Jamie Payton scite author profile

Participatory sensing is a powerful paradigm which takes advantage of smartphones to collect and analyze data beyond the scale of what was previously possible. Given that participatory sensing systems rely completely on the users' willingness to submit up-to-date and accurate information, it is paramount to effectively incentivize users' active and reliable participation. In this paper, we survey existing literature on incentive mechanisms for participatory sensing systems. In particular, we present a taxonomy of existing incentive mechanisms for participatory sensing systems, which are subsequently discussed in depth by comparing and contrasting different approaches. Finally, we discuss an agenda of open research challenges in incentivizing users in participatory sensing.

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Modeling adaptive behaviors in Context UNITY

Roman

Julien

Payton³

2007

Theoretical Computer Science

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Context-aware computing refers to a paradigm in which applications sense aspects of the environment and use this information to adjust their behavior in response to changing circumstances. In this paper, we present a formal model and notation (Context UNITY) for expressing quintessential aspects of context-aware computations; existential quantification, for instance, proves to be highly effective in capturing the notion of discovery in open systems. Furthermore, Context UNITY treats context in a manner that is relative to the specific needs of an individual application and promotes an approach to context maintenance that is transparent to the application .

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A systematic review and meta-analysis of interventions incorporating behaviour change techniques to promote breastfeeding among postpartum women

Kassianos¹,

Ward

Rojas-García³

et al. 2019

Health Psychology Review

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The impact of component architectures on interoperability

Davis

Gamble

Payton

2002

Journal of Systems and Software

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A Formal Treatment of Context-Awareness

Roman¹,

Julien²,

Payton³

2004

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Abstract. Context-aware computing refers to a computing paradigm in which the behavior of individual components is determined by the circumstances in which they find themselves to an extent that greatly exceeds the typical system/environment interaction pattern common to most modern computing. The environment has an exceedingly powerful impact on a particular application component either because the latter needs to adapt in response to changing external conditions or because it relies on resources whose availability is subject to continuous change. In this paper we seek to develop a systematic understanding of the quintessential nature of context-aware computing by constructing a formal model and notation for expressing context-aware computations. We start with the basic premise that, in its most extreme form, context should be made manifest in a manner that is highly local in appearance and decoupled in fact. Furthermore, we assume a notion of context that is relative to the needs of each individual component, and we expect context-awareness to be maintained in a totally transparent manner with minimal programming effort. We construct the model from first principles, seek to root our decisions in these formative assumptions, and make every effort to preserve minimality of concepts and elegance of notation.

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Jamie Payton

Incentive Mechanisms for Participatory Sensing

Modeling adaptive behaviors in Context UNITY

A systematic review and meta-analysis of interventions incorporating behaviour change techniques to promote breastfeeding among postpartum women

The impact of component architectures on interoperability

A Formal Treatment of Context-Awareness

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