Latest Articles for Biomechanics

Exploring how spinal circuits and brain signals work together for locomotion.

This article examines how soft tissues react to various forces.

This research explores how we adjust walking through recalibration and mapping.

This study explores how robots learn walking through experience and symmetry.

Exploring the impact of mesh quality on soft tissue simulation accuracy.

This study examines muscle models to improve injury analysis during car crashes and sports.

Study reveals how spinal canal shape influences cerebrospinal fluid movement and behavior.

This study analyzes how motor unit models create muscle force in various tasks.

Study explores blood behavior and its impact on heart valve efficiency.

A review of modeling techniques for better understanding hip disorders.

A look at computational models that enhance our knowledge of muscle behavior.

A study on using RGBD cameras for improved motion analysis in rehabilitation.

A new framework addresses complex nonlinear responses in materials.

A study on how the California sea slug feeds through muscle and nervous system interactions.

Animals use feedback and feedforward control to adapt their movement in varied environments.

A look at how animals run and walk efficiently.

Researchers enhance understanding of scleral mechanics through direct fiber modeling techniques.

Exploring how insects use sensors for movement coordination.

Examining the stability of cantilever structures in soft robotic applications.

A look into how PDA helps analyze complex functional data.

Study reveals how muscle activation affects mouse locomotion on a treadmill.

Exploring continuum mechanics to understand materials on curved surfaces.

Research shows how horizontal touchdown distance affects sprinter performance.

A study on fluid dynamics in elastic porous materials with real-world applications.

Research reveals how internal stresses in arteries affect health and risk assessments.

A new method enhances the accuracy of physical activity measurements.

New methods improve accuracy in measuring muscle forces and joint torque.

New method measures cell stiffness without harming the cells, aiding disease research.

New methods improve accuracy in fluid-solid interaction modeling within poroelasticity.

A new algorithm improves data on arm movements during everyday tasks.

Research aims to improve models of finger movement for enhanced robotic design.

Exploring the unique mechanics and versatility of elephant trunks.

Exploring how center of mass affects balance and stability during motion.

Study reveals new methods for analyzing running biomechanics and injury prevention.

Innovative techniques improve efficiency in studying hyperelastic materials and their applications.

Explore how the shoulder enables impressive movements like throwing.

Exploring how epithelial tissues behave and rearrange under mechanical stress.

Improved knee exoskeletons enhance movement from sitting to standing during rehabilitation.

Analyzing complete walking patterns reveals crucial links to osteoarthritis progression.

Automated methods improve accuracy in muscle path calibration for better modeling.