Research Article
Design and Performance Analysis of a Mecanum-Built Perturbation-Based Balance Training Device
Table 1
State-of-the-art perturbation training techniques.
| | Perturbation technology/system | Perturbating principle | Direction of perturbation | Anticipatory strategy | Portability | Parameter reproducibility | Resultant of perturbation action | Cited articles |
| | Motorized waist pulls | Lateral fall perturbation | Bi | Yes | Yes | Yes | Compensatory stepping | Borrelli et al. [4], Yungher et al. [5], Young et al. [6] | | Rubber sheet with motor | Platform beneath pulled | Uni | No | Yes | Yes | Compensatory stepping | Weerdesteyn et al.[7] | | Lean and release | Cable release | Uni | No | Yes | Yes | Compensatory stepping | Schinkel-Ivy et al. [8], Mansfield et al. [9], Chan et al. [10], Inness et al. [11], Rydalch et al. [12], Inness et al. [13], Lakhani et al. [14] | | Tether release | Cable release | Uni | No | Yes | Yes | Compensatory stepping | Van Liew et al. [15], Legg et al. [16], Cortes et al. [17] | | Radboud falls simulator | Motorized platform | Multi | Yes | No | Yes | Compensatory stepping | Schinkel-Ivy et al. [18], de Kam et al. [19] | | Foam | Foam density | Multi | No | Yes | No | Adjusting weight-bearing joints | Huang et al. [20] | | Biodex | Platform inclines | Multi | Yes | No | Yes | Adjusting weight-bearing joints | Gusi et al. [21], Nel et al. [22] |
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