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Aki Salo

Aki Salo

University of Bath

H-index: 31

Europe-United Kingdom

About Aki Salo

Aki Salo, With an exceptional h-index of 31 and a recent h-index of 23 (since 2020), a distinguished researcher at University of Bath,

His recent articles reflect a diverse array of research interests and contributions to the field:

A novel computational framework for the estimation of internal musculoskeletal loading and muscle adaptation in hypogravity

Optimal fibre length and maximum isometric force are the most influential parameters when modelling muscular adaptations to unloading using Hill-type muscle models

Modifications to the net knee moments lead to the greatest improvements in accelerative sprinting performance: a predictive simulation study

Force production during maximal effort bend sprinting: theory versus reality

Three-dimensional data-tracking simulations of sprinting using a direct collocation optimal control approach

Automatic high fidelity foot contact location and timing for elite sprinting

Estimating muscle forces and adaptations during plyometric hopping in emulated hypogravity

The effect of biological maturity status on ground reaction force production during sprinting

Aki Salo Information

University

Position

___

Citations(all)

3583

Citations(since 2020)

1989

Cited By

2333

hIndex(all)

31

hIndex(since 2020)

23

i10Index(all)

54

i10Index(since 2020)

41

Email

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University Profile Page

University of Bath

Google Scholar

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Top articles of Aki Salo

Title

Journal

Author(s)

Publication Date

A novel computational framework for the estimation of internal musculoskeletal loading and muscle adaptation in hypogravity

Frontiers in Physiology

James Cowburn

Gil Serrancolí

Gaspare Pavei

Alberto Minetti

Aki Salo

...

2024/2/7

Optimal fibre length and maximum isometric force are the most influential parameters when modelling muscular adaptations to unloading using Hill-type muscle models

Frontiers in Physiology

James Cowburn

Gil Serrancolí

Steffi Colyer

Dario Cazzola

2024/4/17

Modifications to the net knee moments lead to the greatest improvements in accelerative sprinting performance: a predictive simulation study

Scientific reports

Nicos Haralabidis

Steffi L Colyer

Gil Serrancolí

Aki IT Salo

Dario Cazzola

2022/9/23

Force production during maximal effort bend sprinting: theory versus reality

SARAH M Churchill

Grant Trewartha

Ian Bezodis

Aki Salo

2022/5/3

Three-dimensional data-tracking simulations of sprinting using a direct collocation optimal control approach

PeerJ

Nicos Haralabidis

Gil Serrancolí

Steffi Colyer

Ian Bezodis

Aki Salo

...

2021/3/8

Automatic high fidelity foot contact location and timing for elite sprinting

Machine Vision and Applications

Murray Evans

Steffi Colyer

Aki Salo

Darren Cosker

2021/9

Estimating muscle forces and adaptations during plyometric hopping in emulated hypogravity

James Cowburn

Gil Serrancolí

Gaspare Pavei

Alberto Enrico Minetti

Aki Salo

...

2021/7/14

The effect of biological maturity status on ground reaction force production during sprinting

Scandinavian Journal of Medicine & Science in Sports

Steffi L Colyer

Ryu Nagahara

Yohei Takai

Aki IT Salo

2020/8

Differences in ground reaction waveforms between elite senior and junior academy sprinters during the block phase and first two steps

International Journal of Sports Science & Coaching

Philip Graham-Smith

Steffi L Colyer

Aki IT Salo

2020/6

Data-tracking and predictive simulations of sprint running

Nicos Haralabidis

Gil Serrancolí

Steffi Colyer

Ian Bezodis

Aki Salo

...

2020

See List of Professors in Aki Salo University(University of Bath)