Ryota Kawanishi scite author profile

Physical support of lower limbs during sit-to-stand and stand-to-sit transfers is important for an independent life of paraplegic patients. The purpose of this study is, therefore, to realize the control method of complete paraplegic patients during sit-to-stand and stand-to-sit transfers by using a 'robot suit HAL'. It is the most challenging issue because the HAL should start supporting the wearer's motions synchronizing his/her intention. Our proposed algorithm infers the intention based on a preliminary motion that is observed just before a desired motion so the patient could start the sit-to-stand or stand-to-sit transfers without any operation. When the HAL detects the intention to stand up and sit down, the HAL starts to support the wearer's weight and to control their body posture for stability during their transfer. The proposed algorithms embedded in the HAL were applied to a complete spinal cord injury patient in a clinical trial to confirm the effectiveness. The experimental results indicate that the proposed algorithms could support his sit-to-stand and stand-to-sit transfers safely and conveniently by keeping his stability and by reflecting his intentions. Consequently, we confirmed that the proposed method successfully supported the sit-to-stand and stand-to-sit transfers of the complete paraplegic patient with the HAL.

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Molecular phylogeny of obligate fish parasites of the family Cymothoidae (Isopoda, Crustacea): evolution of the attachment mode to host fish and the habitat shift from saline water to freshwater

Hata

Sogabe

Tada

et al. 2017

Mar Biol

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The role of the hyporheic zone for a benthic fish in an intermittent river: a refuge, not a graveyard

et al. 2013

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Coupled benthic–hyporheic responses of macroinvertebrates to surface water pollution in a gravel-bed river

et al. 2019

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Habitat use by spinous loach (Cobitis shikokuensis) in southwestern Japan: importance of subsurface interstices

Kawanishi

Kudo

Inoue

2010

Ecological Research

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We examined habitat use by spinous loach (Cobitis shikokuensis), an endangered benthic fish in Japan, in relation to distance to the stream bank, water depth, current velocity, substrate types and bed‐subsurface conditions (fine‐sediment volume, vertical hydraulic gradient). In the study reach (Shigenobu River in Shikoku Island), spinous loach exhibited a patchy distribution within the channel, being limited to sloping bed of channel margins. Although high selectivities were detected for three variables (close to the stream bank, pebble‐dominant substrates, and low fine‐sediment volume) from univariate perspective, decision‐tree analysis indicated that their distribution pattern was best explained by the two variables representing subsurface conditions. Locations occupied by spinous loach were characterized by extremely low fine‐sediment volume (≤1.5%), or by moderate fine‐sediment volume (1.5–9.8%) with positive vertical hydraulic gradient (indicative of upwelling). Our results suggest that subsurface interstices are essential habitat for spinous loach and that prevention of excessive inputs and deposition of fine sediments, which cause interstitial sedimentation, is crucial for conservation of this endangered species.

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Ryota Kawanishi

Sit-to-Stand and Stand-to-Sit Transfer Support for Complete Paraplegic Patients with Robot Suit HAL

Molecular phylogeny of obligate fish parasites of the family Cymothoidae (Isopoda, Crustacea): evolution of the attachment mode to host fish and the habitat shift from saline water to freshwater

The role of the hyporheic zone for a benthic fish in an intermittent river: a refuge, not a graveyard

Coupled benthic–hyporheic responses of macroinvertebrates to surface water pollution in a gravel-bed river

Habitat use by spinous loach (Cobitis shikokuensis) in southwestern Japan: importance of subsurface interstices

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