scholarly journals Extending the Geometric Approach for Studying Biomechanical Motions

2019 ◽  
Vol 59 (3) ◽  
pp. 684-695 ◽  
Author(s):  
C M Martinez ◽  
P C Wainwright
Keyword(s):  
Shape Change ◽  
Geometric Approach ◽  
Suitable Alternative ◽  
Biomechanical Models ◽  
Trajectory Length ◽  
Different Shapes ◽  
Primary Focus ◽  
Complex Relationships ◽  
Linkage Models ◽  
Traditional Approaches

Abstract Whether it is swimming, walking, eating, or jumping, motions are a fundamental way in which organisms interact with their environment. Understanding how morphology contributes to motion is a primary focus of kinematic research and is necessary for gaining insights into the evolution of functional systems. However, an element that is largely missing from traditional analyses of motion is the spatial context in which they occur. We explore an application of geometric morphometrics (GM) for analyzing and comparing motions to evaluate the outputs of biomechanical linkage models. We focus on a common model for oral jaw mechanics of perciform fishes, the fourbar linkage, using GM to summarize motion as a trajectory of shape change. Two traits derived from trajectories capture the total kinesis generated by a linkage (trajectory length) and the kinematic asynchrony (KA) of its mobile components (trajectory nonlinearity). Oral jaw fourbar data from two subfamilies of Malagasy cichlids were used to generate form–function landscapes, describing broad features of kinematic diversity. Our results suggest that kinesis and KA have complex relationships with fourbar morphology, each displaying a pattern in which different shapes possess equivalent kinematic trait values, known as many-to-one mapping of form-to-function. Additionally, we highlight the observation that KA captures temporal differences in the activation of motion components, a feature of kinesis that has long been appreciated but was difficult to measure. The methods used here to study fourbar linkages can also be applied to more complex biomechanical models and broadly to motions of live organisms. We suggest that they provide a suitable alternative to traditional approaches for evaluating linkage function and kinematics.

A New Constrained Shape Deformation Operator With Applications in Footwear Design

2008 ◽  
Author(s):  
Ying Xu ◽  
Ajay Joneja
Keyword(s):  
Numerical Methods ◽  
Optimization Problem ◽  
Shape Change ◽  
Geometric Approach ◽  
Shape Deformation ◽  
Uzawa Method ◽  
Constrained Optimization Problem ◽  
Integral Property ◽  
Lagrangian Multipliers ◽  
Footwear Design

In this paper, we address a problem that arises in several engineering applications: the deformation of a curve with constraints on its length. Since length is an integral property, typically computed by numerical methods, therefore implementing such shape change operations is non trivial. Recently some researchers have attempted to solve such problems for multi-resolution representations of curves. However, we take a differential geometric approach. The modification problem is formulated as constrained optimization problem, which is subsequently converted to an unconstrained min-max problem using Lagrangian multipliers. This problem is solved using the Uzawa method. The approach is implemented in MATLAB™, and some examples are presented in the paper.

Biomechanics of Growth, Remodeling, and Morphogenesis

1995 ◽  
Vol 48 (8) ◽  
pp. 487-545 ◽  
Author(s):  
Larry A. Taber
Keyword(s):  
Shape Change ◽  
Experimental Studies ◽  
Cell Movement ◽  
Theoretical Models ◽  
Cellular Level ◽  
Experimental Results ◽  
Future Research ◽  
Cell Sheets ◽  
Biomechanical Models ◽  
Division Cell

This review deals with biomechanical aspects of growth (mass change), remodeling (property change), and morphogenesis (shape change) in living systems. The emphasis is on theoretical models, but relevant experimental results also are discussed. As an aid to the reader, the fundamental biological terms and concepts are defined for the general problem and for each specific topic. At the outset, the processes involved in growth, remodeling, and morphogenesis are described and placed within the context of the evolution of species. Next, some of the analytical methods used in biomechanical models for these processes are presented. Then, applications of these and other techniques to specific systems are discussed, beginning at the cellular level and proceeding upward to the tissue and organ levels. At the cellular level, modeling and experimental studies are reviewed for cell division, cell movement, and pattern formation, and then morphogenetic mechanisms for epithelia (cell sheets) are discussed. At the tissue and organ levels, the musculoskeletal and cardiovascular systems are considered. Several models are described for growth, remodeling, and morphogenesis of bone, and mainly experimental results are examined in the cases of skeletal muscle, the heart, and arteries. Specific topics for the cardiovascular system include hypertrophy, residual stress, atherosclerosis, and embryonic development. Finally, some future research directions are suggested.

scholarly journals GDFE: Geometry-Driven Finite Element for Four-Dimensional Printing

2017 ◽  
Vol 139 (11) ◽  
Author(s):  
Tsz-Ho Kwok ◽  
Yong Chen
Keyword(s):  
Mathematical Model ◽  
Finite Element ◽  
Shape Change ◽  
Material Structure ◽  
Structure Property ◽  
4D Printing ◽  
Shape Transformation ◽  
Physical Experiments ◽  
Primary Focus ◽  
The Relationship

Four-dimensional (4D) printing is a new category of printing that expands the fabrication process to include time as the fourth dimension, and its simulation and planning need to take time into consideration as well. The common tool for estimating the behavior of a deformable object is the finite element method (FEM). However, there are various sources of deformation in 4D printing, e.g., hardware and material settings. To model the behavior by FEM, a complete understanding of the process is needed and a mathematical model should be established for the structure–property–process relationship. However, the relationship is usually complicated, which requires different kinds of testing to formulate such models due to the process complexity. With the insight that the characteristic of shape change is the primary focus in 4D printing, this paper introduces geometry-driven finite element (GDFE) to simplify the modeling process by inducing deformation behavior from a few physical experiments. The principle of GDFE is based on the relationship between material structure and shape transformation. Accordingly, a deformation simulation can be developed for 4D printing by applying the principles to the GDFEs. The GDFE framework provides an intuitive and effective way to enable simulation and planning for 4D printing even when a complete mathematical model of new material is not available yet. The use of the GDFE framework for some applications is also presented in this paper.

scholarly journals Tackling the Wicked Problem of Measuring What Matters: Framing the Questions

2019 ◽  
Vol 2 (3) ◽  
pp. 262-278 ◽  
Author(s):  
Yong Zhao ◽  
Michael Wehmeyer ◽  
James Basham ◽  
David Hansen
Keyword(s):  
Wicked Problem ◽  
Paradigm Change ◽  
Wrong Answer ◽  
Policy Makers ◽  
Education Assessment ◽  
Education Outcomes ◽  
Education Leaders ◽  
Complex Relationships ◽  
Traditional Approaches ◽  
What Matters

Purpose: Making policy makers, researcher, education leaders, and assessment developers aware that what matters in education assessment is a wicked problem that cannot be easily solved following traditional approaches. Design/Approach/Methods: Starting from the questions that what matters in education assessment, this article presented such questions as a wicked problem because there is no consensus, not right or wrong answer, and certain solutions may lead to side effects on students and society. Therefore, a new approach of ecology should be involved, and different education outcomes or intended qualities of learners are presented in complex relationships. Findings: Deciding what matters in education assessment is a wicked question. It is not a tame or technology problem and can be resolved by any conventional approaches. What is pivotal now is to decipher what matters in education and then what should be measured and ultimately how to measure. The ecology and collaborate approach deliberated in this article could expedite such a process. Originality/Value: This article advocates paradigm change in understanding and resolving one of the most urgent problems in education. It provides an ecology explanation of the relationships that exist among the different education outcomes and students’ qualities. By guiding through the dissecting of the problem step by step, this article has demonstrated a unique angle of understanding the wicked problem.

scholarly journals Genetic Programming Technique Applied for Flash-Flood Modelling Using Radar Rainfall Estimates

2017 ◽  
Vol 13 (4) ◽  
pp. 27-38 ◽  
Author(s):  
Cristian Dinu ◽  
Radu Drobot ◽  
Claudiu Pricop ◽  
Tudor Viorel Blidaru
Keyword(s):  
Genetic Programming ◽  
Flash Flood ◽  
Data Driven ◽  
Observation Data ◽  
Rainfall Runoff ◽  
Clear Trend ◽  
Programming Technique ◽  
Radar Rainfall ◽  
Complex Relationships ◽  
Traditional Approaches

AbstractThe rainfall-runoff transformation is a highly complex dynamic process and the development of fast and robust modelling instruments has always been one of the most important topics for hydrology. Over time, a significant number of hydrological models have been developed with a clear trend towards a process-based approach. The downside of these types of models is the significant amount of data required for building the model and for the calibration process: in practice, the collection of all necessary data for such models proves to be a difficult task. In order to cope with this issue, various data-driven modelling techniques have been introduced for hydrological modelling as an alternative to more traditional approaches, on the basis of their capacity of mapping out complex relationships from observation data. Having the capacity to generate meaningful mathematical structures as results, genetic programming (GP) presents a high potential for rainfall-runoff modelling as a data-driven method. Using ground and radar rainfall observation, the aim of this study is to investigate the GP technique capability for modelling the rainfall-runoff process, taking into consideration a flash-flood event.

Landscapes of the Song of Songs

2017 ◽  
Author(s):  
Elaine T. James
Keyword(s):  
Interdisciplinary Approach ◽  
Natural World ◽  
Theoretical Concept ◽  
Song Of Songs ◽  
Human Intervention ◽  
Nature And Culture ◽  
Architecture And Literature ◽  
Primary Focus ◽  
Complex Relationships

Landscapes of the Song of Songs is a unique, interdisciplinary approach to the ancient poetry of the Song of Songs. It develops a theoretical concept of landscape to explore the Song’s intrinsic interest in the natural world, engaging with work from the fields of geography, landscape architecture, and literature. It emphasizes the made quality of both landscapes and poetry, which are art forms defined by human intervention and vision. In this way it critiques the tendency of scholars to reify a perceived dichotomy in the Song between “nature” and “culture.” Each chapter explores a different imaginational landscape of the Song, using insights from landscape theory to inform close readings of the Song’s poems. The landscape concept emphasizes the material landscape, which is the primary focus of the study of agriculture in the Song. The landscape concept also maintains an insistence on human intervention, which informs the studies of both the garden and the city. Finally, a landscape concept implies an awareness of the viewer, which helps to re-appreciate the descriptive poems as a process of perceiving the lover and the land. With a twofold emphasis on landscape and lyric, this book shows how the Song persistently envisions a world in which human lovers are embedded in the natural world, enfolded in complex relationships of fragility and care. In addition, Landscapes offers new, close readings of selected poems of the Song.

Ontogeny and shape change of the phacopid trilobite Calyptaulax

2019 ◽  
Vol 93 (06) ◽  
pp. 1105-1125
Author(s):  
Gabriel S. Jacobs ◽  
Jesse R. Carlucci
Keyword(s):  
Multivariate Regression ◽  
Multivariate Analyses ◽  
Morphological Changes ◽  
Shape Change ◽  
Sharp Decrease ◽  
Growth Patterns ◽  
Anterior Portion ◽  
Major Transitions ◽  
Primary Focus ◽  
Anterior Migration

AbstractMajor transitions in trilobite ontogeny have historically been defined based on the number and distribution of trunk segments, and articulation between the trunk and cephalon. This study documents additional morphological change across the meraspid-holaspid transition on the Ordovician phacopid trilobite Calyptaulax strasburgensis. An extensive dataset of silicified cranidia and pygidia collected from the mid-Ordovician Edinburg Formation of Virginia was subjected to a series of multivariate analyses, with a primary focus on the intersections and termini of furrows. Multivariate regression of partial warp scores demonstrates statistically significant change in allometric growth patterns over the course of development. These changes are concentrated in earlier instars, but are coincident in cranidia and pygidia. This sharp decrease in the rate of allometry, present in both tagmata, is expressed as significant breakpoints derived from a segmented regression, with the largest portion of allometric change found in the pre-breakpoint individuals. The term holeidos is proposed to describe the completion of form during trilobite development, independent of the completion of the thorax. The most dramatic change in shape during this period of ontogeny includes lateral glabellar expansion through deflection of the axial and palpebral furrows, possibly reflecting a change in the feeding habit during later development. Other morphological changes include the development of a more angular appearance to the anterior portion of the glabella, and anterior migration of the pygidial anterior margin. The appearance of these growth patterns in Calyptaulax extends the temporal range of these changes, some of which have only been documented in Devonian phacopids.

Role of spectrin in membrane fusion and in shape change of human erythrocyte ghost

1978 ◽  
Vol 36 (2) ◽  
pp. 328-329
Author(s):  
Hideo Hayashi ◽  
Yoshikazu Hirai ◽  
John T. Penniston
Keyword(s):  
Conformational Changes ◽  
Human Erythrocyte ◽  
Shape Change ◽  
Membrane Surface ◽  
Slight Modification ◽  
Active Role ◽  
Main Role ◽  
Bank Blood ◽  
Human Erythrocyte Ghost

Spectrin is a membrane associated protein most of which properties have been tentatively elucidated. A main role of the protein has been assumed to give a supporting structure to inside of the membrane. As reported previously, however, the isolated spectrin molecule underwent self assemble to form such as fibrous, meshwork, dispersed or aggregated arrangements depending upon the buffer suspended and was suggested to play an active role in the membrane conformational changes. In this study, the role of spectrin and actin was examined in terms of the molecular arrangements on the erythrocyte membrane surface with correlation to the functional states of the ghosts.Human erythrocyte ghosts were prepared from either freshly drawn or stocked bank blood by the method of Dodge et al with a slight modification as described before. Anti-spectrin antibody was raised against rabbit by injection of purified spectrin and partially purified.

Trophoblast Cell Membrane Interactions at Implantation

1970 ◽  
Vol 28 ◽  
pp. 310-311
Author(s):  
A. C. Enders
Keyword(s):  
Epithelial Cells ◽  
Cell Membrane ◽  
Membrane Fusion ◽  
Trophoblast Cell ◽  
Membrane Interactions ◽  
Uterine Epithelial Cells ◽  
Functional Complex ◽  
Cytotrophoblast Cells ◽  
Complex Relationships ◽  
Syncytial Trophoblast

The alteration in membrane relationships seen at implantation include 1) interaction between cytotrophoblast cells to form syncytial trophoblast and addition to the syncytium by subsequent fusion of cytotrophoblast cells, 2) formation of a wide variety of functional complex relationships by trophoblast with uterine epithelial cells in the process of invasion of the endometrium, and 3) in the case of the rabbit, fusion of some uterine epithelial cells with the trophoblast.Formation of syncytium is apparently a membrane fusion phenomenon in which rapid confluence of cytoplasm often results in isolation of residual membrane within masses of syncytial trophoblast. Often the last areas of membrane to disappear are those including a desmosome where the cell membranes are apparently held apart from fusion.

Microstructural characterization of laser-melted/roller-quenched dicalcium silicate

1988 ◽  
Vol 46 ◽  
pp. 582-583
Author(s):  
C. J. Chan ◽  
K. R. Venkatachari ◽  
W. M. Kriven ◽  
J. F. Young
Keyword(s):  
Particle Size ◽  
Raw Materials ◽  
Shape Change ◽  
Microstructural Characterization ◽  
Particle Size Effect ◽  
Dicalcium Silicate ◽  
Laser Melting ◽  
Uniform Size ◽  
Cell Shape Change ◽  
Wide Range

Dicalcium silicate (Ca2SiO4) is a major component of Portland cement. It has also been investigated as a potential transformation toughener alternative to zirconia. It has five polymorphs: α, α'H, α'L, β and γ. Of interest is the β-to-γ transformation on cooling at about 490°C. This transformation, accompanied by a 12% volume increase and a 4.6° unit cell shape change, is analogous to the tetragonal-to-monoclinic transformation in zirconia. Due to the processing methods used, previous studies into the particle size effect were limited by a wide range of particle size distribution. In an attempt to obtain a more uniform size, a fast quench rate involving a laser-melting/roller-quenching technique was investigated.The laser-melting/roller-quenching experiment used precompacted bars of stoichiometric γ-Ca2SiO4 powder, which were synthesized from AR grade CaCO3 and SiO2xH2O. The raw materials were mixed by conventional ceramic processing techniques, and sintered at 1450°C. The dusted γ-Ca2SiO4 powder was uniaxially pressed into 0.4 cm x 0.4 cm x 4 cm bars under 34 MPa and cold isostatically pressed under 172 MPa. The γ-Ca2SiO4 bars were melted by a 10 KW-CO2 laser.

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