191,146 research outputs found
Benoit, George R.
George R. Benoit - USDA , Faculty Associate, plants and soils.https://digitalcommons.library.umaine.edu/univ_photos/1875/thumbnail.jp
Scaling up qualitative data: with Professor Ken Benoit
Professor Benoit is the Principal Investigator in an ERC funded project QUANTESS developing innovative methods for the quantitative analysis of textual data in the social sciences. He is the co-author with Paul Nulty of the R software package for text analysis “quanteda”, and working on a book Quantitative Text Analysis Using R covering methods for managing, processing, and analysing textual data using the R programming language. He has taught quantitative text analysis extensively and has published research in this area targeting both methodology and political science applications
DEVELOPMENT OF A CONGRUENCE-BASED MUSCULOSKELETAL MODEL OF THE KNEE IN ANTERIOR CRUCIATE LIGAMENT INJURED ADOLESCENTS
Anterior cruciate ligament (ACL) injury rates are rising in adolescent populations [1]. To understand how an individual’s joint morphology dictates their motion patterns, researchers have developed patient-specific musculoskeletal models using medical images of the tibiofemoral joint (TFJ) to study ACL injuries [2]. In particular, congruence-based modelling optimizes the configuration of the tibiofemoral joint to reduce pressure during movement [3], mimicking the mechanotransduction properties of articular cartilage [4]. However, these models have predominantly been constructed using adult knees, and it is unclear if patient-specific models can be built for populations undergoing pubertal development. Therefore, the purpose of this research is to build a patient-specific knee model for modelling passive knee joint motion during adolescence
Alieniscus arnoldi BENOIT 1951
Alieniscus arnoldi BENOIT 1951 Alieniscus arnoldi n.sp.: BENOIT 1951: 91 (typ. gen., descr., Zimbabwe). Alieniscus arnoldi BENOIT: KROMBEIN 1957: 201 (cat.), 202 (tax., Zimbabwe), pls 19 (figs 10, 10a), 20 (figs 19, 19a), 21 (fig. 29). Alieniscus arnoldi BENOIT: KROMBEIN 1984: 215 (tax., Botswana, Zimbabwe). Alieniscus arnoldi BENOIT: KIMSEY & BOHART 1990: 90 (cat.). D i s t r i b u t i o n: Botswana, Zimbabwe.Published as part of Madl, M. & Rosa, P., 2012, A Catalogue of the Chrysididae (Hymenoptera: Chrysidoidea) of the Ethiopian Region excluding Malagasy Subregion, pp. 5-169 in Linzer biologische Beiträge 44 (1) on page 8, DOI: 10.5281/zenodo.532790
RECONSTRUCTION OF PATIENT-SPECIFIC TIBIOFEMORAL JOINT ARTICULATIONS FROM MARKER TRAJECTORIES AND ANTHROPOMETRICS
Patient-specific modelling through incorporating magnetic resonance imaging (MRI) improves biofidelity with respect to articulations, particularly at the knee [1]. However, these models can be both labour and time intensive, and access to MRI is not possible for all researchers. Principal component analysis (PCA) has been used to facilitate the reconstruction of articular surface features from existing morphology in adults [2]. The purpose of this research was to determine if patient-specific articulations of the tibiofemoral joint (TFJ) could be reconstructed from marker positions and anthropometrics in paediatric knees
DEVELOPMENT OF A CONGRUENCE-BASED MUSCULOSKELETAL MODEL OF THE KNEE IN ANTERIOR CRUCIATE LIGAMENT INJURED ADOLESCENTS
Anterior cruciate ligament (ACL) injury rates are rising in adolescent populations [1]. In order to better understand how an individual’s joint morphology dictates their motion patterns, researchers have developed patient-specific musculoskeletal models using medical images of the tibiofemoral joint (TFJ) to study ACL injuries [2]. In particular, congruence-based modelling optimizes the configuration of the tibiofemoral joint to reduce pressure during movement [3], mimicking the mechanotransduction properties of articular cartilage [4]. However, these models have predominantly been constructed using adult knees, and it is unclear if patient-specific models can be developed for a growing population. Therefore, the purpose of this research is to build a patient-specific knee model for modelling passive knee joint motion during adolescence
Benoit R. — Vivre et mourir à Reims au Grand Siècle (1580-1720)
Rohrbasser Jean-Marc. Benoit R. — Vivre et mourir à Reims au Grand Siècle (1580-1720). In: Population, 55ᵉ année, n°2, 2000. pp. 405-406
Benoit R. — Vivre et mourir à Reims au Grand Siècle (1580-1720)
Rohrbasser Jean-Marc. Benoit R. — Vivre et mourir à Reims au Grand Siècle (1580-1720). In: Population, 55ᵉ année, n°2, 2000. pp. 405-406
quanteda: Quantitative Analysis of Textual Data (R package)
An R package for managing and analyzing text, created by Kenneth Benoit. Supported by the European Research Council grant ERC-2011-StG 283794-QUANTESS. more information can be found at https://quanteda.io/Supported by the European Research Council grant ERC-2011-StG 283794-QUANTESS
Les grottes de Murabba'ât, par P. Benoit, O. P., J. T. Milik, et R. de Vaux
Laperrousaz Ernest-Marie. Les grottes de Murabba'ât, par P. Benoit, O. P., J. T. Milik, et R. de Vaux. In: Revue des Études Anciennes. Tome 63, 1961, n°3-4. pp. 446-453
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