Search results for "assistive robots"

showing 2 items of 2 documents

Social robots and therapeutic adherence: a new challenge in pediatric asthma?

2020

Social Robots are used in different contexts and, in healthcare, they are better known as Socially Assistive Robots. In the context of asthma, the use of Socially Assistive Robots has the potential to increase motivation and engagement to treatment. Other positive roles proposed for Socially Assistive Robots are to provide education, training regarding treatments, and feedback to patients. This review evaluates emerging interventions for improving treatment adherence in pediatric asthma, focusing on the possible future role of social robots in the clinical practice.

Pulmonary and Respiratory MedicineTreatment adherenceApplied psychologySocial InteractionPsychological interventionHuman-Robot interactionContext (language use)Pediatric asthma.Human–robot interaction03 medical and health sciencesSettore MED/38 - Pediatria Generale E Specialistica0302 clinical medicineTherapeutic Adherence030225 pediatricsHealth careHumansMedicineChildPediatric asthmaSocial robotPediatric asthmabusiness.industrytechnology industry and agricultureRoboticsAsthmaSocial Assistive RobotTreatment Adherence and Compliancebody regionssurgical procedures operative030228 respiratory systemTherapeutic adherencePediatrics Perinatology and Child HealthSocial Assistive RobotsInformationSystems_MISCELLANEOUSbusinesshuman activities
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HR1 Robot: An Assistant for Healthcare Applications

2022

According to the World Health Organization1,2 the percentage of healthcare dependent population, such as elderly and people with disabilities, among others, will increase over the next years. This trend will put a strain on the health and social systems of most countries. The adoption of robots could assist these health systems in responding to this increased demand, particularly in high intensity and repetitive tasks. In a previous work, we compared a Socially Assistive Robot (SAR) with a Virtual Agent (VA) during the execution of a rehabilitation task. The SAR consisted of a humanoid R1 robot, while the Virtual Agent represented its simulated counter-part. In both cases, the agents evalua…

RobotHealthcareQA75.5-76.95Roboticstimed up and goComputer Science Applicationshuman-robot interactionautonomous systemshumanoidsArtificial IntelligenceElectronic computers. Computer scienceassistive robotsTJ1-1570Mechanical engineering and machineryFrontiers in Robotics and AI
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