William Leal
Ohio State University
13 Papers
92 Citations
William Leal is an academic researcher from Ohio State University. The author has contributed to research in topics: Wireless sensor network & Testbed. The author has an hindex of 8, co-authored 13 publications.
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Papers
Scalable self-stabilization via composition
William Leal,Anish Arora +1 more
- 24 Mar 2004
TL;DR: A framework for composition in which global reasoning and detailed system knowledge are not necessary, and which apply to a significantly wider range of systems than has hitherto been possible, is given.
26
DESAL alpha: An Implementation of the Dynamic Embedded Sensor-Actuator Language
Andrew R. Dalton,William P. McCartney,K. GhoshDastidar,Jason O. Hallstrom,Nigamanth Sridhar,Ted Herman,William Leal,Anish Arora,Mohamed G. Gouda +8 more
- 17 Nov 2008
TL;DR: DESALalpha is presented, a realization of the dynamic embedded sensor-actuator language for Telos-based devices that provides native support for rule-based programming, synchronized action scheduling, and distributed state sharing.
15
A state-based language for sensor-actuator networks
TL;DR: The main features are communication by a soft-state abstraction and behavior control by periodic rule evaluation that enable a state- based, rather than event-based, style of programming in sensor-actuator networks.
Next-Generation Internet Architectures and Protocols: KanseiGenie: software infrastructure for resource management and programmability of wireless sensor network fabrics
Mukundan Sridharan,Wenjie Zeng,William Leal,Xi Ju,Rajiv Ramnath,Hongwei Zhang,Anish Arora +6 more
- 01 Jan 2008
TL;DR: This chapter describes an architecture for slicing, virtualizing, and federating wireless sensor network (WSN) resources that allows users to specify and acquire node and network resources as well as sensor data resources within one or more facilities for launching their programs.
14
From Kansei to KanseiGenie: Architecture of Federated, Programmable Wireless Sensor Fabrics
Mukundan Sridharan,Wenjie Zeng,William Leal,Xi Ju,Rajiv Ramnath,Hongwei Zhang,Anish Arora +6 more
- 18 May 2010
TL;DR: This paper proposes an architecture where the ontology of resource description can vary across providers, and a mapping of user needs to resources is performed to achieve uniform tasking in federating wireless sensing fabrics.