COMPOSITE RESTORATION WEAR ANALYSIS: CONVENTIONAL METHODS VS. THREE-DIMENSIONAL LASER DIGITIZER

Abstract Background Accurate total body surface area burned (TBSAB) estimation is a crucial aspect of early burn management. It helps guide resuscitation and is essential in the calculation of fluid requirements. Conventional methods of estimation can often lead to large discrepancies in burn percentage estimation. We aim to compare a new method of TBSAB estimation using a three-dimensional smart-phone application named 3D Burn Resuscitation (3D Burn) against conventional methods of estimation—Rule of Palm, Rule of Nines and the Lund and Browder chart. Methods Three volunteer subjects were moulaged with simulated burn injuries of 25%, 30% and 35% total body surface area (TBSA), respectively. Various healthcare workers were invited to use both the 3D Burn application as well as the conventional methods stated above to estimate the volunteer subjects’ burn percentages. Results Collective relative estimations across the groups showed that when used, the Rule of Palm, Rule of Nines and the Lund and Browder chart all over-estimated burns area by an average of 10.6%, 19.7%, and 8.3% TBSA, respectively, while the 3D Burn application under-estimated burns by an average of 1.9%. There was a statistically significant difference between the 3D Burn application estimations versus all three other modalities (p < 0.05). Time of using the application was found to be significantly longer than traditional methods of estimation. Conclusions The 3D Burn application, although slower, allowed more accurate TBSAB measurements when compared to conventional methods. The validation study has shown that the 3D Burn application is useful in improving the accuracy of TBSAB measurement. Further studies are warranted, and there are plans to repeat the above study in a different centre overseas as part of a multi-centre study, with a view of progressing to a prospective study that compares the accuracy of the 3D Burn application against conventional methods on actual burn patients.

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Abrasion wear analysis in running shoes using a gridded methodology with CIE-L-a-b colour identification

Proceedings of the Institution of Mechanical Engineers Part P Journal of Sports Engineering and Technology ◽

10.1177/1754337118755270 ◽

2018 ◽

Vol 233 (3) ◽

pp. 333-341

Author(s):

Glen Lim Chun Yee ◽

Yeo Joon Hock ◽

Tsuyoshi Nishiwaki ◽

Kenta Moriyasu ◽

Kenichi Harano

Keyword(s):

Three Dimensional ◽

Wear Testing ◽

Wear Analysis ◽

Abrasion Wear ◽

Running Shoes ◽

Colour System ◽

Non Destructive ◽

Shoe Wear ◽

Running Schedule ◽

Physical Formula

Wear identification and projection have eluded shoe manufacturers due to the myriad of factors that affect the abrasion wear of shoes. Using a gridded three-dimensional cloud comparison in CloudCompare software, abrasion wear thickness of shoes was identified using the CIE-L-a-b colour system that is interpolated with the physical formula representation of colours. After obtaining the thickness lost, other wear factors like the material properties of the shoe sole, the runners’ personal profile and the running schedule were combined for wear projection. The methodological process from a non-destructive wear detection to wear projection allows shoe manufacturers to reduce the iterations of wear testing while maximizing the entire analysis of shoe wear. Shoe samples were kindly sponsored by ASICS Institute of Sport Science.

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Charuco Board-Based Omnidirectional Camera Calibration Method

Electronics ◽

10.3390/electronics7120421 ◽

2018 ◽

Vol 7 (12) ◽

pp. 421 ◽

Cited By ~ 11

Author(s):

Gwon An ◽

Siyeong Lee ◽

Min-Woo Seo ◽

Kugjin Yun ◽

Won-Sik Cheong ◽

...

Keyword(s):

Camera Calibration ◽

Mean Absolute Error ◽

Three Dimensional ◽

Absolute Error ◽

Calibration Method ◽

Feature Points ◽

Omnidirectional Camera ◽

Reprojection Error ◽

Conventional Methods ◽

Better Than

In this paper, we propose a Charuco board-based omnidirectional camera calibration method to solve the problem of conventional methods requiring overly complicated calibration procedures. Specifically, the proposed method can easily and precisely provide two-dimensional and three-dimensional coordinates of patterned feature points by arranging the omnidirectional camera in the Charuco board-based cube structure. Then, using the coordinate information of the feature points, an intrinsic calibration of each camera constituting the omnidirectional camera can be performed by estimating the perspective projection matrix. Furthermore, without an additional calibration structure, an extrinsic calibration of each camera can be performed, even though only part of the calibration structure is included in the captured image. Compared to conventional methods, the proposed method exhibits increased reliability, because it does not require additional adjustments to the mirror angle or the positions of several pattern boards. Moreover, the proposed method calibrates independently, regardless of the number of cameras comprising the omnidirectional camera or the camera rig structure. In the experimental results, for the intrinsic parameters, the proposed method yielded an average reprojection error of 0.37 pixels, which was better than that of conventional methods. For the extrinsic parameters, the proposed method had a mean absolute error of 0.90° for rotation displacement and a mean absolute error of 1.32 mm for translation displacement.

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A modified approach based on bearing area curve for surface wear characterization

Industrial Lubrication and Tribology ◽

10.1108/ilt-06-2019-0233 ◽

2020 ◽

Vol 72 (3) ◽

pp. 273-278

Author(s):

Yun Wang ◽

Junhong Mao ◽

Suwen Lu ◽

Zhenying Xu ◽

Hong Liu ◽

...

Keyword(s):

Three Dimensional ◽

Surface Profile ◽

Surface Wear ◽

H13 Steel ◽

Wear Area ◽

Content Type ◽

Profile Method ◽

Wear Analysis ◽

Curve Method ◽

Worn Surface

Purpose Wear greatly influences the machine lifetime, performance and reliability and its quantification is very important. This paper aims to propose a modified bearing area curve method by combining the theory of the bearing area curve, and the relocation technique to calculate wear accurately and efficiently. Design/methodology/approach H13 steel was chosen as the material of wear pair, and the wear experiments were carried out at 50 N, 60 r/min for 20 min. The surface was measured before and after wear experiments. The relocation was made by comparing the mean lines (planes) of the unworn and worn surface profiles. The calculated results using the proposed method were compared with that of the surface profile method for a two-dimensional surface to validate its accuracy. The method was then applied for a three-dimensional (3D) wear analysis. Findings The worn surface shows clearly displacement compared to the unworn surface and implies the importance of including relocation in the bearing area curve method. The results from the proposed method are 98 per cent close to that from the surface profile method, indicating that the method is accurate for wear evaluation. Originality/value As no feature point or relocation mark is needed to calculate the relocation value using the proposed method, the method can be applied to mild to severe wear. Also, as the deviation of different scans does not affect the relocation calculation, and no matching and stitching is required, this method can be easily applied to a wide wear area and 3D surface wear analysis.

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Three dimensional fretting wear analysis by finite element substructure method

International Journal of Precision Engineering and Manufacturing ◽

10.1007/s12541-009-0072-6 ◽

2009 ◽

Vol 10 (4) ◽

pp. 63-69 ◽

Cited By ~ 10

Author(s):

Joon Woo Bae ◽

Choon Yeol Lee ◽

Young Suck Chai

Keyword(s):

Finite Element ◽

Three Dimensional ◽

Fretting Wear ◽

Substructure Method ◽

Wear Analysis

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A toolbox for volumetric visualization of light properties

Lighting Research and Technology ◽

10.1177/1477153518822159 ◽

2019 ◽

Vol 51 (6) ◽

pp. 838-857

Author(s):

T Kartashova ◽

H de Ridder ◽

SF te Pas ◽

SC Pont

Keyword(s):

Light Field ◽

Three Dimensional ◽

Complex Problem ◽

Easy Access ◽

Two Dimensional ◽

Web Based ◽

Primary Qualities ◽

Third Stage ◽

Primary Direction ◽

Conventional Methods

In this paper, we introduce a toolbox for the perceptually based visualization of light in a volume, focusing on the visual effects of illumination. First, our visualizations extend the conventional methods from a two-dimensional representation on surfaces to the whole volume of a scene. Second, we extend the conventional methods from showing only light intensity to visualizing three light properties (mean illuminance, primary direction and diffuseness). To make our methods generally available and easily accessible, we provide a web-based tool, to which everybody can upload data, measured by a cubic or simple illuminance meter or even a smartphone-app, and generate a variety of three-dimensional visualizations of the light field. The importance of considering the light field in its full complexity (and thus as a three-dimensional vector field instead of its two-dimensional sections) is widely acknowledged. Our toolbox allows easy access to sophisticated methods for analysing the spatial distribution of light and its primary qualities as well as how they vary throughout space. It is our hope that our results raise interest in ‘third stage’ approaches to lighting research and design, and the toolbox offers a practical solution to this complex problem.

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Simultaneous separation and quantification of free and metal-chelated protoporphyrins in blood by three-dimensional HPLC

Clinical Chemistry ◽

10.1093/clinchem/40.7.1239 ◽

1994 ◽

Vol 40 (7) ◽

pp. 1239-1244 ◽

Cited By ~ 10

Author(s):

H Sato ◽

K Ido ◽

K Kimura

Keyword(s):

Three Dimensional ◽

New Method ◽

High Recovery ◽

Blood Samples ◽

Simultaneous Separation ◽

Conventional Methods

Abstract In this new method for simultaneous separation and quantification of free and metal-chelated porphyrins in blood, the porphyrins are extracted from blood samples with a mixture of diisopropylamine:water:methanol (25:100:900, by vol) and separated by HPLC elution. The data are collected in three-dimensional form with a microcomputer. This method permits a high recovery of protoporphyrin (PP) and Zn-chelated PP as well as heme from blood. By this method, the amounts of these analytes in erythrocytes from normal or abnormal subjects can be determined more accurately than by conventional methods.

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