Standard Test Method for Evaluating Exoskeleton Fall Risk due to Stumbling

Importancia y uso:

5.1 There is strong evidence that exoskeletons can physically augment and assist users. They are typically designed and optimized with specific tasks in mind and initially tested in controlled lab or field settings. However, in the real world exoskeletons encounter less structured environments and situations (for example, hospital rooms, factory floors, construction sites, or even personal homes). In order to accelerate the adoption of exoskeletons in society, understanding their safety in the presence of perturbations is helpful. The testing results of the exoskeleton shall describe the extent to which the exoskeleton improves, inhibits, or maintains a user’s ability to recover from stumbles, thus providing exoskeleton wearers and prescribers (for example, patients, clinicians, industry leaders, factory workers) with additional information about device performance and expectations.

5.2 The standard test apparatus and setup (see Section 6) is specified to be easily fabricated and implemented in gait or motion analysis laboratories. Variants of the apparatus, control algorithm, and test setup are acceptable to allow implementation in various lab settings with ranging experimental capabilities. The standard test setup and apparatus can also be used to support training and establish proficiency of exoskeleton users, as well as provide manufacturers with information about the performance of their exoskeleton(s) for tasks.

Subcomité:

F48.02

Referida por:

F3323-24

Volúmen:

15.13

Número ICS:

11.180.10 (Aids and adaptation for moving), 25.040.30 (Industrial robots. Manipulators)

Palabras clave:

balance; exoskeleton; exosuit; fall; gait; industrial/occupational; medical; military; perturbation; recreational; response; scuff; stumble; trip;