3,593 research outputs found
Can smartwatches replace smartphones for posture tracking?
This paper introduces a human posture tracking platform to identify the human postures of sitting, standing or lying down, based on a smartwatch. This work develops such a system as a proof-of-concept study to investigate a smartwatch's ability to be used in future remote health monitoring systems and applications. This work validates the smartwatches' ability to track the posture of users accurately in a laboratory setting while reducing the sampling rate to potentially improve battery life, the first steps in verifying that such a system would work in future clinical settings. The algorithm developed classifies the transitions between three posture states of sitting, standing and lying down, by identifying these transition movements, as well as other movements that might be mistaken for these transitions. The system is trained and developed on a Samsung Galaxy Gear smartwatch, and the algorithm was validated through a leave-one-subject-out cross-validation of 20 subjects. The system can identify the appropriate transitions at only 10 Hz with an F-score of 0.930, indicating its ability to effectively replace smart phones, if needed
Real-time human ambulation, activity, and physiological monitoring:taxonomy of issues, techniques, applications, challenges and limitations
Automated methods of real-time, unobtrusive, human ambulation, activity, and wellness monitoring and data analysis using various algorithmic techniques have been subjects of intense research. The general aim is to devise effective means of addressing the demands of assisted living, rehabilitation, and clinical observation and assessment through sensor-based monitoring. The research studies have resulted in a large amount of literature. This paper presents a holistic articulation of the research studies and offers comprehensive insights along four main axes: distribution of existing studies; monitoring device framework and sensor types; data collection, processing and analysis; and applications, limitations and challenges. The aim is to present a systematic and most complete study of literature in the area in order to identify research gaps and prioritize future research directions
A hierarchal framework for recognising activities of daily life
PhDIn today’s working world the elderly who are dependent can sometimes be
neglected by society. Statistically, after toddlers it is the elderly who are observed
to have higher accident rates while performing everyday activities. Alzheimer’s
disease is one of the major impairments that elderly people suffer from, and leads
to the elderly person not being able to live an independent life due to forgetfulness.
One way to support elderly people who aspire to live an independent life and
remain safe in their home is to find out what activities the elderly person is
carrying out at a given time and provide appropriate assistance or institute
safeguards.
The aim of this research is to create improved methods to identify tasks related to
activities of daily life and determine a person’s current intentions and so reason
about that person’s future intentions. A novel hierarchal framework has been
developed, which recognises sensor events and maps them to significant activities
and intentions. As privacy is becoming a growing concern, the monitoring of an
individual’s behaviour can be seen as intrusive. Hence, the monitoring is based
around using simple non intrusive sensors and tags on everyday objects that are
used to perform daily activities around the home. Specifically there is no use of
any cameras or visual surveillance equipment, though the techniques developed
are still relevant in such a situation.
Models for task recognition and plan recognition have been developed and tested
on scenarios where the plans can be interwoven. Potential targets are people in the
first stages of Alzheimer’s disease and in the structuring of the library of kernel
plan sequences, typical routines used to sustain meaningful activity have been
used. Evaluations have been carried out using volunteers conducting activities of
daily life in an experimental home environment. The results generated from the
sensors have been interpreted and analysis of developed algorithms has been
made. The outcomes and findings of these experiments demonstrate that the
developed hierarchal framework is capable of carrying activity recognition as well
as being able to carry out intention analysis, e.g. predicting what activity they are
most likely to carry out next
Activities of daily life recognition using process representation modelling to support intention analysis
Purpose
– This paper aims to focus on applying a range of traditional classification- and semantic reasoning-based techniques to recognise activities of daily life (ADLs). ADL recognition plays an important role in tracking functional decline among elderly people who suffer from Alzheimer’s disease. Accurate recognition enables smart environments to support and assist the elderly to lead an independent life for as long as possible. However, the ability to represent the complex structure of an ADL in a flexible manner remains a challenge.
Design/methodology/approach
– This paper presents an ADL recognition approach, which uses a hierarchical structure for the representation and modelling of the activities, its associated tasks and their relationships. This study describes an approach in constructing ADLs based on a task-specific and intention-oriented plan representation language called Asbru. The proposed method is particularly flexible and adaptable for caregivers to be able to model daily schedules for Alzheimer’s patients.
Findings
– A proof of concept prototype evaluation has been conducted for the validation of the proposed ADL recognition engine, which has comparable recognition results with existing ADL recognition approaches.
Originality/value
– The work presented in this paper is novel, as the developed ADL recognition approach takes into account all relationships and dependencies within the modelled ADLs. This is very useful when conducting activity recognition with very limited features
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