Please use this identifier to cite or link to this item: http://repositorio.uisek.edu.ec/handle/123456789/3992
Title: Development of a smart sleeve control mechanism for active assisted living
Authors: Liu Cheng, Alexander
Santos, Caio
Santos, Pedro
Llorca Vega, Néstor Andrés
Keywords: REMOTE CONTROL
TELEOPERATION
DESIGN-TO- ROBOTIC-OPERATION
INTELLIGENT BUILT-ENVIRONMENTS
WIRELESS SENSOR AND ACTUATOR NETWORKS
Issue Date: 18-Apr-2019
Publisher: IEEE
Citation: PUB L783dev/2019
Abstract: This paper describes the development of a Smart Sleeve control mechanism for Active Assisted Living. The Smart Sleeve is a physically worn sleeve that extends the user’s control capability within his/her intelligent built-environment by enabling (1) direct actuation and/or (2) teleoperation via a virtual interface. With respect to the first, the user may point his/her sleeve-wearing arm towards a door or a window and actuate an opening or a shutting; or towards a light and effect its turning on and off as well as regulating its intensity; or even towards a particular region to initiate ventilation of it. With respect to the second, the user may engage actuations in systems beyond his/her field of vision by interacting with a virtual representation of the intelligent built-environment projected on any screen or surface. For example, the user is able to shut the kitchen’s door from his/her bedroom by extending the Smart Sleeve towards the door of a virtual representation of the kitchen projected (via a standard projector and/or television monitor) on the bedroom’s wall. In both cases, the Smart Sleeve recognizes the object which the user wishes to engage with— whether in the real or the virtual worlds—(a) by detecting the orientation of the extended arm via an Accelerometer / Gyroscope / Magnetometer sensor; and (b) by detecting a specific forearm muscle contraction via Electromyography caused by the closing and opening of the fist, which serves to select the object. Once the object is identified and selected with said muscle contraction, subsequent arm gestures effect a variety of possible actuations for a given object (e.g., a window may be opened / shut or dragged to differing degrees or aperture; a light’s intensity may be increased or decreased, etc.). In cases of ambiguous selections, the user my use voice- commands to explicitly identify the desired object of selection. Furthermore, due to this voice-based recognition mechanism, which recognizes both spoken commands as well the identity of the speakers, different rights to actuation may be assigned to different users. The Smart Sleeve is yet another mechanism integrated into an on-going development of a highly intuitive Active and Assisted Living implementation and its features, ones explicitly designed to enhance user-experience as well as to promote user well-being via intuitive interactions between human and non-human agents within the intelligent built- environment.
URI: http://repositorio.uisek.edu.ec/handle/123456789/3992
ISSN: 978-1-5386-4980-0
Appears in Collections:Publicaciones UISEK

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