ARGUNSAH H, YALCIN B, ERGIN MA, CORUHLU G, YALCIN M, PATOGLU V und GUVEN Z, 2025. Advancing Precision Rehabilitation Through a Sensor-Based 6-Do F Robotic Exoskeleton: Clinical Validation and Ergonomic Assessment. Sensors (Basel, Switzerland). 23 Dezember 2025. Vol. 26, no. 1, . DOI 10.3390/s26010088.

Argunsah H, Yalcin B, Ergin MA, Coruhlu G, Yalcin M, Patoglu V, Guven Z, 2025. Advancing Precision Rehabilitation Through a Sensor-Based 6-Do F Robotic Exoskeleton: Clinical Validation and Ergonomic Assessment. Sensors (Basel, Switzerland) 26. https://doi.org/10.3390/s26010088

Argunsah H, Yalcin B, Ergin MA, Coruhlu G, Yalcin M, Patoglu V, & Guven Z. (2025). Advancing Precision Rehabilitation Through a Sensor-Based 6-Do F Robotic Exoskeleton: Clinical Validation and Ergonomic Assessment. Sensors (Basel, Switzerland), 26(1). https://doi.org/10.3390/s26010088

Argunsah H, Yalcin B, Ergin MA, Coruhlu G, Yalcin M, Patoglu V, Guven Z (2025) Advancing Precision Rehabilitation Through a Sensor-Based 6-Do F Robotic Exoskeleton: Clinical Validation and Ergonomic Assessment.. Sensors (Basel, Switzerland) 26. https://doi.org/10.3390/s26010088

Argunsah H/ Yalcin B/ Ergin MA/ Coruhlu G/ Yalcin M/ Patoglu V/ Guven Z, Advancing Precision Rehabilitation Through a Sensor-Based 6-Do F Robotic Exoskeleton: Clinical Validation and Ergonomic Assessment., Sensors (Basel, Switzerland) 2025.