Walking rehabilitation for stroke patients with gait disorders is challenging and is of great social importance, potentially resulting in improving the quality of life (QOL). However, a Cochrane review (Mehrholz, 2017) reported that only the walking velocity and endurance increased on treadmill training, while independent ambulation, a major factor associated with improvement in QOL, did not increase.

A recently identified factor that prevents improvements on rehabilitation is "individuality", i.e., gait differences between patients that depend on the affected brain area, stroke severity, and remaining functions. Furthermore, a clear causal link between neurological factors and gait disorders remains unknown. Thus, individuality results in ad-hoc, qualitative, and subjective diagnoses based on the knowledge and experience of each doctor or physical therapist. Consequently, the treatments and interventions are chosen heuristically based on the time limitations and inpatient days in the hospital, leading to insufficient rehabilitation.

To overcome the issues, we now aim to establish a quantitative and accurate walking diagnosis system that enables evaluation of walking individuality in patients. In this presentation, we would like to introduce our approaches for model-based rehabilitation based on biomechanics in stroke patients walking.