Proceedings ArticleDOI
TeenyLIME: transiently shared tuple space middleware for wireless sensor networks
Paolo Costa,Luca Mottola,Amy L. Murphy,Gian Pietro Picco +3 more
- pp 43-48
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TLDR
The TeenyLIME model and corresponding middleware implementation are proposed, a tuple space model and middleware supporting applications where sensing and acting devices themselves drive the network behavior.Citations
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Journal ArticleDOI
Middleware for Internet of Things: A Survey
TL;DR: This paper outlines a set of requirements for IoT middleware, and presents a comprehensive review of the existing middleware solutions against those requirements, and open research issues, challenges, and future research directions are highlighted.
Journal ArticleDOI
Programming wireless sensor networks: Fundamental concepts and state of the art
Luca Mottola,Gian Pietro Picco +1 more
TL;DR: This article presents a taxonomy of WSN programming approaches that captures the fundamental differences among existing solutions, and uses the taxonomy to provide an exhaustive classification of existing approaches.
Book ChapterDOI
Organizing the Aggregate: Languages for Spatial Computing
TL;DR: A framework for analyzing and comparing spatial computing DSLs is developed, the current state of the art is surveyed, and a roadmap for future spatial Computing DSL investigation is provided.
Proceedings ArticleDOI
Programming wireless sensor networks with the TeenyLime middleware
TL;DR: TeenyLime provides programmers with the high-level abstraction of a tuple space, enabling data sharing among neighboring devices, and thereby yields simpler, cleaner, and more reusable implementations, at the cost of only a very limited decrease in performance.
Journal ArticleDOI
A survey on quality of service support in wireless sensor and actor networks: Requirements and challenges in the context of critical infrastructure protection
TL;DR: This paper studies the state-of-the-art of QoS management in WSANs by exploring existing proposals, challenges and open issues in the field by focusing on the QoS requirements and the needs of CIP applications.
References
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TL;DR: This paper explores and evaluates the use of directed diffusion for a simple remote-surveillance sensor network and its implications for sensing, communication and computation.
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TL;DR: B-MAC's flexibility results in better packet delivery rates, throughput, latency, and energy consumption than S-MAC, and the need for flexible protocols to effectively realize energy efficient sensor network applications is illustrated.
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Generative communication in Linda
TL;DR: This work is particularly concerned with implementation of the dynamic global name space that the generative communication model requires, and its implications for systems programming in distributed settings generally and on integrated network computers in particular.
Proceedings ArticleDOI
Coverage problems in wireless ad-hoc sensor networks
TL;DR: This work establishes the main highlight of the paper-optimal polynomial time worst and average case algorithm for coverage calculation, which answers the questions about quality of service (surveillance) that can be provided by a particular sensor network.