Your search keyword '"GEOMETRIC analysis"' showing total 18,492 results

1. Strain distribution in the active region of InAs-based interband cascade laser.

Author

Wu, Jian-Chu, Liu, Ruo-Tao, Du, An-Tian, Wang, Kun, Cao, Chun-Fang, Yang, Jin, Huang, Hua, and Gong, Qian

Subjects

*SCANNING transmission electron microscopy, *SCANNING electron microscopes, *GEOMETRIC quantum phases, *X-ray spectroscopy, *LASERS, *TRANSMISSION electron microscopes, *GEOMETRIC analysis

Abstract

Energy-dispersive x-ray spectroscopy and high-angle annular dark-field in a Cs-corrected scanning transmission electron microscope are employed to characterize the atomic-scale strain distribution in the active region of the InAs-based interband cascade laser. For the first time, energy-dispersive x-ray spectroscopy is utilized for the quantitative calculation of the zero-strain region, by which the geometric phase analysis of high-angle annular dark-field imaging has been carried out. The strain distribution of the active region with high accuracy has been obtained. The analysis of the out-of-plane strain shows that the active region in the InAs-based interband cascade laser is strain-compensated, while a certain degree of elemental intermixing still exists in the active region. This detailed strain distribution can provide valuable insights into the optimization of the growth conditions for the active region such as growth temperature, V/III flux ratio, and growth process to minimize the elemental intermixing and obtain a better performance interface while maintaining the strain-compensated state. [ABSTRACT FROM AUTHOR]

Published

2024

2. Calculating high-pressure vibrational frequencies analytically with the extended hydrostatic compression force field approach.

Author

Weiß, Rahel, Zeller, Felix, and Neudecker, Tim

Subjects

*POTENTIAL energy surfaces, *FINITE differences, *GEOMETRIC analysis, *BUCKMINSTERFULLERENE

Abstract

We report the implementation of the analytical Hessian for the mechanochemical extended hydrostatic compression force field method in the Q-Chem program package. To verify the implementation, the analytical Hessian was compared with finite difference calculations. In addition, we calculated the pressure dependency of the Raman active vibrational modes of methane, ethane, and hydrogen, as well as all IR and Raman active modes of Buckminsterfullerene, and compared the results with experimental and theoretical data. Our implementation paves the way for the analysis of geometric points on a pressure-deformed potential energy surface and provides a straightforward model to calculate the vibrational properties of molecules under high pressure. [ABSTRACT FROM AUTHOR]

Published

2024

3. Geometric approach to nonequilibrium hasty shortcuts.

Author

Chittari, Supraja S. and Lu, Zhiyue

Subjects

*GEOMETRIC approach, *GEOMETRIC analysis, *RACTOPAMINE, *FRACTIONS

Abstract

Complex and even non-monotonic responses to external control can be found in many thermodynamic systems. In such systems, nonequilibrium shortcuts can rapidly drive the system from an initial state to a desired final state. One example is the Mpemba effect, where preheating a system allows it to cool faster. We present nonequilibrium hasty shortcuts—externally controlled temporal protocols that rapidly steer a system from an initial steady state to a desired final steady state. The term "hasty" indicates that the shortcut only involves fast dynamics without relying on slow relaxations. We provide a geometric analysis of such shortcuts in the space of probability distributions by using timescale separation and eigenmode decomposition. We further identify the necessary and sufficient condition for the existence of nonequilibrium hasty shortcuts in an arbitrary system. The geometric analysis within the probability space sheds light on the possible features of a system that can lead to hasty shortcuts, which can be classified into different categories based on their temporal pattern. We also find that the Mpemba-effect-like shortcuts only constitute a small fraction of the diverse categories of hasty shortcuts. This theory is validated and illustrated numerically in the self-assembly model inspired by viral capsid assembly processes. [ABSTRACT FROM AUTHOR]

Published

2023

4. Large Scale Synthesis of a Stable Prefunctionalized Silver Nanocluster.

Author

He, Rui‐Lin, Hu, Feng, Guan, Zong‐Jie, and Wang, Quan‐Ming

Subjects

*GEOMETRIC analysis, *LIGANDS (Chemistry), *ELECTRONIC structure, *SILVER, *CONDENSATION

Abstract

Due to the stability issue, It is difficult to prepare a silver nanocluster bearing functional sites, especially at a large scale. We report the synthesis and structure of a stable silver nanocluster bearing multiple surface aldehyde groups [Ag21(Ph2PO2)10(p‐CHOPhC≡C)6]SbF6, which allows for postsynthesis modification such as surface functionalization through aldimine condensation to give homochiral clusters. Remarkably, the preparation of this cluster can be done in ~90 % high yield at gram scale, which facilitates further studies and potential applications. Through DFT calculations and geometric structure analysis, the high stability of this cluster is attributed to the geometric closure and electronic structure. This is the first time that an effective one‐pot method has been developed to synthesize functional silver nanoclusters in high yield. The title cluster will be useful in the development of a variety of cluster‐based materials. [ABSTRACT FROM AUTHOR]

Published

2024

5. Applying geometric morphometrics in megalopa larval stages: relevance for species distribution and biological invasion studies.

Author

Díaz-Cruz, Jonah, Fatira, Effrosyni, Tuset, Víctor M., Rodríguez, Adriana, and Landeira, José M.

Subjects

*SPECIES distribution, *GEOMETRIC analysis, *MORPHOMETRICS, *CRABS, *MORPHOLOGY

Abstract

Larval morphology in brachyuran crabs is an essential trait defining survival in the planktonic environment. The present study describes the morphology (carapace and chelipeds) of megalopa larvae in three different species (Percnon gibbesi, Cronius ruber , and Achelous hastatus) using geometric morphometric analysis (GMA). The study aim was to compare the observed body patterns at interspecific and intraspecific levels. The results showed a marked interspecific distinction of C. ruber larvae based on the rostral region of carapace and cheliped length. We relate these differences to advantages in life performance, as in other animal models, suggesting that larval morphology can be another factor contributing to the invasiveness of C. ruber. At intraspecific level, we found a high morphological similarity between two distant geographical locations, indicating strong genetic connectivity in the populations of P. gibbesi from the Canary Islands. Our findings advance the importance of larval morphology for species performance during the plankton phase that eventually can determine invasiveness in brachyuran crabs. We suggest future studies focusing on the inter-population comparisons of megalopa morphology at larger spatiotemporal scales. [ABSTRACT FROM AUTHOR]

Published

2024

6. Data-Driven Insights into the Structural Essence of Plasticity in High-Entropy Alloys.

Author

Tung, Chi-Huan, Chang, Shou-Yi, Bai, Zhitong, Fan, Yue, Yip, Sidney, Do, Changwoo, and Chen, Wei-Ren

Subjects

STATISTICAL correlation, MOLECULAR dynamics, MULTIVARIATE analysis, GEOMETRIC analysis, ALLOYS

Abstract

The heterogeneous mechanical response of a crystalline alloy with multiple principal elements was investigated using molecular dynamics simulations. The local configuration of the alloy in its quiescent state was characterized by the variables derived from the gyration tensor and the atomic electronegativity. A multivariate analysis identified the geometric and chemical factors that influenced the atomic packing variations. Upon straining, the non-affine displacement exhibited spatial heterogeneity. A statistical correlation was established between the local yield events and the specific features of the local configuration. Our findings, validated by the performance metrics analysis, provided a structural criterion for the instability mechanisms in high-entropy alloys (HEAs) and enhanced the understanding of their plasticity. [ABSTRACT FROM AUTHOR]

Published

2024

7. Applications of the Hahn-Banach Theorem, a Solution of the Moment Problem and the Related Approximation.

Author

Olteanu, Octav

Subjects

*POLYNOMIAL approximation, *GEOMETRIC analysis, *INTEGRAL representations, *FUNCTIONAL analysis, *MOMENTS method (Statistics)

Abstract

We start by an application the of Krein–Milman theorem to the integral representation of completely monotonic functions. Elements of convex optimization are also mentioned. The paper continues with applications of Hahn–Banach-type theorems and polynomial approximation to obtain recent results on the moment problem on the unbounded closed interval [ 0 , + ∞) . Necessary and sufficient conditions for the existence and uniqueness of the solution are pointed out. Operator-valued moment problems and a scalar-valued moment problem are solved. [ABSTRACT FROM AUTHOR]

Published

2024

8. Carapace Morphology Variations in Captive Tortoises: Insights from Three-Dimensional Analysis.

Author

Eravci Yalin, Ebru, Gündemir, Ozan, Günay, Ebuderda, Vatansever Çelik, Ezgi Can, Duro, Sokol, Szara, Tomasz, Blagojevic, Milos, Sönmez, Bektaş, and Spataru, Mihaela-Claudia

Subjects

*VETERINARY medicine, *PRINCIPAL components analysis, *GEOMETRIC analysis, *TESTUDINIDAE, *MORPHOMETRICS

Abstract

Simple Summary: This study explored the morphological differences in the carapaces of three tortoise species—Leopard tortoises (Stigmochelys pardalis), African spurred tortoises (Centrochelys sulcata), and Greek tortoises (Testudo graeca)—raised in captivity in Türkiye. Using 3D scanning and geometric morphometric analysis, we identified the vital shape variations and dimensional features across species. Principal component analysis revealed that PC1 and PC3 were significant in distinguishing species, with Leopard tortoises showing higher carapace shapes and African spurred tortoises having shorter carapaces. An allometric effect indicated that smaller tortoises had higher shells. These findings provide valuable insights for taxonomy and clinical practice, emphasizing the need to consider shape variations in tortoise care and species identification. The carapace morphology of tortoises is a crucial characteristic used for species identification, with features such as shell shape, roughness, and color patterns varying among species. Understanding this morphological diversity is valuable not only for taxonomic classification but also for more specialized clinical approaches. This study investigated the morphological differences in the shells of Leopard tortoises (Stigmochelys pardalis), African spurred tortoises (Centrochelys sulcata), and Greek tortoises (spur-thighed tortoises; Testudo graeca) raised in captivity. Using 3D scanners, the carapaces were modeled, and a 3D geometric morphometric method was employed to analyze shape variations and dimensional features, with landmarks applied automatically. Among the species studied, African spurred tortoises had the largest carapace size. Principal component analysis (PCA) identified PC1 and PC3 as critical factors in distinguishing between species based on morphological characteristics. Positive PC1 values, associated with a shorter carapace height, indicated a flatter or more compact shell shape. A higher PC3 value corresponded to a raised shape at the back of the shell, while a lower PC3 value indicated a raised shape at the front. Specifically, Leopard tortoises exhibited a higher carapace shape than the other species, while African spurred tortoises had shorter carapaces. An allometric effect was observed in the carapaces, where smaller specimens tended to be proportionately higher-domed, whereas larger shells displayed a lower height in shape. These findings highlight the significance of shape variations in tortoise shells, which emerge during adaptation and have important implications for taxonomy and clinical practice. Such differences should be carefully considered in veterinary care and species identification. [ABSTRACT FROM AUTHOR]

Published

2024

9. Visuomotor predictors of interception.

Author

Márquez, Inmaculada and Treviño, Mario

Subjects

*PUPILLARY reflex, *VISUAL perception, *GEOMETRIC analysis, *HUMAN behavior, *EYE tracking, *JOYSTICKS, *GAZE

Abstract

Intercepting moving targets is a fundamental skill in human behavior, influencing various domains such as sports, gaming, and other activities. In these contexts, precise visual processing and motor control are crucial for adapting and navigating effectively. Nevertheless, there are still some gaps in our understanding of how these elements interact while intercepting a moving target. This study explored the dynamic interplay among eye movements, pupil size, and interceptive hand movements, with visual and motion uncertainty factors. We developed a simple visuomotor task in which participants used a joystick to interact with a computer-controlled dot that moved along two-dimensional trajectories. This virtual system provided the flexibility to manipulate the target's speed and directional uncertainty during chase trials. We then conducted a geometric analysis based on optimal angles for each behavior, enabling us to distinguish between simple tracking and predictive trajectories that anticipate future positions of the moving target. Our results revealed the adoption of a strong interception strategy as participants approached the target. Notably, the onset and amount of optimal interception strategy depended on task parameters, such as the target's speed and frequency of directional changes. Furthermore, eye-tracking data showed that participants continually adjusted their gaze speed and position, continuously adapting to the target's movements. Finally, in successful trials, pupillary responses predicted the amount of optimal interception strategy while exhibiting an inverse relationship in trials without collisions. These findings reveal key interactions among visuomotor parameters that are crucial for solving complex interception tasks. [ABSTRACT FROM AUTHOR]

Published

2024

10. Feeding mode drives mandibular shape in extant Delphinidae.

Author

Vicari, D., Boccone, G., and Pandolfi, L.

Subjects

*TOOTHED whales, *DELPHINIDAE, *MODES of variability (Climatology), *GEOMETRIC analysis, *MANDIBLE

Abstract

Delphinidae is the most diverse family within the toothed whale clade, displaying two biosonar modes, different feeding strategies, and diving and habitat adaptations. This work examines the delphinid mandible to determine the association between shape, size and ecological variables in extant species. Geometric morphometric analysis on 95 mandibles belonging to 30 (out of 38) extant species, representatives of all 17 extant genera, was performed in occlusal (or dorsal) and lateral (or labial) view. The results reveal that feeding mode and climate primarily drive mandibular shape in extant species. Biosonar mode is an evolutionary driver in mandibular shape in occlusal view, while diet and maximum prey size play a significant role in size only in both views. By contrast, Diving Ecology, Superficial Temperature and Rostral index do not play a significant role in driving delphinid mandibular shape and size. [ABSTRACT FROM AUTHOR]

Published

2024

11. A Bioequivalence Trial of Lenvatinib Mesylate Capsules in Healthy Subjects Under Fasting and Postprandial Conditions.

Author

Shao, Junbo, Liu, Xingxing, Zhang, Geying, Xiang, Ajun, and Xie, Xiaoyan

Subjects

*ORAL drug administration, *CHINESE people, *GEOMETRIC analysis, *CONFIDENCE intervals, *PHARMACOKINETICS, *FASTING

Abstract

The aim of this study was to evaluate the comparative effectiveness and safety profiles of generic lenvatinib mesylate capsules and the reference product in a cohort of healthy Chinese individuals. The research design consisted of a randomized, open‐label trial with a single‐dose regimen, 2 crossover periods, and 2 distinct phases involving participants from the Chinese population. A total of 24 individuals were enrolled in the fasting study, with an additional 27 participants included in the postmeal study. Each participant received a single dose of either 4 mg of the reference product or the study product per cycle. The washout period was 14 days between each period. Bioequivalence was assessed through the analysis of geometric mean and ratio of pharmacokinetic parameters, while the safety of both drugs was evaluated by monitoring adverse events (AEs). Following a single oral administration of lenvatinib (4 mg), linear pharmacokinetics were observed. The rate of absorption was found to be significantly faster under fasting conditions (median time to maximum concentration, 2.3‐2.5 hours), while the presence of a high‐fat diet resulted in delayed absorption (median tmax, 5.3‐6.1 hours). Furthermore, the 90% confidence intervals for the reference and test pharmacokinetic parameters under both fasting and postprandial conditions fell within the bioequivalence standard range of 80%‐125%. AEs were reported in 34.78% of cases during fasting and in 48.15% of cases after eating. There was no significant difference in AE rates between the reference and study products. The study determined that both the study product and the reference product were bioequivalent and well tolerated by healthy Chinese participants in both fasting and postprandial conditions. [ABSTRACT FROM AUTHOR]

Published

2024

12. Rational design of metal–organic cages to increase the number of components via dihedral angle control.

Author

Abe, Tsukasa, Takeuchi, Keisuke, Higashi, Masahiro, Sato, Hirofumi, and Hiraoka, Shuichi

Subjects

DIHEDRAL angles, GEOMETRIC analysis, LIGANDS (Chemistry), PROBLEM solving, IONS

Abstract

The general principles of discrete, large self-assemblies composed of numerous components are not unveiled and the artificial formation of such entities is a challenging topic. In metal–organic cages, design strategies for tuning the coordination directions in multitopic ligands by the bend and twist angles were previously developed to solve this problem. In this study, the importance of remote geometric communications between components is emphasized, realizing several types of metal–organic assemblies based on dihedral angle control in multitopic ligands although they have the same coordination directions. Self-assembly of a tritopic ligand with dihedral angles θ = 36.5° and a cis-protected Pd(II) ion affords M9L6 and M12L8 cages as kinetic and thermodynamic products, respectively, whereas an M12L8 sheet is formed when θ = 90°. Geometric analyses of strains in the subcomponent rings reveals that remote geometric communications among neighboring multitopic ligands through coordination bonds are key for large assemblies. General design principles for self-assembly of discrete, large metal-organic cages composed of numerous components are challenging to develop. Here, the authors use remote geometric communications between components to realize several types of metal–organic assemblies based on dihedral angle control in multitopic ligands. [ABSTRACT FROM AUTHOR]

Published

2024

13. Systematic analysis of geometric inaccuracy and its contributing factors in roboforming.

Author

Bharti, Sahil, Paul, Eldho, Uthaman, Anandu, Krishnaswamy, Hariharan, Klimchik, Alexandr, and Abraham Boby, Riby

Subjects

*GEOMETRIC analysis, *MANUFACTURING processes, *GEOMETRIC shapes, *METALWORK, *SHEET metal, *INDUSTRIAL robots

Abstract

Incremental sheet metal forming is a highly versatile die-less forming process for manufacturing complex sheet metal components. Robot-assisted incremental sheet forming, or roboforming, allows a wider range of tool motion, providing the capability to shape intricate components. This makes roboforming the most flexible variant of the incremental forming method. However, the serial arrangement of links and joints in a robotic manipulator results in low positional accuracy under forming loads due to insufficient structural stiffness. The stiffness of the machine frame and tool directly impacts the accuracy of the final formed profile. The impact of machine compliance on component shape in incremental sheet forming is substantial in roboforming. This work presents a methodology for systematic analysis of the factors contributing to the errors in the geometric shape of robot-based forming. Experimental and numerical methods are used to estimate the material springback, tool/tool holder deflections, and errors due to machine compliance. The CNC machine frame is relatively stiffer than the industrial robots, such that material springback is estimated based on the experimental trials on CNC for cone and variable wall angle cone profiles. Tool and tool holder deflections are estimated using finite element simulations. The analytical method using the Virtual Joint Model is used to model the joint stiffness, and consequently, the robot Cartesian stiffness is estimated to predict path deviation contributing to geometric shape errors. The proportional contribution of each factor in the overall deviation in the Roboforming is also quantified. [ABSTRACT FROM AUTHOR]

Published

2024

14. Asexuality shapes traits in a hybrid fish.

Author

Lafond, Joëlle, Leung, Christelle, and Angers, Bernard

Subjects

ANIMAL morphology, ASEXUAL reproduction, ORGANIC gardening, GEOMETRIC analysis, GAMETOGENESIS

Abstract

Animal morphology is influenced by several factors, including gonadal development and gametogenesis. Although their effects are well documented in male/female differentiation, much less is known about same-sex effects, such as those caused by their mode of reproduction. Here, using geometric morphometric analyses, we compare two groups of all-female triploid hybrid fish Chrosomus eos × eos-neogaeus, that differ only by their sexual and asexual reproductive strategies. We demonstrate that morphological differences arise from factors inherently associated with their mode of reproduction, with results replicated in two distinct lineages and in natural and common garden environments. Such differences provide additional insight about the costs and benefits of both reproductive strategies, which have mostly been of a demographic, population genetic, or genetic nature. In particular, these findings have important implications for the ecology of asexual organisms and contribute to the study of sex evolution by adding complexity to the paradox of sex theory. Morphology associated with reproductive strategy in animals can be difficult to isolate. Here, the authors use geometric morphometrics to study triploid hybrid Chrosomus fish that reproduce sexually and asexually, identifying morphological differences associated with reproductive strategy. [ABSTRACT FROM AUTHOR]

Published

2024

15. Reshetnyak's Worldline and Memes.

Author

Kutateladze, S. S.

Subjects

*QUASICONFORMAL mappings, *GEOMETRIC analysis, *NONLINEAR theories, *MEMES

Abstract

This is a brief overview of the worldline and memes of Yurii Reshetnyak (1929–1921), the Russian leader of geometric analysis. [ABSTRACT FROM AUTHOR]

Published

2024

16. Evaluation of the effect of modafinil on the pharmacokinetics of encorafenib and binimetinib in patients with BRAF V600-mutant advanced solid tumors.

Author

Piscitelli, Joseph, Reddy, Micaela B., Wollenberg, Lance, Del Frari, Laurence, Gong, Jason, Matschke, Kyle, and Williams, Jason H.

Subjects

*DRUG interactions, *MODAFINIL, *GEOMETRIC analysis, *CYTOCHROME P-450 CYP3A, *BRAF genes

Abstract

Background: A clinical drug-drug interaction (DDI) study was designed to evaluate the effect of multiple doses of modafinil, a moderate CYP3A4 inducer at a 400 mg QD dose, on the multiple oral dose pharmacokinetics (PK) of encorafenib and its metabolite, LHY746 and binimetinib and its metabolite, AR00426032. Methods: This study was conducted in patients with BRAF V600-mutant advanced solid tumors. Treatment of 400 mg QD modafinil was given on Day 15 through Day 21. Encorafenib 450 mg QD and binimetinib 45 mg BID were administered starting on Day 1. PK sampling was conducted from 0 to 8 h on Day 14 and Day 21. Exposure parameters were calculated for each patient by noncompartmental analysis and geometric least-squares mean ratio. Corresponding 90% confidence intervals were calculated to estimate the magnitude of effects. Results: Among 11 PK evaluable patients, encorafenib Cmax and AUClast were decreased in presence of steady-state modafinil by 20.2% and 23.8%, respectively. LHY746 exposures were not substantially changed in the presence of steady-state modafinil. Conclusion: The results from this clinical study indicate modafinil 400 mg QD had a weak effect on encorafenib PK. Based on these results, encorafenib can be coadministered with a moderate CYP3A4 inducer without dosing adjustment. Clinical trial registration: ClinicalTrials.gov NCT03864042, registered 6 March 2019. [ABSTRACT FROM AUTHOR]

Published

2024

17. Geometric morphometric analysis of beak shape of Columbimorphae (Columbas, Van, Mardin and Dönek).

Author

Özkan, Ermiş, Günay, Ebuderda, Deveci, Emine İrem, Manuta, Nicoleta, and Çakar, Buket

Subjects

*PIGEONS, *PRINCIPAL components analysis, *GEOMETRIC analysis, *NATURAL selection, *NULL hypothesis

Abstract

Selective breeding over centuries has led to the emergence of numerous pigeon breeds from the single species Columba livia, showcasing unparalleled phenotypic diversity. In Eastern Turkey, Van pigeons originate, while Tumbler pigeon varieties thrive countrywide, reflecting local traditions. The avian beak, vital for survival, offers insights into domestication and traits influenced by natural selection. Geometric morphometrics, a shape analysis method, allows for a comprehensive examination of beak shapes among domestic pigeons, providing a nuanced understanding of their complexity. Understanding beak diversity in pigeons, especially those found in Turkey, enhances our knowledge of avian evolution and adaptation processes. The study utilized 48 skulls from 4 pigeon breeds, including wild rock pigeons and domestic pigeons of Tumbler, Mardin and Van breeds, all free from pathological lesions and adults. Geometric morphometric analyses of beak shape were conducted using dorsal and lateral photographs, with landmarks placed using tpsDig software. MorphoJ software facilitated procrustes analysis and principal component analysis (PCA) to assess morphological variability and differentiate pigeon breeds based on shape patterns, with significance set at p < 0.05. PCA revealed significant shape variations among pigeon breeds, with 47 principal components identified for lateral beak views and 36 principal components for dorsal views. Canonical variates analysis further distinguished morphological patterns among breeds, indicating distinct shape variations in both dorsal and lateral views, elucidating the unique characteristics of each breed's beak morphology. Our results demonstrate statistically significant differences in pigeon beak shape, particularly in the lateral view, confirming the importance of these variations (p < 0.05) and suggesting that such differences occur less than 5% of the time under the null hypothesis. [ABSTRACT FROM AUTHOR]

Published

2024

18. Numerical Analysis of a Linear Quasi-Static and Vibrational Response of Gypsum Sandwich Panels Reinforced with Fiberglass Fabrics.

Author

Wahrhaftig, A., Carvalho, R., and Brito, L.

Subjects

*FINITE element method, *GEOMETRIC analysis, *STRESS-strain curves, *NONLINEAR analysis, *NUMERICAL analysis, *SANDWICH construction (Materials)

Abstract

To expand plaster utilization as a binder, mechanical behavior of sandwich panels consisting of two faces of plaster reinforced with fiberglass fabrics and a core of extruded polystyrene foam was studied. Using software based on the finite element method, computational models were utilized to simulate the four-point bending test. Two scenarios were examined: assuming a linear stress-strain curve for the material and employing nonlinear geometric analysis. These computational simulations allowed to determine loading limits and vertical displacements. After determining the flexural stiffness, the vibration response was calculated via an analytical procedure. This investigation proved that sandwich panels with greater thicknesses and volumes of reinforcements on the plaster faces exhibited greater load-bearing capacity, smaller displacements, greater resistance to traction and compression, and greater stiffness. Notably, panel 3, which had the thickness and volume content of reinforcement in the composite faces 24.71 and 66.67% higher, respectively, than reference panel, presented the best static and vibrational responses. [ABSTRACT FROM AUTHOR]

Published

2024

19. The class differentiation of older age: Capitals and lifestyles.

Author

Atkinson, Will

Subjects

*OLDER people, *SOCIAL status, *DIFFERENTIATION (Sociology), *AGE differences, *GEOMETRIC analysis

Abstract

Older people have been overlooked in recent debates over the relationship between age, class and culture despite their prevalence and the conceptual questions they raise. Seeking to bridge mainstream class analysis with debates in social gerontology, especially via a shared turn to Pierre Bourdieu's relational sociology, this paper draws on survey data from the US to examine not only the class position of older people but their internal social and cultural differentiation. I use geometric data analysis to construct a model of the class system, locate older people within it and then explore differences among older people. I then proceed to compare the cultural symbolisations of social positions among older people to those of the larger sample. The core structures of social and cultural differentiation among older people are roughly homologous with those of the broader sample, but there are also notable differences and even inversions pointing toward the specificity – and autonomy – of ageing as a principle of difference and practice. [ABSTRACT FROM AUTHOR]

Published

2024

20. Investigation of key problems of clustering perforation string running in horizontal well with unconventional oil-gas reservoirs.

Author

Du, Zhigang, Liu, Jun, Guo, Xiaoqiang, Kai, Tang, Chen, Jianbo, and Xiang, Huang

Subjects

*HORIZONTAL wells, *GEOMETRIC analysis, *TUBES

Abstract

Currently, there are two main clustering perforation methods: coiled tubing-conveyed perforation (TCP) and cable-conveyed perforation (CCP). To improve the efficiency of CCP strings in wellbore pass-through capacity problems, considering wellbore geometry constraints, pipe string variable cross-section, flexible tool deformation, and other factors, the pass-through capacity analysis model of the perforating tool string was established and solved by geometric analysis and beam-column theory. Aiming at the running depth problem of a TCP string, considering the influence of the buckling effect, a model of coiled tubing running depth was established by the infinitesimal method. The field test data were used to verify the effectiveness of the two models. The effects of well trajectory, perforating string size, casing inner diameter, and coiled tubing size on the pass-through capacity of the CCP string and running depth of the TCP string were explored. The results indicate that with the increase of perforation string size or the reduction of casing inner diameter, the pass-through capacity of CCP string decreases; with the increase of coiled tubing specification, the running capacity of TCP string is improved. The work presented in this paper provides an effective analysis method and theoretical guidance for clustering perforation jobs in the field. [ABSTRACT FROM AUTHOR]

Published

2024

21. The Singularities of Selberg- and Dotsenko–Fateev-Like Integrals.

Author

Sussman, Ethan

Subjects

*INTEGRALS, *GEOMETRIC analysis, *CRYSTAL field theory, *SINGULAR integrals

Abstract

We discuss the meromorphic continuation of certain hypergeometric integrals modeled on the Selberg integral, including the 3-point and 4-point functions of BPZ's minimal models of 2D CFT as described by Felder & Silvotti and Dotsenko & Fateev (the "Coulomb gas formalism"). This is accomplished via a geometric analysis of the singularities of the integrands. In the case that the integrand is symmetric (as in the Selberg integral itself) or, more generally, what we call "DF-symmetric," we show that a number of apparent singularities are removable, as required for the construction of the minimal models via these methods. [ABSTRACT FROM AUTHOR]

Published

2024

22. A Geometric Analysis of Masonry Sail Vaults at the Magistral Palace, Valletta, for the Study of Maltese Stereotomy.

Author

Antista, Armando, Morena, Sara, and Mifsud, Christian

Subjects

GEOMETRIC analysis, MASONRY, SIXTEENTH century, SEVENTEENTH century, SAILS, EXTRAPOLATION

Abstract

The research deals with an interesting interdisciplinary case study for the knowledge and dissemination of masonry sail vaults in Malta between the 16th and the 17th centuries. In particular, it focuses on the sail vaults of the Magistral Palace, which have a distinctive structure. Based on a digital survey, the necessary data was extrapolated to critically analyse the geometry, through drawing and three-dimensional modelling. The paper, therefore, presents graphical and geometric investigations, which complement the study of the history of the Magistral Palace. Comparisons with the Maltese architectural context between the 16th and 17th centuries show the use of different solutions for the construction of sail vaults, according to different geometries. This implies knowledge of the international debate on the theory of stonecutting at the time. [ABSTRACT FROM AUTHOR]

Published

2024

23. On the Areas of Genus Zero Free Boundary Minimal Surfaces Embedded in the Unit 3-Ball.

Author

McGrath, Peter and Zou, Jiahua

Abstract

We prove that the area of each nonflat genus zero free boundary minimal surface embedded in the unit 3-ball is less than the area of its radial projection to S 2 . The inequality is asymptotically sharp, and we prove any sequence of surfaces saturating it converges weakly to S 2 , as currents and as varifolds. [ABSTRACT FROM AUTHOR]

Published

2024

24. Analysis of bow‐string arch using geometric data from 3D scanning.

Author

Odrobiňák, Jaroslav, Farbák, Matúš, Chromčák, Jakub, and Gocál, Jozef

Subjects

BRIDGE testing, NUMERICAL analysis, GEOMETRIC analysis, NONLINEAR analysis, RAILROAD bridges, ARCH bridges

Abstract

The utilization of currently measured geometric data for analysis of arch bridges and their stability is discussed. The presented contribution follows a set of research activities focused on real values of geometric imperfections of a steel bow‐string arch bridge using 3D scanning. Relatively new railway arch bridge with span 124.8 m is discussed. Deviations from the theoretical design shape of the arch were recorded during the erection stage and after a proof‐load test of the bridge, as well. Thus, it was possible to observe if and how the geometric imperfection changes during construction. Numerical models were created to perform geometrically nonlinear analysis. Both theoretical and real imperfections obtained by 3D scanning were considered in the analysis to compare and quantify the influence of the actual deformed shape. Finally, the obtained data, their comparison, the applicability of the presented methods, and possible pitfalls of the procedure are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

25. Analysis of the Geometric Accuracy of Wax Models Produced Using PolyJet Molds.

Author

Cygnar, Mariusz, Dziubek, Tomasz, Kądziołka, Tomasz, Budzik, Grzegorz, Żelechowski, Damian, Majewski, Mateusz, and Turek, Paweł

Subjects

GEOMETRIC analysis, THREE-dimensional printing, WAXES, MOLDS (Casts & casting), GEOMETRIC modeling, RAPID tooling, OPTICAL scanners

Abstract

The article presents an analysis of the geometric accuracy of wax models produced using PolyJet molds. Photopolymer resin was used to make the molds, and the surface of the model was finished in a gloss mode in the 3D printing process. This allows you to obtain a smooth surface of the molded part model. The geometric accuracy of the models was determined by measurements with the GOM ATOS scanner and analysis of the measurement results in relation to the base model made in the 3D-CAD program. Accuracy analysis was the basis for determining the wear of the mold wear when making subsequent models. [ABSTRACT FROM AUTHOR]

Published

2024

26. Structural visualization analysis applied to the preservation of architectural heritage: the case of stilted houses in southwest Hubei, China.

Author

Qian, Cheng, Wang, Tong, and Yu, Sihan

Subjects

*COLUMNS, *FINITE element method, *STRUCTURAL stability, *GEOMETRIC analysis, *WOODEN-frame buildings

Abstract

Wooden buildings represent a unique aspect of China's architectural heritage. However, over time, these buildings have suffered varying degrees of structural damage, particularly those located in China's mountainous regions. Frequent natural disasters and inconvenient transportation further exacerbate the vulnerability of these structures. This study focuses on the typical wooden stilt houses found in the Wuling Mountain area of southwest Hubei. The different forms of columns and beams, as well as the overall structural symmetry of the stilt houses, were classified into five common structural types. Precise digital models were established via real photos and collected dimensional data, and these five models were evaluated for static, buckling, utilization, and ultimate limit states. The results indicate that: (1) overall symmetrical structures perform better than asymmetrical ones; (2) structures where all columns are grounded and act as support columns exhibit the best overall mechanical performance; and (3) transverse-tie beams(chuanfang) primarily serve a connecting role rather than a load-bearing role, thus an excess of transverse-tie beams(chuanfang) can reduce the stability of the building structure. Based on the analysis results, targeted protective measures and recommendations were proposed and verified through structural evaluations. These initiatives provide new methods and insights for the protection of architectural heritage. [ABSTRACT FROM AUTHOR]

Published

2024

27. Deciphering the Hearts: Geometric Morphometrics Reveals Shape Variation in Abatus Sea Urchins across Subantarctic and Antarctic Seas.

Author

Moya, Fernando, Hernández, Jordan, Suazo, Manuel J., Saucède, Thomas, Brickle, Paul, Poulin, Elie, and Benítez, Hugo A.

Subjects

*SEA urchins, *PRINCIPAL components analysis, *INTERTIDAL zonation, *PHENOTYPIC plasticity, *GEOMETRIC analysis

Abstract

Simple Summary: Abatus is a genus of sea urchin that inhabits the Southern Ocean. Among the 11 described species, three shared morphological traits and live in intertidal zones in Patagonia (A. cavernosus), Kerguelen (A. cordatus), Antarctica, and Tierra del Fuego (A. agassizii). The relationships between Abatus species are complicated and have not been clarified yet. This study analyzed shape variation among these species. The shape of 72 individuals from four locations in the South Shetlands, Kerguelen, Patagonia, and Falklands/Malvinas, were evaluated. Differences in shape were found in all four locations. Especially, the Falklands/Malvinas group showed a marked difference in shape compared to other localities. The possibility that the Falklands/Malvinas group shows phenotypic plasticity or represents a distinct evolutionary unit is discussed. Finally, the methodology used in this study proved to be a powerful tool to differentiate these species, highlighting its utility in systematic studies. Abatus is a genus of irregular brooding sea urchins to the Southern Ocean. Among the 11 described species, three shared morphological traits and present an infaunal lifestyle in the infralittoral from the Subantarctic province; A. cavernosus in Patagonia, A. cordatus in Kerguelen, and A. agassizii in Tierra del Fuego and South Shetlands. The systematic of Abatus, based on morphological characters and incomplete phylogenies, is complex and largely unresolved. This study evaluates the shape variation among these species using geometric morphometrics analysis (GM). For this, 72 individuals from four locations; South Shetlands, Kerguelen, Patagonia, and Falklands/Malvinas were photographed, and 37 landmarks were digitized. To evaluate the shape differences among species, a principal component analysis and a Procrustes ANOVA were performed. Our results showed a marked difference between the Falklands/Malvinas and the other localities, characterized by a narrower and more elongated shape and a significant influence of location in shape but not sex. Additionally, the effect of allometry was evaluated using a permutation test and a regression between shape and size, showing significant shape changes during growth in all groups. The possibility that the Falklands/Malvinas group shows phenotypic plasticity or represents a distinct evolutionary unit is discussed. Finally, GM proved to be a powerful tool to differentiate these species, highlighting its utility in systematic studies. [ABSTRACT FROM AUTHOR]

Published

2024

28. Modern Dimensional Analysis Model Laws Used to Model Additive Manufacturing Processes.

Author

Asztalos, Zsolt, Száva, Ioan, Scutaru, Maria-Luminița, Vlase, Sorin, Gálfi, Botond-Pál, Renáta-Ildikó, Száva, and Popa, Gabriel

Subjects

DIMENSIONAL analysis, STRUCTURAL optimization, MANUFACTURING processes, MATHEMATICAL optimization, GEOMETRIC analysis

Abstract

Featured Application: Additive Manufacturing (AM) represents new and very promising manufacturing processes. The results can be applied immediately in the manufacturing industry in order to obtain significant decreases of the costs in some specific domains. By means of its facilities, AM brings several advantages in comparison with the classical manufacturing technologies. Nowadays, there are a huge number of unexplored directions, which assure AM will become a very powerful manufacturing process in the next period, with an undoubted low cost and reduced material consumption, as well as optimal stiffness and competitiveness technology. Between the unexplored (or less-explored) directions, one has to mention the dimensional methods' involvement in gaining an optimal, highly competitive final product. This means that instead of the real structural element, named the prototype, the engineers will perform high-accuracy tests on the attached reduced-scale models, whose experimental results are extended to the prototype by means of the deduced model law (ML). The authors, based on their previous theoretical research as well as experimental investigations, offer a new approach, which is less implemented in AM technologies. Based on the obtained results, these dimensional methods are very promising, especially the last one, the so-called Modern Dimensional Analysis (MDA), conceived by Thomas Szirtes and described in the following paper. Starting with the nowadays-applied dimensional methods' critical analysis, the authors will present evidence for the advantages of MDA, especially on the polymer-based AM technology. They will prove that MDA represents a very promising, as well as easy approach, which through its implementation can offer a higher competitiveness for AM technologies. As an illustration of the advantages of MDA, the authors conceived several MDA approaches for a given structural element's case (a cantilever beam, with an internal-ribbed structure loaded at its free end by means of a vertical concentrated load), which, through their high accuracy in experimental-validated MLs, offer very good accuracy in model–prototype correlation. The deviations between the effective measured values of the displacements on the prototypes and those predicted, based on the values of the measurements on the models assigned to the prototypes by the validated MLs, were 1.06, 1.60, and 2.35%, respectively. In the authors' opinion, MDA can represent a starting point for conceiving a highly competitive product with an optimal filling, as well as the deposition of layers using AM technologies. Based on the authors' best knowledge, up to this moment, it seems that this engineering area does not fully apply the advantages of MDA, only in few limited cases, analyzed in the following. [ABSTRACT FROM AUTHOR]

Published

2024

29. Evaluation of the use of box size priors for 6D plane segment tracking from point clouds with applications in cargo packing.

Author

Camacho-Muñoz, Guillermo A., Nope Rodríguez, Sandra Esperanza, Loaiza-Correa, Humberto, Silva do Monte Lima, João Paulo, and Roberto, Rafael Alves

Subjects

*TRACKING algorithms, *POINT cloud, *TRAFFIC cameras, *GEOMETRIC analysis, *AUGMENTED reality

Abstract

This paper addresses the problem of 6D pose tracking of plane segments from point clouds acquired from a mobile camera. This is motivated by manual packing operations, where an opportunity exists to enhance performance, aiding operators with instructions based on augmented reality. The approach uses as input point clouds, by its advantages for extracting geometric information relevant to estimating the 6D pose of rigid objects. The proposed algorithm begins with a RANSAC fitting stage on the raw point cloud. It then implements strategies to compute the 2D size and 6D pose of plane segments from geometric analysis of the fitted point cloud. Redundant detections are combined using a new quality factor that predicts point cloud mapping density and allows the selection of the most accurate detection. The algorithm is designed for dynamic scenes, employing a novel particle concept in the point cloud space to track detections' validity over time. A variant of the algorithm uses box size priors (available in most packing operations) to filter out irrelevant detections. The impact of this prior knowledge is evaluated through an experimental design that compares the performance of a plane segment tracking system, considering variations in the tracking algorithm and camera speed (onboard the packing operator). The tracking algorithm varies at two levels: algorithm ( A wpk ), which integrates prior knowledge of box sizes, and algorithm ( A woutpk ), which assumes ignorance of box properties. Camera speed is evaluated at low and high speeds. Results indicate increments in the precision and F1-score associated with using the A wpk algorithm and consistent performance across both velocities. These results confirm the enhancement of the performance of a tracking system in a real-life and complex scenario by including previous knowledge of the elements in the scene. The proposed algorithm is limited to tracking plane segments of boxes fully supported on surfaces parallel to the ground plane and not stacked. Future works are proposed to include strategies to resolve this limitation. [ABSTRACT FROM AUTHOR]

Published

2024

30. Mandibular ecomorphology in the genus <italic>ursus</italic> (Ursidae, Carnivora): relevance for the palaeoecological adaptations of cave bears (<italic>U. spelaeus</italic>) from Scladina cave.

Author

Charters, Daniel, Brown, Richard P., Abrams, Grégory, Di Modica, Kévin, Pirson, Stéphane, De Groote, Isabelle, Ghiraldi, Luca, and Meloro, Carlo

Subjects

*FISHER discriminant analysis, *GEOMETRIC approach, *GEOMETRIC analysis, *MANDIBLE, *CARNIVORA

Abstract

Considerable morphological and ecological diversity has been found in extinct and extant members of the bear genus, Ursus, and appears to be key in explaining how they have thrived across vast ecological gradients. One example is the cave bear Ursus spelaeus. We applied 2D geometric morphometric techniques to describe morphological changes in the mandibles of extant Ursus species to further interpret the palaeoecology of U. spelaeus. Ursus species were discriminated using their mandibular morphology, which showed intra and interspecific shape variation that was indirectly linked to climatic adaptations through dietary variation. Mandibles of bears that inhabit colder, drier and more seasonal environments were generally slender with large diastema and a dorsoventrally smaller ramus. In contrast, species from warmer environments with higher levels of precipitation were found to have a dorsoventrally taller ramus (relative to the corpus). Discriminant function analyses of the morphology of U. spelaeus suggested adaptations to a series of fluctuating environments through time, helping to assess previously proposed Marine Isotope Stages for sedimentary deposits in Scladina Cave. Our geometric morphometrics analyses of bear mandibular ecomorphology demonstrates how geometric morphometrics provides a valuable tool to enhance paleoenvironmental reconstructions within deposits of the same fossil site. [ABSTRACT FROM AUTHOR]

Published

2024

31. A novel guided approach to radiofrequency ablation of thyroid nodules: the Toronto Sunnybrook experience.

Author

Sarkis, Leba Michael, Higgins, Kevin, Enepekides, Danny, and Eskander, Antoine

Subjects

RECURRENT laryngeal nerve, LARYNGEAL nerve injuries, THYROID nodules, CATHETER ablation, GEOMETRIC analysis, LARYNGEAL nerves

Abstract

Introduction: Thyroid nodules are extremely common being detected by ultrasonography in up to 67% of the population, with current surgical tenet maintaining that lobectomy is required for large symptomatic benign nodules or autonomously functionally nodules resulting in a risk of hypothyroidism or recurrent laryngeal nerve injury even in high volume centres. The introduction of radiofrequency ablation (RFA) has allowed thermal ablation of both benign and autonomously functioning thyroid nodules with minimal morbidity. The moving shot technique is the most well-established technique in performing RFA of thyroid nodules, and has proven to be safe, efficacious, accurate and successful amongst experienced clinicians. The purpose of this article to propose the use of a novel guide when performing RFA of thyroid nodules in clinical practice utilizing the moving shot technique. Methods: The technique proposed of RFA involves the use of a 10MHz linear ultrasound probe attached to an 18G guide which provides robust in line visualisation of a 7cm or 10cm radiofrequency probe tip (STARmed, Seoul, Korea) utilizing the trans isthmic moving shot technique. A geometric analysis of the guide has been illustrated diagrammatically. Results: The use of an 18G radiofrequency probe guide (CIVCO Infiniti Plus™ Needle Guide) maintains in line visualisation of the radiofrequency probe over a cross-sectional area up to 28cm2, facilitating efficient and complete ablation of conceptual subunits during RFA of thyroid nodules. Discussion: Radiofrequency ablation of thyroid nodules can be performed safely and effectively using the novel radiofrequency probe guide proposed which we believe potentially improves both accuracy and overall efficiency, along with operator confidence in maintaining visualisation of the probe tip, and hence we believe provides a valuable addition to the armamentarium of clinicians wishing to embark on performing RFA of thyroid nodules. [ABSTRACT FROM AUTHOR]

Published

2024

32. A simple protocol for determining the zone axis direction from selected‐area electron diffraction spot patterns of cubic materials.

Author

Weirich, Thomas E.

Subjects

*DIFFRACTION patterns, *GEOMETRIC analysis, *ANGLES, *CALIBRATION, *SYMMETRY

Abstract

Using the well known Rn ratio method, a protocol has been elaborated for determining the lattice direction for the 15 most common cubic zone axis spot patterns. The method makes use of the lengths of the three shortest reciprocal‐lattice vectors in each pattern and the angles between them. No prior pattern calibration is required for the method to work, as the Rn ratio method is based entirely on geometric relationships. In the first step the pattern is assigned to one of three possible pattern types according to the angles that are measured between the three reciprocal‐lattice vectors. The lattice direction [uvw] and possible Bravais type(s) and Laue indices of the corresponding reflections can then be determined by using lookup tables. In addition to determining the lattice direction, this simple geometric analysis allows one to distinguish between the P, I and F Bravais lattices for spot patterns aligned along [013], [112], [114] and [233]. Moreover, the F lattice can always be uniquely identified from the [011] and [123] patterns. [ABSTRACT FROM AUTHOR]

Published

2024

33. Endocranial shape variation and allometry in Euarchontoglires.

Author

Lang, Madlen M., López-Aguirre, Camilo, Schroeder, Lauren, and Silcox, Mary T.

Subjects

*SIZE of brain, *PRINCIPAL components analysis, *LAGOMORPHA, *GEOMETRIC analysis, *ALLOMETRY

Abstract

While brain size in primates and their relatives within Euarchontoglires is well-studied, less research has examined brain shape, or the allometric trajectories that underlie the relationship between size and shape. Defining these patterns is key to understanding evolutionary trends. 3D geometric morphometric analyses of endocranial shape were performed on 140 species of extant euarchontoglirans using digital cranial endocasts. Principal component analyses on Procrustes shape variables show a clear phylogenetic pattern in endocranial shape, supported by an ANOVA which identified significant differences in shape among several groups (e.g., Platyrrhini, Strepsirrhini, Scandentia, Rodentia, and Lagomorpha). ANOVAs of shape and size also indicate that allometry has a small but significant impact on endocranial shape across Euarchontoglires, with homogeneity of slopes tests finding significant differences in the scaling relationship between shape and size among these same groups. While most of these clades possess a distinct endocranial morphotype, the highly derived platyrrhines display the strongest relationship between size and shape. Rodents show the most diversity in endocranial shape, potentially attributed to their comparatively weak relationship between shape and size. These results suggest fundamental differences in how shape and size covary among Euarchontoglires, which may have facilitated the adaptive radiations that characterize members of this group. [ABSTRACT FROM AUTHOR]

Published

2024

34. Geometric and thermodynamic analysis of a fully meshed double-scroll compressor.

Author

Wang, Jun, Li, Zengyao, Hou, Ruijie, Pan, Shiyang, Ren, Chunji, and Wang, Zengli

Subjects

*GEOMETRIC analysis, *FRICTION velocity, *COMPRESSORS, *COMPRESSOR performance, *ORBITS (Astronomy)

Abstract

The double-scroll wrap can effectively increase the volume flow rate compared with the commonly used single-scroll structure, but its built-in volume ratio is extensively reduced. With the aim of improving its built-in volume ratio, this study presented a fully meshed double-scroll profile, or called modified double-scroll, and proposed a generation method for it; its profile equations as well as relationships between its geometric parameters were obtained, and effects of the geometric parameters on the compressor performance were analyzed. Moreover, thermodynamic characteristic and working process of the double-scroll compressor were numerically simulated and verified with its performance experiment. It is found that the proposed fully meshed double-scroll significantly increases the built-in volume ratio by 33.8 %; meanwhile, it increases the volume flow rate, reduces the friction velocity between the orbiting and fixed scrolls, and decreases scroll dimensions. The proposed fully meshed double-scroll can be applied to the design and manufacture of scroll compressors. [ABSTRACT FROM AUTHOR]

Published

2024

35. A geometric morphometric analysis of wing variations in shape and size of the blue bottle fly, Calliphora vicina (Diptera: Calliphoridae).

Author

Gemmellaro, M Denise, Forzisi, Elena G, Anderson, Gail S, Hamilton, George C, and Weidner, Lauren M

Subjects

BODY temperature, FORENSIC entomology, GEOMETRIC analysis, SOLAR radiation, ATMOSPHERIC pressure

Abstract

A geometric morphometric analysis was performed on the right wing of adult Calliphora vicina (Robineau-Desvoidy) collected across 4 altitudinal levels in Sicily. The objective of this study was to assess differences in shape and centroid size (CS) between females and males and across elevations. The wings analyzed in this study were removed from adults of C. vicina collected with baited traps at 20, 700, 1,153, and 1,552; for this study, 19 landmarks were identified in each wing. The coordinates of the landmarks were aligned and superimposed to prevent variations due to position, orientation, and scale; they were then scaled to the same CS and recentered. CS and Procrustes differences were, respectively, used to assess variations in size and shape. Significant differences were observed in wing shape between males and females but not between all altitudinal levels. Female wings were found to be significantly larger than males (P  < 0.01). Wings of flies collected at the highest altitudinal level resulted in significantly larger wings than those collected at lower altitudes (P  < 0.001), with CS values ranging from 12.1 to 14.1. Variation in wing shape can impact thermal regulation, and therefore, oxygen content, temperature, atmospheric pressure, and solar radiation can have an effect on an insect's body and activity levels. At high elevations and lower temperatures, larger wings could mean less energy expenditure when flying to increase body temperature. [ABSTRACT FROM AUTHOR]

Published

2024

36. Assembly Simulation and Optimization Method for Underconstrained Frame Structures of Aerospace Vehicles.

Author

Li, Jinyue, Zhao, Gang, Wei, Jinhua, Hu, Zhiyuan, Zhang, Wenqi, and Zhang, Pengfei

Subjects

GEOMETRIC analysis, STRUCTURAL frames, MACHINING, MACHINERY

Abstract

Aerodynamic contour dimensional accuracy is very important for the stable and safe flight of aerospace vehicles. Nevertheless, due to the influence of various factors such as material properties, machining and manufacturing deviations, and assembly and installation deviations, key structural geometric dimensions are frequently exceeded. Therefore, this paper investigates a data-driven combined vector loop method (VLM)–Skin Model Shapes (SMS) method to realize aerospace vehicle structural geometric accuracy analysis; assembly optimization targeting contour deviation is also achieved. Tests are carried out on a typical aerospace vehicle's underconstrained structural workpieces to validate the effectiveness of the proposed method. [ABSTRACT FROM AUTHOR]

Published

2024

37. 面向管道检测的连续体机器人主从控制研究.

Author

孙 杰, 齐 飞, 张 恒, 李宵灵, 林 冀, and 封金成

Subjects

MONTE Carlo method, GEOMETRIC analysis, ROBOT control systems, PIPELINE inspection

Abstract

Copyright of Machine Tool & Hydraulics is the property of Guangzhou Mechanical Engineering Research Institute (GMERI) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

38. Real-time detection and geometric analysis algorithm for concrete cracks based on the improved U-net model.

Author

Zhang, Qian, Zhang, Fan, Liu, Hongbo, Wang, Longxuan, Chen, Zhihua, and Guo, Liulu

Abstract

Aiming at complex operation problems, low precision and poor robustness of traditional concrete crack detection methods, a real-time concrete crack detection and geometric analysis algorithm based on the improved U-net model is proposed. First, the efficient channel attention (ECA) module is embedded in the U-net model to reduce the loss of target information. The DenseNet network is used instead of the VGG16 network in the U-net basic model architecture, making transmitting features and gradients more effective. Then, based on the improved U-net model, the concrete crack detection experiment is performed. The experimental results indicate that the improved U-net model has 91.56% pixel accuracy (PA), 80.12% mean intersection over union (mIoU), 84.89% recall and 88.10% F1_score. The mIoU, PA, recall and F1_score of the improved U-net model increased by 17.39%, 7.82%, 2.62% and 5.10%, respectively, compared with the original model. Next, the real-time detection experiment of concrete cracks is performed based on the improved U-net model. The FPS of the improved model is the same as that of the original model and reaches 42. Finally, the geometric analysis of concrete cracks is performed based on the detection results of the improved U-net model. The area, density, length and average width information of concrete cracks are effectively extracted. The research results indicate that the detection effect of this study’s model on concrete cracks is considerably improved and that the model has good robustness. The model proposed in this study can achieve intelligent real-time and accurate identification of concrete cracks, which has broad application prospects. [ABSTRACT FROM AUTHOR]

Published

2024

39. Modified Brillouin intensity measurement method for a general Brillouin scattering system.

Author

Guo, Qian, Shang, Peijin, Wang, Shiyu, Zhang, Caizi, and Li, Fangfei

Subjects

*BRILLOUIN scattering, *GEOMETRIC modeling, *GEOMETRIC analysis

Abstract

A modified Brillouin intensity measurement method was developed in this study. A means of adjusting a modern Brillouin scattering system to apply the methods presented in previous literature was identified, an analysis model of the geometric factors for a given light path in a Brillouin scattering system was proposed, and ambiguous discussions in the literature due to the idealized modeling of geometric factors were addressed. The proposed model was expanded into a 60° platelet symmetric geometry by measuring the elastic and elasto-optical coefficients of MgO, KTaO3, and TeO2 samples. To avoid deviation, the geometric factor in experiments was considered, and various ways to circumvent it were identified. [ABSTRACT FROM AUTHOR]

Published

2023

40. Estimation of Local Scour Depth Around Bridge Pier.

Author

Sahu, S. K., Sethy, K., and Naik, J. K.

Subjects

BRIDGE pier caps, STEADY-state flow, GEOMETRIC analysis, SOIL sampling, DATA analysis

Abstract

Hydraulic bridges are critical components in infrastructure network. One of the major causes of its collapse is due to local scouring of its foundations. Hence in this study, the mechanism and various factors affecting local scour around bridge piers was analyzed. For this, a software platform Hydrologic Engineering Center River Analysis System (HEC-RAS) was used to evaluate local scouring around piers of spillway bridge with radial gates of Telengiri Irrigation Project located in Koraput district of Odisha, India. Soil samples were collected at the site and tested in the laboratory to determine various properties required for model inputs and assess the vulnerability of soil for scouring. Geometric data and design specifications of radial-gated bridge structure along with soil properties of the case study were used to build HEC-RAS model and then steady-state flow profiles were given to calculate local scour depth. Analytical methods such as Kothyari, Richardson, and IRC equations were used to corroborate local scour depth values with the model. The model predicted scouring of 8.29m which is close enough to values predicted by Richardson equation (8.95 m). This small discrepancy was due to not accounting for bed conditions and armoring of bed material. Parameters were varied in the model such as discharge, width and geometry of piers, skew angle of bridge and piers, angle of attack, and different bed configurations to simulate their effect on local scour depth. The soil was found to be highly erodible as per the soil erodibility factor obtained from the Wischmeier equation. [ABSTRACT FROM AUTHOR]

Published

2024

41. An adjustable high‐flux LED solar simulator based on dome structure.

Author

Xue, Chang‐Wen, Song, Jia‐Yong, Qin, Ze‐Sheng, Bian, Li‐Feng, Luo, Zi‐Jiang, and Yang, Chen

Subjects

*SOLAR cells, *HEAT flux, *CELLULAR aging, *LIGHT emitting diodes, *GEOMETRIC analysis, *DOCUMENT imaging systems, *SOLAR energy, *CCD cameras

Abstract

High‐flux solar simulator (HFSS) commonly serves as a vital instrument for conducting material testing and thermochemical experiments, offering valuable applications in the fields of photovoltaic cells and concentrated solar energy. This paper proposes a continuously adjustable HFSS based on light‐emitting diodes (LEDs), which can be employed for experimental testing in the solar cell aging. First, an irradiation unit module has been built using high‐power LEDs and total internal reflection lenses, and the irradiation performance of the single unit has been validated. In theory, a dome layout model is proposed, in which a detailed geometric analysis is provided for the maximum number of units that can be accommodated on the dome, considering unit size and dome dimensions. Subsequently, aluminum disc has been used as thermal flux sensors, and the irradiation distribution of the system is characterized using a charge‐coupled device observation camera and Lambertian board. The results indicate that the system offers an adjustable average flux ranging from 1.6 to 9.04 kW/m2 when the system input current is in the range of 7.2–54 A. Additionally, the system demonstrates a spatial nonuniformity of 2% within a 10‐mm diameter (Φ = 10 mm) region test region and temporal instability of 2% within 30 min. [ABSTRACT FROM AUTHOR]

Published

2024

42. The effect of including dynamic imaging derived airway wall motion in CFD simulations of respiratory airflow in patients with OSA.

Author

Xiao, Qiwei, Gunatilaka, Chamindu, McConnell, Keith, and Bates, Alister

Subjects

*MOTION, *VENTILATION, *AIR flow, *COMPUTATIONAL fluid dynamics, *AIRWAY (Anatomy), *SLEEP apnea syndromes, *GEOMETRIC analysis

Abstract

Obstructive sleep apnea (OSA) is an airway disease caused by periodic collapse of the airway during sleep. Imaging-based subject-specific computational fluid dynamics (CFD) simulations allow non-invasive assessment of clinically relevant metrics such as total pressure loss (TPL) in patients with OSA. However, most of such studies use static airway geometries, which neglect physiological airway motion. This study aims to quantify how much the airway moves during the respiratory cycle, and to determine how much this motion affects CFD pressure loss predictions. Motion of the airway wall was quantified using cine MRI data captured over a single respiratory cycle in three subjects with OSA. Synchronously-measured respiratory airflow was used as the flow boundary condition for all simulations. Simulations were performed for full respiratory cycles with 5 different wall boundary conditions: (1) a moving airway wall, and static airway walls at (2) peak inhalation, (3) end inhalation, (4) peak exhalation, and (5) end exhalation. Geometric analysis exposed significant local airway cross-sectional area (CSA) variability, with local CSA varying as much as 300%. The comparative CFD simulations revealed the discrepancies between dynamic and static wall simulations are subject-specific, with TPL differing by up to 400% between static and dynamic simulations. There is no consistent pattern to which static wall CFD simulations overestimate or underestimate the airway TPL. This variability underscores the complexity of accurately modeling airway physiology and the importance of considering dynamic anatomical factors to predict realistic respiratory airflow dynamics in patients with OSA. [ABSTRACT FROM AUTHOR]

Published

2024

43. Early Cretaceous troodontine troodontid (Dinosauria: Theropoda) from the Ohyamashimo Formation of Japan reveals the early evolution of Troodontinae.

Author

Kubota, Katsuhiro, Kobayashi, Yoshitsugu, and Ikeda, Tadahiro

Subjects

*SAURISCHIA, *ALLUVIUM, *GEOMETRIC analysis, *PHALANGES, *DINOSAURS

Abstract

A new troodontid dinosaur, Hypnovenator matsubaraetoheorum gen. et sp. nov., is described based on an articulated postcranial skeleton recovered from the fluvial deposits of the Albian Ohyamashimo Formation of the Sasayama Group in Tambasasayama City, Hyogo Prefecture, Japan. Hypnovenator is distinguished from other troodontids by four autapomorphies and a combination of additional features. Our phylogenetic analysis positions Hypnovenator as the oldest and one of the most basal troodontines, forming a clade with Gobivenator mongoliensis. The discovery of Hypnovenator suggests that small-bodied maniraptorans with a sleeping posture were common not only in environments with volcanic and eolian events or alluvial systems but also in fluvial systems. Geometric morphometric analysis of manual ungual phalanges shows that manual ungual phalanges I and III of Hypnovenator exhibit considerable morphological variation but are functionally similar, which differs from those of non-troodontine troodontids, reflecting the transition of manual motion within Troodontinae. Hypnovenator also has mosaic features in the pes related to cursoriality. This study reveals that asymmetrical arctometatarsus occurred by the Albian, and some morphological changes, such as shorter digit IV than digit III and non-ungual phalanges of digits III with roller joints and digit IV with weakly ginglymoid articulation, arose during the early Late Cretaceous. [ABSTRACT FROM AUTHOR]

Published

2024

44. Determining the Size of Representative Volume Elements for a Two-Dimensional Random Aggregate Numerical Model of Asphalt Mortar without Damage.

Author

Liang, Sheng, Tao, Jing, Zhao, Xiaoming, Liu, Zhong, Zhang, Derun, and Tu, Chongzhi

Subjects

*ASPHALT concrete, *GEOMETRIC analysis, *NUMERICAL analysis, *ASPHALT, *MORTAR

Abstract

The size of the representative volume element (RVE) for the two-dimensional (2D) random aggregate numerical model of asphalt mortar in a non-destructive state, which directly affects the time required to simulate the linear viscoelastic behavior from asphalt mastic to asphalt mortar. However, in the existing literature, limited research has been conducted on the size determination of the numerical model RVE for asphalt mortar. To provide a recommended size for the typical 2D random aggregate numerical model RVE of asphalt mortar in a nondestructive state, this paper first applies the virtual specimen manufacturing method of asphalt concrete 2D random aggregate to asphalt mortar. Then, it generates numerical model RVEs of asphalt mortar with different maximum particle sizes, after which geometric and numerical analyses are conducted on these models. Finally, based on the geometric and numerical analysis results, the recommended minimum sizes of RVE for the 2D asphalt mortar numerical model are provided. [ABSTRACT FROM AUTHOR]

Published

2024

45. When is a handaxe a planned-axe? exploring morphological variability in the Acheulean.

Author

Clark, James, Shipton, Ceri, Moncel, Marie-Hélène, Nigst, Philip Ronald, and Foley, Robert Andrew

Subjects

*STONE implements, *BIFACES (Stone implements), *GEOMETRIC analysis, *RAW materials, *PALEOLITHIC Period

Abstract

The handaxe is an iconic stone tool form used to define and symbolise both the Acheulean and the wider Palaeolithic. There has long been debate around the extent of its morphological variability between sites, and the role that extrinsic factors (especially raw material, blank type, and the extent of resharpening) have played in driving this variability, but there has been a lack of high-resolution examinations of these factors in the same study. In this paper, we present a 2D geometric morphometric analysis of 1097 handaxes from across Africa, the Levant, and western Europe to examine the patterning of this variability and what it can tell us about hominin behaviour. We replicate the findings of previous studies, that handaxe shape varies significantly between sites and entire continental regions, but we find no evidence for raw material, blank type, or resharpening in determining this pattern. What we do find, however, is that markers of reduction trajectory vary substantially between sites, suggesting that handaxes were deployed differently according to hominin need at a given site. We argue this is reflective of a continuum of reduction strategies, from those focused on the maintenance of a sharp cutting edge (i.e. direct use in cutting activities), to those focused on maintaining tip shapes, and perhaps a corresponding production of flakes. Implications for hominin behavioural flexibility are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

46. Geometric morphometric analysis of an ontogenetic cranial series of the Permian dicynodont Diictodon feliceps.

Author

Rabe, Caitlin, Marugán-Lobón, Jesús, Smith, Roger M. H., and Chinsamy, Anusuya

Subjects

*SYNAPSIDA, *GEOMETRIC analysis, *SEXUAL dimorphism, *MORPHOMETRICS, *SKULL

Abstract

The Karoo Basin of South Africa is renowned for its abundance and diversity of therapsid fossils. Among the most ubiquitous and persistent of the Permian fauna is the small herbivorous dicynodont Diictodon feliceps. Intraspecific variation in Diictodon is historically confounding, and while ontogeny is frequently cited as a potential source of variation, observable developmental changes have never been calibrated. The present study revisits this issue, comparing three-dimensional landmark configurations of 82 Diictodon crania to investigate the association between shape, size and dimorphism. Beyond the statistically significant relationship between shape and allometry, our results determine the shape differences between juvenile and adult skulls of Diictodon, aligned with common craniofacial features documented in other tetrapod taxa. Functionally, these changes are attributed to development of the jaw musculature for feeding on larger, tougher plant matter during later ontogeny. Cranial morphological variation owing to sexual dimorphism is negligible, but distinct differences are noted in the allometric trajectories of each morphotype. A component of non-allometric variation cannot be accounted for, and we propose that this represents natural variation, rather than an artefact of taphonomic deformation. [ABSTRACT FROM AUTHOR]

Published

2024

47. Beyond CREA: Evolutionary patterns of non‐allometric shape variation and divergence in a highly allometric clade of murine rodents.

Author

Marcy, Ariel E., Mitchell, D. Rex, Guillerme, Thomas, Phillips, Matthew J., and Weisbecker, Vera

Subjects

*FACIAL bones, *GEOMETRIC analysis, *SKULL, *ALLOMETRY, *MURIDAE

Abstract

The shared functions of the skull are thought to result in common evolutionary patterns in mammalian cranial shape. Craniofacial evolutionary allometry (CREA) is a particularly prominent pattern where larger species display proportionally elongate facial skeletons and smaller braincases. It was recently proposed that CREA arises from biomechanical effects of cranial scaling when diets are similar. Thus, deviations from CREA should occur with changes in cranial biomechanics, for example due to dietary change. Here, we test this using 3D geometric morphometric analysis in a dataset of Australian murine crania, which are highly allometric. We contrast allometric and non‐allometric variation in the cranium by comparing evolutionary mode, allometry, ordinations, as well as allometry, integration, and modularity in functional modules. We found evidence of stabilising selection in allometry‐containing and size‐free shape, and substantial non‐allometric variation aligned with dietary specialisation in parallel with CREA. Integration among cranial modules was higher, and modularity lower, with size included, but integration between rostrum and cranial vault, which are involved in the CREA pattern, dropped dramatically after size removal. Our results thus support the hypothesis that CREA is a composite arising from selection on cranial function, with substantial non‐allometric shape variation occurring alongside CREA where dietary specialisation impacts selection on gnawing function. This emphasises the need to research mammalian cranial evolution in the context of allometric and non‐allometric selection on biomechanical function. [ABSTRACT FROM AUTHOR]

Published

2024

48. Geometric Morphometric Analysis of Scapula at Cats and Dogs.

Author

AKÇASIZ, Zeynep Nilüfer, AKBAŞ, Zarife Selin, ÖZKAN, Ermiş, MANUTA, Nicoleta, SARITAŞ, Özlem, SZARA, Tomasz, SPATARU, Mihaela Claudia, and KAYA, Didar AYDIN

Subjects

*GEOMETRIC analysis, *SCAPULA, *DOGS, *SHOULDER joint, *FORELIMB, *DIAGNOSTIC sex determination, *CATS, *FELIDAE

Abstract

The scapula in quadrupedal mammals is a flat bone that connects the thoracic limb with the trunk above the shoulder joint. For this purpose, scapulae of 34 dogs and 23 cats were modeled using computer tomography. 9 Landmarks and 50 semilandmarks were used. The cat and dog samples differ in scapula shape, as do male and female cats. Centroid size has no apparent covariance with shape, and we did not find any difference between the two sexes in dogs. The scapula of cats was wider. The scapula of dogs was narrower and longer. Margo cranialis was more oval in cats. Angulus cranialis border was not clear in cats. Angulus caudalis was sharper in dogs. Spina scapulae was closer to caudal in cats. In cats, the fossa supraspinata was wider than the fossa infraspinata. Also, the collum scapulae was narrower in cats. The scapula of male cats was wider than that of female cats. In shape, the fossa supraspinata was wider in male cats. In male cats, the spina scapulae were more caudal. Angulus caudalis was wider in female cats. The most significant gender differences in dogs were in tuberculum supraglenoidale and margo caudalis. Male dogs had larger tuberculum supraglenoidale in shape. Margo caudalis was more caudal in male dogs. Geometric morphometrics was found to be effective in distinguishing the scapula of cats and dogs. In addition, this method can be useful in sex estimation. [ABSTRACT FROM AUTHOR]

Published

2024

49. Phylogenetics, Molecular Species Delimitation and Geometric Morphometrics of All Reddish-Brown Species in the Genus Neotriplax Lewis, 1887 (Coleoptera: Erotylidae: Tritomini) †.

Author

Liu, Jing, Xu, Huixin, Wang, Ziqing, Li, Panpan, Yan, Zihan, Bai, Ming, and Li, Jing

Subjects

*BIOLOGICAL classification, *CYTOCHROME oxidase, *GENETIC barcoding, *GEOMETRIC analysis, *BAYESIAN analysis

Abstract

Simple Summary: Due to the instability of interspecific morphological characteristics and the significant convergence phenomenon, it is difficult to identify most species of Neotriplax based on morphology. Through integrated research on the reddish-brown species of Neotriplax, which feature many phenotypic similarities, and by comprehensively utilizing morphology, molecular phylogeny, and geometric morphometrics, the relationship among all these species was reconstructed. The taxonomic status within the genus was partly clarified, with three new species being identified: N. qinghaiensis sp. nov., N. maoershanensis sp. nov., and N. guangxiensis sp. nov. To date, five species of reddish-brown Neotriplax have been described, but their highly similar body color and other phenotypic traits make accurate taxonomy challenging. To clarify species-level taxonomy and validate potential new species, the cytochrome oxidase subunit I (COI) was used for phylogenetic analysis and the geometric morphometrics of elytron, pronotum, and hind wing were employed to distinguish all reddish-brown Neotriplax species. Phylogenetic results using maximum likelihood and Bayesian analyses of COI sequences aligned well with the current taxonomy of the Neotriplax species group. Significant K2P divergences, with no overlap between intra- and interspecific genetic distances, were obtained in Neotriplax species. The automatic barcode gap discovery (ABGD), assemble species by automatic partitioning (ASAP), and generalized mixed Yule coalescent (GMYC) approaches concurred, dividing the similar species into eight molecular operational taxonomic units (MOTUs). Geometric morphometric analysis using pronotum, elytron, hind wing shape and wing vein patterns also validated the classification of all eight species. By integrating these analytical approaches with morphological evidence, we successfully delineated the reddish-brown species of Neotriplax into eight species with three new species: N. qinghaiensis sp. nov., N. maoershanensis sp. nov., and N. guangxiensis sp. nov. Furthermore, we documented the first record of N. lewisii in China. This study underscores the utility of an integrative taxonomy approach in species delimitation within Neotriplax and serves as a reference for the taxonomic revision of other morphologically challenging beetles through integrative taxonomy. [ABSTRACT FROM AUTHOR]

Published

2024

50. Analysis of different combinations of gravity data types in gravimetric geoid determination over Bali.

Author

Udama, Zahroh Arsy, Claessens, Sten, Anjasmara, Ira Mutiara, and Syafarianty, Agustina Nur

Subjects

*GEOID, *SURFACE of the earth, *GRAVITY, *GLOBAL Positioning System, *GEOMETRIC analysis

Abstract

Following the Regulation of the Head of the Geospatial Information Agency (BIG) No. 13 of 2021, geoid is used as the Vertical Geospatial Reference System in Indonesia. Applications using the geoid as an ideal reference require a much higher accuracy and resolution than the geoid obtained from models derived solely from satellite data. The Indonesian Geospatial Information Agency considers the geoid ideal if it has reached an accuracy of better than 15 cm. Recent studies have combined satellite and other gravimetric data to produce a combined geoid model with increased resolution. Gravimetric data obtained from measurements close to the Earth's surface, such as airborne and terrestrial gravity data, are particularly attractive because the high-frequency portion of the signal is more apparent and can contribute to the medium to high frequencies of the gravity field. This study models the geoid over Bali Island by combining satellite, airborne and terrestrial gravity data. Calculations were performed using Least Square Collocation (LSC) and Remove-Compute-Restore (RCR) techniques. The gravimetric geoid model was tested against the geometric geoid profile calculated from a GNSS/Levelling survey. The geoid, calculated by combining the GOCO06S satellite gravity model, the GGMplus gravity model and airborne gravity data at an average flight altitude of 4100 m produces a standard deviation of 14.46 cm along the 125 km validation path. After also adding terrestrial gravity data, the standard deviation increased to 16.37 cm. By comparison, the results of the validation of the geoid model from GOCO06S and INAGEOIDV2 with geometric geoids have standard deviation values of 79.56 cm and 16.40 cm, respectively. However, the results of the statistical tests are strongly influenced by the data quality used as validation, in this case, GNSS/Levelling. It is shown that the GNSS/Levelling data over Bali contains significant errors, which have been reduced based on an analysis of geometric vertical deflections. A geometric geoid profile with higher accuracy is required to test the accuracy of the gravimetric geoid models more reliably. [ABSTRACT FROM AUTHOR]

Published

2024