2,413 research outputs found
Empowering and assisting natural human mobility: The simbiosis walker
This paper presents the complete development of the Simbiosis Smart Walker. The device is equipped with a set of sensor subsystems to acquire user-machine interaction forces and the temporal evolution of user's feet during gait. The authors present an adaptive filtering technique used for the identification and separation of different components found on the human-machine interaction forces. This technique allowed isolating the components related with the navigational commands and developing a Fuzzy logic controller to guide the device. The Smart Walker was clinically validated at the Spinal Cord Injury Hospital of Toledo - Spain, presenting great acceptability by spinal chord injury patients and clinical staf
Overcoming barriers and increasing independence: service robots for elderly and disabled people
This paper discusses the potential for service robots to overcome barriers and increase independence of
elderly and disabled people. It includes a brief overview of the existing uses of service robots by disabled and elderly
people and advances in technology which will make new uses possible and provides suggestions for some of these new
applications. The paper also considers the design and other conditions to be met for user acceptance. It also discusses
the complementarity of assistive service robots and personal assistance and considers the types of applications and
users for which service robots are and are not suitable
Reimagining Robotic Walkers For Real-World Outdoor Play Environments With Insights From Legged Robots: A Scoping Review
PURPOSE
For children with mobility impairments, without cognitive delays, who want to participate in outdoor activities, existing assistive technology (AT) to support their needs is limited. In this review, we investigate the control and design of a selection of robotic walkers while exploring a selection of legged robots to develop solutions that address this gap in robotic AT. METHOD
We performed a comprehensive literature search from four main databases: PubMed, Google Scholar, Scopus, and IEEE Xplore. The keywords used in the search were the following: “walker”, “rollator”, “smart walker”, “robotic walker”, “robotic rollator”. Studies were required to discuss the control or design of robotic walkers to be considered. A total of 159 papers were analyzed. RESULTS
From the 159 papers, 127 were excluded since they failed to meet our inclusion criteria. The total number of papers analyzed included publications that utilized the same device, therefore we classified the remaining 32 studies into groups based on the type of robotic walker used. This paper reviewed 15 different types of robotic walkers. CONCLUSIONS
The ability of many-legged robots to negotiate and transition between a range of unstructured substrates suggests several avenues of future consideration whose pursuit could benefit robotic AT, particularly regarding the present limitations of wheeled paediatric robotic walkers for children’s daily outside use.
For more information: Kod*lab (link to kodlab.seas.upenn.edu
Human-centred design methods : developing scenarios for robot assisted play informed by user panels and field trials
Original article can be found at: http://www.sciencedirect.com/ Copyright ElsevierThis article describes the user-centred development of play scenarios for robot assisted play, as part of the multidisciplinary IROMEC1 project that develops a novel robotic toy for children with special needs. The project investigates how robotic toys can become social mediators, encouraging children with special needs to discover a range of play styles, from solitary to collaborative play (with peers, carers/teachers, parents, etc.). This article explains the developmental process of constructing relevant play scenarios for children with different special needs. Results are presented from consultation with panel of experts (therapists, teachers, parents) who advised on the play needs for the various target user groups and who helped investigate how robotic toys could be used as a play tool to assist in the children’s development. Examples from experimental investigations are provided which have informed the development of scenarios throughout the design process. We conclude by pointing out the potential benefit of this work to a variety of research projects and applications involving human–robot interactions.Peer reviewe
Handle Anywhere: A Mobile Robot Arm for Providing Bodily Support to Elderly Persons
Age-related loss of mobility and increased risk of falling remain important
obstacles toward facilitating aging-in-place. Many elderly people lack the
coordination and strength necessary to perform common movements around their
home, such as getting out of bed or stepping into a bathtub. The traditional
solution has been to install grab bars on various surfaces; however, these are
often not placed in optimal locations due to feasibility constraints in room
layout. In this paper, we present a mobile robot that provides an older adult
with a handle anywhere in space - "handle anywhere". The robot consists of an
omnidirectional mobile base attached to a repositionable handle. We analyze the
postural changes in four activities of daily living and determine, in each, the
body pose that requires the maximal muscle effort. Using a simple model of the
human body, we develop a methodology to optimally place the handle to provide
the maximum support for the elderly person at the point of most effort. Our
model is validated with experimental trials. We discuss how the robotic device
could be used to enhance patient mobility and reduce the incidence of falls.Comment: 8 pages, 10 figure
Assistive mobility devices focusing on smart walkers : classification and review
In an aging society it is extremely important to develop devices, which can support and aid the elderly in their daily life. This demands means and tools that extend independent living and promote improved health.
Thus, the goal of this article is to review the state of the art in the robotic technology for mobility assistive devices for people with mobility disabilities. The important role that robotics can play in mobility assistive devices is presented, as well as the identification and survey of mobility assistive devices subsystems with a particular focus on the walkers technology. The advances in the walkers’ field have been enormous and have shown a great potential on helping people with mobility disabilities. Thus it is presented a review of the available literature of walkers and are discussed major advances that have been made and limitations to be overcome
Assistive Planning in Complex, Dynamic Environments: a Probabilistic Approach
We explore the probabilistic foundations of shared control in complex dynamic
environments. In order to do this, we formulate shared control as a random
process and describe the joint distribution that governs its behavior. For
tractability, we model the relationships between the operator, autonomy, and
crowd as an undirected graphical model. Further, we introduce an interaction
function between the operator and the robot, that we call "agreeability"; in
combination with the methods developed in~\cite{trautman-ijrr-2015}, we extend
a cooperative collision avoidance autonomy to shared control. We therefore
quantify the notion of simultaneously optimizing over agreeability (between the
operator and autonomy), and safety and efficiency in crowded environments. We
show that for a particular form of interaction function between the autonomy
and the operator, linear blending is recovered exactly. Additionally, to
recover linear blending, unimodal restrictions must be placed on the models
describing the operator and the autonomy. In turn, these restrictions raise
questions about the flexibility and applicability of the linear blending
framework. Additionally, we present an extension of linear blending called
"operator biased linear trajectory blending" (which formalizes some recent
approaches in linear blending such as~\cite{dragan-ijrr-2013}) and show that
not only is this also a restrictive special case of our probabilistic approach,
but more importantly, is statistically unsound, and thus, mathematically,
unsuitable for implementation. Instead, we suggest a statistically principled
approach that guarantees data is used in a consistent manner, and show how this
alternative approach converges to the full probabilistic framework. We conclude
by proving that, in general, linear blending is suboptimal with respect to the
joint metric of agreeability, safety, and efficiency
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