This study investigates how elbow hyperextension affects ball release speed in fast bowling. A two-segment planar computer simulation model comprising an upper arm and forearm + hand was customised to an elite fast bowler. A constant torque was applied at the shoulder and elbow hyperextension was represented using a damped linear torsional spring at the elbow. The magnitude of the constant shoulder torque and the torsional spring parameters were determined by concurrently matching three performances. Close agreement was found between the simulations and the performances with an average difference of 3.8%. The simulation model with these parameter values was then evaluated using one additional performance. Optimising ball speed by varying th...
The purpose of this study was to calculate the kinematics and kinetics of the rear leg drive in fast...
In the sport of cricket the objective of the ‘no-ball’ law is to allow no performance advantage thro...
The Australian Institute of Sport Biomechanics department cricket fast bowling technique data were a...
This study investigates how elbow hyperextension affects ball release speed in fast bowling. A two-s...
This paper investigates how elbow hyperextension characteristics affect ball speed in fast bowling....
The purpose of this modelling study was to assess the sensitivity of wrist joint speed to systemati...
This modelling study sought to describe the relationships between elbow joint kinematics and wrist j...
Bowling in cricket is traditionally thought to be a rigid-arm motion, allowing no elbow straightenin...
The aim of this study was to identify the key aspects of technique that characterize the fastest bow...
While an experimental approach is suitable to understand the differences between bowlers it is not s...
The aim of this study was to examine the velocity dependence of shoulder alignment counter rotation,...
In this study a method for determining elbow extension and elbow abduction for a cricket bowling del...
The purpose of this study was to assess the sensitivity of wrist joint velocity to manipulations of ...
The purpose of this study was to identify the biomechanics of the bowling arm in fast bowlers in cri...
The purpose of this study was to analyse the kinetics of front arm motion in fast bowling. A sample ...
The purpose of this study was to calculate the kinematics and kinetics of the rear leg drive in fast...
In the sport of cricket the objective of the ‘no-ball’ law is to allow no performance advantage thro...
The Australian Institute of Sport Biomechanics department cricket fast bowling technique data were a...
This study investigates how elbow hyperextension affects ball release speed in fast bowling. A two-s...
This paper investigates how elbow hyperextension characteristics affect ball speed in fast bowling....
The purpose of this modelling study was to assess the sensitivity of wrist joint speed to systemati...
This modelling study sought to describe the relationships between elbow joint kinematics and wrist j...
Bowling in cricket is traditionally thought to be a rigid-arm motion, allowing no elbow straightenin...
The aim of this study was to identify the key aspects of technique that characterize the fastest bow...
While an experimental approach is suitable to understand the differences between bowlers it is not s...
The aim of this study was to examine the velocity dependence of shoulder alignment counter rotation,...
In this study a method for determining elbow extension and elbow abduction for a cricket bowling del...
The purpose of this study was to assess the sensitivity of wrist joint velocity to manipulations of ...
The purpose of this study was to identify the biomechanics of the bowling arm in fast bowlers in cri...
The purpose of this study was to analyse the kinetics of front arm motion in fast bowling. A sample ...
The purpose of this study was to calculate the kinematics and kinetics of the rear leg drive in fast...
In the sport of cricket the objective of the ‘no-ball’ law is to allow no performance advantage thro...
The Australian Institute of Sport Biomechanics department cricket fast bowling technique data were a...