A mathematical modeling of the human upper extremity: An application of its model to the simulation of baseball pitching motion

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Title translated into German:Ein mathematisches Modell der oberen Extremitaet beim Menschen und seine Anwendung auf die Simulation der Bewegung des Pitchens beim Baseball
Author:Ahn, Byoung-Hwa; Lee, Gye-San; Kim, Bo-Yeon
Published in:Korean journal of sport science
Published:5 (1993), S. 51-81, Lit.
Format: Publications (Database SPOLIT)
Publication Type: Journal article
Media type: Print resource
Language:English
ISSN:1598-2939
Keywords:
Online Access:
Identification number:PU199402070429
Source:BISp
id PU199402070429
bisp-collection db
format Literatur
last_indexed 2004-06-28T16:54:43Z
first_indexed 2003-12-30T14:36:13Z
publication_source BISp
subformat Zeitschriftenartikel
hierarchy_top_id JO00000000902
hierarchy_parent_id JOY19930000902
hierarchy_top_title Korean journal of sport science
hierarchy_parent_title Korean journal of sport science, 1993
is_hierarchy_id PU199402070429
is_hierarchy_title A mathematical modeling of the human upper extremity: An application of its model to the simulation of baseball pitching motion
hierarchy_sequence 0051
recordtype bisparticle
publishDate 1993
publishDate_facet 1993
language eng
title A mathematical modeling of the human upper extremity: An application of its model to the simulation of baseball pitching motion
spellingShingle A mathematical modeling of the human upper extremity: An application of its model to the simulation of baseball pitching motion
Analyse, biomechanische
Baseballspiel
Beschleunigung
Bewegungsanalyse
Biomechanik
Extremität, obere
Gelenkwinkel
Kinematographie
Modell
Modell, mathematisches
Simulation
Werfer
title_sort a mathematical modeling of the human upper extremity an application of its model to the simulation of baseball pitching motion
title_short A mathematical modeling of the human upper extremity: An application of its model to the simulation of baseball pitching motion
title_alt Ein mathematisches Modell der oberen Extremitaet beim Menschen und seine Anwendung auf die Simulation der Bewegung des Pitchens beim Baseball
title_alt_lang deu
media_type Gedruckte Ressource
city Seoul
abstract The purposes of this study were to create a mathematical model of the human upper extremity and to apply the model to the acceleration phase of the fast baseball pitching motion. Angular trajectories at the elbow and wrist joints in the fast baseball pitching were generated experimentally by a three-dimensional cinematographic technique and theoretically by simulation technique. The mathematical model was applied to generate angular trajectories that closely matched the experimental trajectories at the elbow and wrist joint and the maximal angular trajectories at the elbow and wrist joint in the pitching motion. Under the conditions that the tracking parameters, initial and final angles, and performance time were predetermined, this author was unable to obtain dramatic changes in the angular trajectory of the elbow joint toward an angular trajectory that resulted in increased hand velocity at the ball while the angular trajectory at the joint quite differed from the experimental angular trajectory. The hand velocity at the ball release was not very increased from the velocity obtained from the experiment. The trajectories of the pitching arm depend heavily on the motion of the other body parts connected to the upper arm through the shoulder joint. Therefore, the maximal angular trajectory of the pictching arm that can be obtained from simulation is not the true maximal angular trajectory unless the motion of the other body parts is maximal. Verf.-Referat
abstract_lang eng
abstract_type abstract
author2 Ahn, Byoung-Hwa
Lee, Gye-San
Kim, Bo-Yeon
author_facet Ahn, Byoung-Hwa
Lee, Gye-San
Kim, Bo-Yeon
author2-role Autor
Autor
Autor
author2-authorityid


author_author_facet Ahn, Byoung-Hwa
Lee, Gye-San
Kim, Bo-Yeon
author2-synonym


author2_hierarchy_facet 0/Autor/
1/Autor/Ahn, Byoung-Hwa/
0/Autor/
1/Autor/Lee, Gye-San/
0/Autor/
1/Autor/Kim, Bo-Yeon/
spelling Ahn, Byoung-Hwa
Lee, Gye-San
Kim, Bo-Yeon
1598-2939
1145081-2
Analyse, biomechanische
Baseballspiel
Beschleunigung
Bewegungsanalyse
Biomechanik
Extremität, obere
Gelenkwinkel
Kinematographie
Modell
Modell, mathematisches
Simulation
Werfer
acceleration
baseball
biomechanical analysis
biomechanics
cinematography
joint angle
mathematical model
model
movement analysis
simulation
thrower
upper extremity
Bowler (Cricket)
Pitcher (Baseballspiel; Softballspiel)
Baseball
Feldpartei
Schlagpartei
Home run
Mal
Pitchen
Run
Standmal
Walk
Catcher
Inning
Baseballspieler
Modellierung
Modell, kognitives
Modellbildung
Bewegung, physikalische
Merkmal, biomechanisches
Biokinematik
Prinzip, biomechanisches
Arm
Armversehrter
Oberarmamputierter
Beschleunigungsphase
Beschleunigungsverhalten
Beschleunigungsprozess
Gelenkstellung
Körperwinkel
Analyse, methodische
Aufzeichnung, biomechanische
Untersuchung, biomechanische
Kinematogramm
upper limb
articular angle
A mathematical modeling of the human upper extremity: An application of its model to the simulation of baseball pitching motion
PU199402070429
199402070429
issn 1598-2939
zdb 1145081-2
location_hierarchy_facet 0/Südkorea/
topic Analyse, biomechanische
Baseballspiel
Beschleunigung
Bewegungsanalyse
Biomechanik
Extremität, obere
Gelenkwinkel
Kinematographie
Modell
Modell, mathematisches
Simulation
Werfer
topic_facet Analyse, biomechanische
Baseballspiel
Beschleunigung
Bewegungsanalyse
Biomechanik
Extremität, obere
Gelenkwinkel
Kinematographie
Modell
Modell, mathematisches
Simulation
Werfer
topic_en acceleration
baseball
biomechanical analysis
biomechanics
cinematography
joint angle
mathematical model
model
movement analysis
simulation
thrower
upper extremity
topic_en_facet acceleration
baseball
biomechanical analysis
biomechanics
cinematography
joint angle
mathematical model
model
movement analysis
simulation
thrower
upper extremity
synonym Bowler (Cricket)
Pitcher (Baseballspiel; Softballspiel)
Baseball
Feldpartei
Schlagpartei
Home run
Mal
Pitchen
Run
Standmal
Walk
Catcher
Inning
Baseballspieler
Modellierung
Modell, kognitives
Modellbildung
Bewegung, physikalische
Merkmal, biomechanisches
Biokinematik
Prinzip, biomechanisches
Arm
Armversehrter
Oberarmamputierter
Beschleunigungsphase
Beschleunigungsverhalten
Beschleunigungsprozess
Gelenkstellung
Körperwinkel
Analyse, methodische
Aufzeichnung, biomechanische
Untersuchung, biomechanische
Kinematogramm
synonym_en upper limb
articular angle
journal_facet Korean journal of sport science
container_title Korean journal of sport science
container_volume 5
container_start_page S. 51-81
has_references 1
institution BISp
journal_fac JO00000000902
journal_year 1993
_version_ 1717724168706850816
score 13,024099