We have developed a gait rehabilitation robot for hemiplegic patients using the treadmill. A walk phase, which includes time balance of stance and swing legs, is one of the most basic indexes to evaluate patients’ gait. In addition, the walking phase is one of the indexes to control our robotic rehabilitation system. However, conventional methods to measure the walk phase require another system such as the foot switch and force plate. In this paper, an original algorithm to estimate the walk phase of a person on a treadmill using only the current value of DC motor to control the treadmill velocity is proposed. This algorithm was verified by experiments on five healthy subjects, and the walk phase of four subjects could be estimated in 0.2 (s) errors. However, the algorithm had erroneously identified a period of time in the stance phase as swing phase time when little body weight loaded on the subject’s leg. Because a period of time with little body weight to affected leg is often observed in a hemiplegic walk, the proposed algorithm might fail to properly estimate the walk phase of hemiplegic patients. However, this algorithm could be used to estimate the time when body weight is loaded on patient legs, and thus could be used as a new quantitative evaluation index.
[1]
Tsuneji Yada.
Relation of Frictional Loss of Gear to Speed and Torque
,
1972
.
[2]
M. Maležič,et al.
Treadmill training with partial body weight support compared with physiotherapy in nonambulatory hemiparetic patients.
,
1995,
Stroke.
[3]
Joseph Hidler,et al.
Limb Alignment and Kinematics Inside a Lokomat Robotic Orthosis
,
2006,
2006 International Conference of the IEEE Engineering in Medicine and Biology Society.
[4]
P. Beek,et al.
Gait Coordination After Stroke: Benefits of Acoustically Paced Treadmill Walking
,
2007,
Physical Therapy.
[5]
Takeshi Ando,et al.
1P1-D07 Walking support robot "Tread Walk" for alleviating asymmetricity of hemiplegic walk : Effect of walk speed difference with separated treadmill
,
2008
.