digital image processing

Benke¹,

Hedger²

1997

Eur. J. Phys.

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The application of digital image processing to mass screening for breast cancer is demonstrated in the context of adaptive spatial filtering. Experimental results for feature extraction by texture analysis and grey level thresholding reveal there is significant potential for computer-aided mass screening as an adjunct to radiological examination. Digital image processing can improve the visibility of image features, such as neoplasms or tumours, providing also speed and automation of inspection, whilst saving the radiologist time which is otherwise spent on checking clear samples (which represent the majority of screening cases). Zusammenfassung. Die Anwendung ziffernmäßiger Bildbearbeitung zur Massenabblendung für Brustkrebs wird im Zusammenhang mit räumlichem Filtern demonstriert. Experimentresultate für Besonderheiten-Extraktion im Falle von Gewebeanalyse und Grau-Niveaubegrenzung enthüllen, daß hier eine bedeutende Möglichkeit für computer-unterstützte Massenabblendung als ein Zusatz zur radiologischen Untersuchung besteht. Ziffernmäßige Bildbearbeitung kann die Sichtbarkeit von Bildmerkmalen, wie Neoplasmen und Tumoren, verbessern, außerdem Geschwindigkeit und Automation der Inspektion bietend, während dem Radiologen Zeit ersparend, die andernfalls zur Überprüfung klarer Muster verwendet würde (was für die Mehrzahl der Abschirmfälle zutrifft).

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Untitled

Cited by 4 publications

References 11 publications

Microscopic analysis of aroma chemical distribution on fibers. I. cis‐3‐hexenyl salicylate

Microscopic analysis of aroma chemical distribution on fibers. I. cis‐3‐hexenyl salicylate

Normalization of brightness and contrast in video displays

Application of x-ray instrumentation in medicine: discrimination of neoplasms in radiographs by digital image processing

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