Smart Assistive Architecture for the Integration of IoT Devices, Robotic Systems, and Multimodal Interfaces in Healthcare Environments

Brunete, Alberto; Gambao, Ernesto; Hernando, Miguel; Cedazo, R.

doi:10.3390/s21062212

Cited by 32 publications

(17 citation statements)

References 45 publications

(44 reference statements)

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“…Similar multimodal control frameworks have previously been suggested, but have not been used for continuous control of a robot arm [62]- [64]. These frameworks do not directly combine different modalities to improve control, they instead make multiple modality control options available to the user.…”

Section: B Multimodal Control Interfacesmentioning

confidence: 99%

Adapting to progressive paralysis: A tongue-brain hybrid robot interface for individuals with amyotrophic lateral sclerosis

Kæseler¹,

Farina²,

Bentsen³

et al. 2023

Preprint

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<p>Individuals suffering from progressive neuromuscular diseases gradually lose all muscle control and therefore are forced to repeatedly adapt to new control interface technologies to maintain some level of independence. Accordingly, the ideal interface technology should adapt to the progression of paralysis. We propose an adaptive tongue-brain hybrid interface framework for the three-dimensional control of a robotic arm. The interface was tested with able-bodied individuals and individuals with amyotrophic lateral sclerosis. The experiments demonstrated the importance of flexible frameworks for cooperation between control modalities as this allows a critical optimization of the control performance relative to the disease stage. The hybrid framework allowed a 4-34% stepwise decrease in performance rather than a 200% decrease when moving directly from a tongue to a brain control interface. This hybrid framework is the first step towards a new concept of assistive robotic control with a higher focus on adapting to the functionality of disabled individuals.</p>

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Section: B Multimodal Control Interfacesmentioning

confidence: 99%

Adapting to progressive paralysis: A tongue-brain hybrid robot interface for individuals with amyotrophic lateral sclerosis

Kæseler¹,

Farina²,

Bentsen³

et al. 2023

Preprint

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“…IoT is widely exploited for health-oriented applications [ 2 , 3 , 4 , 5 ], including highly specific solutions, supporting the needs of people with disabilities [ 6 , 7 ], or techniques for non-intrusive, continuous monitoring of relevant physiological parameters (e.g., blood pressure [ 8 ], heart rate [ 9 ]). Wearable sensors are widely used, with the non-wearable approach being sought for further reducing the burden of the user [ 10 , 11 ].…”

Section: Introductionmentioning

confidence: 99%

IoT Smart Flooring Supporting Active and Healthy Lifestyles

Cocconcelli

Matrella

Mora

et al. 2023

Sensors

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The lack of physical exercise is among the most relevant factors in developing health issues, and strategies to incentivize active lifestyles are key to preventing these issues. The PLEINAIR project developed a framework for creating outdoor park equipment, exploiting the IoT paradigm to build “Outdoor Smart Objects” (OSO) for making physical activity more appealing and rewarding to a broad range of users, regardless of their age and fitness. This paper presents the design and implementation of a prominent demonstrator of the OSO concept, consisting of a smart, sensitive flooring, based on anti-trauma floors commonly found in kids playgrounds. The floor is equipped with pressure sensors (piezoresistors) and visual feedback (LED-strips), to offer an enhanced, interactive and personalized user experience. OSOs exploit distributed intelligence and are connected to the Cloud infrastructure by using a MQTT protocol; apps have then been developed for interacting with the PLEINAIR system. Although simple in its general concept, several challenges must be faced, related to the application range (which called for high pressure sensitivity) and the scalability of the approach (requiring to implement a hierarchical system architecture). Some prototypes were fabricated and tested in a public environment, providing positive feedback to both the technical design and the concept validation.

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“…Voice-based control, a specific IoT technology application used in healthcare environments, could improve healthcare quality and experience [ 3 – 5 ]. The voiced-based control system was also an effective way to reduce contamination of surfaces, which could decrease the spread of healthcare-associated infections (HCAIs) with touchless computer interfaces [ 5 ].…”

Section: Introductionmentioning

confidence: 99%

“…Since patients are consumers under this condition, studying their points before the voice-based control system's actual implementation is essential. Previous studies conducted in laboratory environments showed that users considered positive with different interaction modes in the wards [ 3 , 6 ]. Here, we conducted an experimental study in the real clinical workflow.…”

Section: Introductionmentioning

confidence: 99%

Voice-based control system for smart hospital wards: a pilot study of patient acceptance

Jian

Wang

Rahmanti

et al. 2022

BMC Health Serv Res

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Background The smart hospital's concept of using the Internet of Things (IoT) to reduce human resources demand has become more popular in the aging society. Objective To implement the voice smart care (VSC) system in hospital wards and explore patient acceptance via the Technology Acceptance Model (TAM). Methods A structured questionnaire based on TAM was developed and validated as a research tool. Only the patients hospitalized in the VSC wards and who used it for more than two days were invited to fill the questionnaire. Statistical variables were analyzed using SPSS version 24.0. A total of 30 valid questionnaires were finally obtained after excluding two incomplete questionnaires. Cronbach’s α values for all study constructs were above 0.84. Result We observed that perceived ease of use on perceived usefulness, perceived usefulness on user satisfaction and attitude toward using, and attitude toward using on behavioral intention to use had statistical significance (p < .01), respectively. Conclusion We have successfully developed the VSC system in a Taiwanese academic medical center. Our study indicated that perceived usefulness was a crucial factor, which means the system function should precisely meet the patients' demands. Additionally, a clever system design is important since perceived ease of use positively affects perceived usefulness. The insight generated from this study could be beneficial to hospitals when implementing similar systems to their wards.

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Smart Assistive Architecture for the Integration of IoT Devices, Robotic Systems, and Multimodal Interfaces in Healthcare Environments

Cited by 32 publications

References 45 publications

Adapting to progressive paralysis: A tongue-brain hybrid robot interface for individuals with amyotrophic lateral sclerosis

Adapting to progressive paralysis: A tongue-brain hybrid robot interface for individuals with amyotrophic lateral sclerosis

IoT Smart Flooring Supporting Active and Healthy Lifestyles

Voice-based control system for smart hospital wards: a pilot study of patient acceptance

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