Beyond Robo-Mate: Towards the Next Generation of Industrial Exoskeletons in Europe
The Robo-Mate project developed industrial exoskeletons to reduce the risk of physical injury associated to manual material handling tasks. Prototypes targeting different body areas were evaluated for their effectiveness but also for their applicability and usability in the field. Encouraging evidence of their effectiveness and informative feedback from the field have driven further research and development. This has additionally led the initiation of a new collaborative project, which aims at continuing technical advancements as well as at promoting the translation to diverse areas of application.
- 1.Bevan, S.: The impact of back pain on sickness absence in Europe. The Work Foundation, Lancaster (2012)Google Scholar
- 5.Toxiri, S., Calanca, A., Ortiz, J., Fiorini, P., Caldwell, D.G.: A parallel-elastic actuator for a torque-controlled back-support exoskeleton. IEEE Robot. Autom. Lett. (2017)Google Scholar
- 6.Mateos, L.A., Ortiz, J., Toxiri, S., Fernández, J., Masood, J., Caldwell, D.G.: Exoshoe: a sensory system to measure foot pressure in industrial exoskeleton. In: 2016 6th IEEE International Conference on Biomedical Robotics and Biomechatronics (BioRob), pp. 99–105. IEEE (2016)Google Scholar
- 7.Toxiri, S., Koopman, A.S., Lazzaroni, M., Ortiz, J., Power, V., de Looze, M.P., O’Sullivan, L., Caldwell, D.G.: Rationale, implementation and evaluation of assistive strategies for an active back-support exoskeleton. Front. Robot. AI 5(53) (2018)Google Scholar