Comparison of 3D Photogrammetric and Laser Hand Scans to Manual Measurement Methods for EVA Glove Fabrication

SummaryThe prothrombin time (PT), obtained from a fresh normal plasma pool (FPP), is the basis both for the establishment of the 100% activity (normal plasma) and for the ratio calculation used in the International Normalized Ratio (INR) according to the recommendations of the ICSH/ICTH (6). Today the PT of lyophilized normal plasma pools are successfully used as reference for the assessment of samples in proficiency studies. However, a lack of comparability is to be recognized. Therefore the Committee of Hematology of the German Association of Diagnostics’ and Diagnostic Instruments’ Manufacturers (VDGH) decided to produce a candidate reference plasma (VDGH Reference Plasma) which was calibrated against fresh normal plasma pools in an international study.The basic calibration was performed by using the same certified BCR thromboplastin (BCT/099) by all participants. The endpoint was determined manually and by using the coagulometer Schnitger-Gross. In additional testings each participant used his own routine thromboplastins and methods. Calculating the ratio [PT VDGH Reference Plasma (sec)/PT fresh normal plasma pool (sec)] the VDGH Reference Plasma showed a deviation from the average fresh normal plasma pool of 1.05 both with the BCT/099 and with all thromboplastins. There were obtained some statistical differences between “plain” and “combined’’ (added factor V and fibrinogen) thromboplastins. No statistical difference was found between the different endpoint measurement methods (manual, mechanical, optical).In spite of these statistical deviations the VDGH Reference Plasma can be used for the standardization of the PT-normal (100%) value with different ratios for plain (1.06) and combined (1.02) thromboplastins. The manufacturers will use this VDGH Reference Plasma for the calibration of their commercially available calibration plasmas, which allows the user of such a material to calculate a calibrated 100% PT value.

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“3-D Measurement Methods Using Active Illumination Techniques”

IEEJ Transactions on Electronics Information and Systems ◽

10.1541/ieejeiss1987.107.7_625 ◽

1987 ◽

Vol 107 (7) ◽

pp. 625-631

Author(s):

Yukio Sato ◽

Kazuo Araki

Keyword(s):

Measurement Methods ◽

Active Illumination

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Wearable Blood Pressure Measurement Device using Cuffless Blood Pressure Measurement Methods

IEEJ Transactions on Sensors and Micromachines ◽

10.1541/ieejsmas.136.370 ◽

2016 ◽

Vol 136 (9) ◽

pp. 370-376

Author(s):

Tetuji Dohi ◽

Kohei Waki

Keyword(s):

Blood Pressure ◽

Pressure Measurement ◽

Blood Pressure Measurement ◽

Measurement Methods ◽

Measurement Device ◽

Cuffless Blood Pressure ◽

Blood Pressure Measurement Device

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On evaluation and comparison of measurement methods with special reference to the meat and meat products

Acta Alimentaria ◽

10.1556/066.2002.31.2.2 ◽

2002 ◽

Vol 31 (2) ◽

pp. 99-123

Author(s):

L. Körmendy ◽

E. Zukál

Keyword(s):

Special Reference ◽

Meat Products ◽

Measurement Methods

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Defining and assessing walkability: a concept for an integrated approach using surveys, biosensors and geospatial analysis

Urban Development Issues ◽

10.2478/udi-2019-0008 ◽

2019 ◽

Vol 62 (1) ◽

pp. 5-15 ◽

Cited By ~ 6

Author(s):

Linda Dörrzapf ◽

Anna Kovács-Győri ◽

Bernd Resch ◽

Peter Zeile

Keyword(s):

Spatial Planning ◽

Recent Literature ◽

Integrated Approach ◽

Measurement Methods ◽

Transport Mode ◽

Positive Effects ◽

Spatial Environment ◽

Planning Processes ◽

Valuable Complement ◽

Definition Of

AbstractWalking as a transport mode is still often underrepresented in the overall transport system. Consequently, pedestrian mobility is usually not recorded statistically in the same manner as it is performed for motorised traffic which leads to an underestimation of its importance and positive effects on people and cities. However, the integration of walkability assessments is potentially a valuable complement in urban planning processes through considering important quantitative and qualitative aspects of walking in cities. Recent literature shows a variety of approaches involving discrepancies in the definition of walkability, the factors which contribute to it, and methods of assessing them. This paper provides a new understanding of the concept of walkability in the European context. Our approach relies on the extension of methodological competence in transportation, spatial planning and geography by linking new measurement methods for evaluating walkability. We propose an integrated approach to assessing walkability in a comprehensive methodology that combines existing qualitative and GIS-based methods with biosensor technologies and thus captures the perceptions and emotions of pedestrians. This results in an increased plausibility and relevance of the results of walkability analysis by considering the spatial environment and its effect on people.

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Auto-Metrology on TEM Images of FinFET

ISTFA 2014: Conference Proceedings from the 40th International Symposium for Testing and Failure Analysis ◽

10.31399/asm.cp.istfa2014p0327 ◽

2014 ◽

Author(s):

Sajal Biring

Keyword(s):

Data Analysis ◽

Data Interpretation ◽

Visual Judgment ◽

Manual Measurement ◽

Size And Shape ◽

Highly Sensitive ◽

Edge Detecting ◽

Geometrical Data ◽

Precision And Accuracy ◽

Device Size

Abstract The FinFET has been introduced in the last decade to provide better transistor performance as the device size shrinks. The performance of FinFET is highly sensitive to the size and shape of the fin, which needs to be optimized with tighter control. Manual measurement of nano-scale features on TEM images of FinFET is not only a time consuming and tedious task, but also prone to error owing to visual judgment. Here, an auto-metrology approach is presented to extract the measured values with higher precision and accuracy so that the uncertainty in the manual measurement can be minimized. Firstly, a FinFET TEM image is processed through an edge detecting algorithm to reveal the fin profile precisely. Finally, an algorithm is utilized to calculate out the required geometrical data relevant to the FinFET parameters and summarizes them to a table or plots a graph based on the purpose of data interpretation. This auto-metrology approach is expected to be adopted by academia and/or industry for proper data analysis and interpretation with higher precision and efficiency.

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