Suzanne Kieffer scite author profile

BackgroundFalls in the elderly is nowadays a major concern because of their consequences on elderly general health and moral states. Moreover, the aging of the population and the increasing life expectancy make the prediction of falls more and more important. The analysis presented in this article makes a first step in this direction providing a way to analyze gait and classify hospitalized elderly fallers and non-faller. This tool, based on an accelerometer network and signal processing, gives objective informations about the gait and does not need any special gait laboratory as optical analysis do. The tool is also simple to use by a non expert and can therefore be widely used on a large set of patients.MethodA population of 20 hospitalized elderlies was asked to execute several classical clinical tests evaluating their risk of falling. They were also asked if they experienced any fall in the last 12 months. The accelerations of the limbs were recorded during the clinical tests with an accelerometer network distributed on the body. A total of 67 features were extracted from the accelerometric signal recorded during a simple 25 m walking test at comfort speed. A feature selection algorithm was used to select those able to classify subjects at risk and not at risk for several classification algorithms types.ResultsThe results showed that several classification algorithms were able to discriminate people from the two groups of interest: fallers and non-fallers hospitalized elderlies. The classification performances of the used algorithms were compared. Moreover a subset of the 67 features was considered to be significantly different between the two groups using a t-test.ConclusionsThis study gives a method to classify a population of hospitalized elderlies in two groups: at risk of falling or not at risk based on accelerometric data. This is a first step to design a risk of falling assessment system that could be used to provide the right treatment as soon as possible before the fall and its consequences. This tool could also be used to evaluate the risk several times during the revalidation procedure.

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Systematic literature study for dimensional classification of success factors affecting process improvement in global software development: client–vendor perspective

Khan

Keung

Hussain

et al. 2018

IET softw.

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The majority of organisations are globalising their software development activities by following the ideas of global software development (GSD). The motivation behind the adoption of GSD phenomena are the list of benefits gained by the software industry. However, there are different challenges face by the GSD organisations, particularly the issues related to software process improvement (SPI). The aim of this study is the identification and classification into categories of the success factors that can impact SPI initiatives taken in GSD organisations. The systematic literature review (SLR) method has been used to extract the success factors from the literature. SLR phases, 'planning, conducting, and reporting the review' have been followed to perform this study. Totally, 15 success factors were identified and classified into the six main categories. The authors have also reported the critical success factors of SPI, i.e. management commitment, staff involvement, roles and responsibilities, communication, and resources allocation. This article also reported the similarities and differences between the success factors classified on the bases of client-vendor organisation and size of the organisation. The identified factors can contribute towards the implementation of SPI programme in both client and vendor GSD organisations because these factors represent key areas of process improvement.

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Multi-fidelity Prototyping of User Interfaces

Coyette

Kieffer

Vanderdonckt

2007

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Abstract. Multi-fidelity prototyping combines within a single user interface prototype several elements whose representations are reproduced with different levels of fidelity with respect to the final user interface: no fidelity at all, low fidelity, medium fidelity, and high fidelity. In order to effectively and efficiently support multi-fidelity, an original set of techniques is defined and discussed: multiple representation manipulation by sketching and gesture recognition, smooth transition between any representation at any time, prototype reusability, multi-platform support, and multiple user interface prototyping facilities. The full implementation of these techniques in prototyping software provides designers and developers with a unique environment for exploring multiple designs with unprecedented support for quickly designing interfaces from scratch or from previously existing design templates. An experimental study reveals that the multiple representation manipulation together with smooth transition represents a valuable advantage for naturally designing user interfaces. The prototyping software supports several aspects involved in the user interface development life cycle and is convenient for non-WIMP user interfaces.

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The Agile UX Development Lifecycle: Combining Formative Usability and Agile Methods

Kieffer¹,

Ghouti²,

Macq³

2017

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scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

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Suzanne Kieffer

Feature extraction and selection for objective gait analysis and fall risk assessment by accelerometry

Systematic literature study for dimensional classification of success factors affecting process improvement in global software development: client–vendor perspective

Multi-fidelity Prototyping of User Interfaces

The Agile UX Development Lifecycle: Combining Formative Usability and Agile Methods

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