A personalized sensor-controlled microstimulator system for arm rehabilitation poststroke. Part 1: system architecture
DR Merrill, R Davis, R Turk, JH Burridge - Neuromodulation: Technology at …, 2011 - Elsevier
Objectives For rehabilitation of the poststroke upper limb in seven subjects, an external
sensor-based system controls the timing of five to seven microstimulators implanted near …
sensor-based system controls the timing of five to seven microstimulators implanted near …
A personalized sensor-controlled microstimulator system for arm rehabilitation poststroke. Part 1: System architecture
DR Merrill, R Davis, R Turk… - … : journal of the …, 2011 - pubmed.ncbi.nlm.nih.gov
Objectives For rehabilitation of the poststroke upper limb in seven subjects, an external
sensor-based system controls the timing of five to seven microstimulators implanted near …
sensor-based system controls the timing of five to seven microstimulators implanted near …
A Personalized Sensor-Controlled Microstimulator System for Arm Rehabilitation Poststroke. Part 1: System Architecture
DR Merrill, R Davis, R Turk… - …, 2011 - neuromodulationjournal.org
Objectives For rehabilitation of the poststroke upper limb in seven subjects, an external
sensor-based system controls the timing of five to seven microstimulators implanted near …
sensor-based system controls the timing of five to seven microstimulators implanted near …
A Personalized Sensor‐Controlled Microstimulator System for Arm Rehabilitation Poststroke. Part 1: System Architecture
DR Merrill, R Davis, R Turk… - … : Technology at the …, 2011 - Wiley Online Library
Objectives: For rehabilitation of the poststroke upper limb in seven subjects, an external
sensor‐based system controls the timing of five to seven microstimulators implanted near …
sensor‐based system controls the timing of five to seven microstimulators implanted near …
A personalized sensor-controlled microstimulator system for arm rehabilitation poststroke. Part 1: System architecture.
DR Merrill, R Davis, R Turk… - … : Journal of the …, 2010 - europepmc.org
Objectives For rehabilitation of the poststroke upper limb in seven subjects, an external
sensor-based system controls the timing of five to seven microstimulators implanted near …
sensor-based system controls the timing of five to seven microstimulators implanted near …
A Personalized Sensor‐Controlled Microstimulator System for Arm Rehabilitation Poststroke. Part 1: System Architecture
DR Merrill, R Davis, R Turk, JH Burridge - … : Technology at the Neural …, 2011 - infona.pl
Objectives: For rehabilitation of the poststroke upper limb in seven subjects, an external
sensor‐based system controls the timing of five to seven microstimulators implanted near …
sensor‐based system controls the timing of five to seven microstimulators implanted near …
[引用][C] A personalized sensor-controlled microstimulator system for arm rehabilitation post-stroke. Part 1: System architecture
DR Merrill, R Davis, R Turk, JH Burridge - Neuromodulation, 2011 - eprints.soton.ac.uk
A personalized sensor-controlled microstimulator system for arm rehabilitation post-stroke. Part
1: System architecture - ePrints Soton The University of Southampton Courses University life …
1: System architecture - ePrints Soton The University of Southampton Courses University life …
A Personalized Sensor‐Controlled Microstimulator System for Arm Rehabilitation Poststroke. Part 1: System Architecture
DR Merrill, R Davis, R Turk, JH Burridge - … : Technology at the Neural …, 2011 - infona.pl
Objectives: For rehabilitation of the poststroke upper limb in seven subjects, an external
sensor‐based system controls the timing of five to seven microstimulators implanted near …
sensor‐based system controls the timing of five to seven microstimulators implanted near …