Purpose The study objective was to investigate the effects of forced induction weight-supported training conducted on an unstable surface on the gait of stroke patients. Methods Fifteen hemiplegic patients diagnosed with stroke, the onset of which had occurred ≥ 6 months, were included in the study. Forced induction weight-supported training was performed on an unstable surface (patients) and on stable surface (the control group). The training was performed over six weeks, five times a week, for a duration of 30 minutes using an FDM-T Treadmill System® for Biomechanical Gait Analysis (Zebris Medical, Cuxhaven, Germany) and the 10 Metre Walk Test (10MWT). Results Statistically significant differences between the non-paralyzed side stance phase and non-paralyzed side swing phase (p<.05), and between stance and swing symmetry (p<.05) in the study group, were found. A statistically significant difference was also observed between the paralyzed side stance phase and paralyzed side swing phase in the control group (p<.05). Conclusion The use of forced induction weight-supported training, conducted on unstable surface, was effective in improving symmetry and speed in the gait of hemiplegic patients.