Martin Aursand Berge
About
Martin completed his master's degree in Human Movement Science in 2018. He worked as a sectional engineer on various research projects at the Department of Neuromedicine and Movement Science. Martin has been employed in the Mobilise-D and MobilNOR projects at INB. He is pursuing a Ph.D. in Medicine and Health Sciences, focusing on the topic "Mobility after Hip Fracture".
Publications
2025
-
Younesian, Hananeh;
Singleton, David;
Vereijken, Beatrix;
Garcia-Aymerich, Judith;
Rochester, Lynn;
Berge, Martin Aursand.
(2025)
Association of Cut-Point Free Metrics and Common Clinical Tests Among Older Adults After Proximal Femoral Fracture.
Sensors
Academic article
2024
-
Kirk, Cameron;
Küderle, Arne;
Micó-Amigo, M. Encarna;
Bonci, Tecla;
Paraschiv-Ionescu, Anisoara;
Ullrich, Martin.
(2024)
Correction to: Mobilise-D insights to estimate real-world walking speed in multiple conditions with a wearable device (Scientific Reports, (2024), 14, 1, (1754), 10.1038/s41598-024-51766-5).
Scientific Reports
Errata
2018
-
Berge, Martin Aursand;
Brændvik, Siri Merete;
Roeleveld, Karin;
Goihl, Tobias.
(2018)
P 143 - Plantarflexor strength in relation to vertical ground reaction force in terminal stance in children and adolescents with spastic cerebral palsy.
Gait & Posture
Academic article
Journal publications
-
Younesian, Hananeh;
Singleton, David;
Vereijken, Beatrix;
Garcia-Aymerich, Judith;
Rochester, Lynn;
Berge, Martin Aursand.
(2025)
Association of Cut-Point Free Metrics and Common Clinical Tests Among Older Adults After Proximal Femoral Fracture.
Sensors
Academic article
-
Kirk, Cameron;
Küderle, Arne;
Micó-Amigo, M. Encarna;
Bonci, Tecla;
Paraschiv-Ionescu, Anisoara;
Ullrich, Martin.
(2024)
Correction to: Mobilise-D insights to estimate real-world walking speed in multiple conditions with a wearable device (Scientific Reports, (2024), 14, 1, (1754), 10.1038/s41598-024-51766-5).
Scientific Reports
Errata
-
Berge, Martin Aursand;
Brændvik, Siri Merete;
Roeleveld, Karin;
Goihl, Tobias.
(2018)
P 143 - Plantarflexor strength in relation to vertical ground reaction force in terminal stance in children and adolescents with spastic cerebral palsy.
Gait & Posture
Academic article