An architecture for energy management in wireless sensor networks
ACM SIGBED Review - Special issue on the workshop on wireless sensor network architecture (April-2007)
A modular sensornet architecture: past, present, and future directions
ACM SIGBED Review - Special issue on the workshop on wireless sensor network architecture (April-2007)
Building Verifiable Sensing Applications Through Temporal Logic Specification
ICCS '07 Proceedings of the 7th international conference on Computational Science, Part I: ICCS 2007
ACM SIGMOBILE Mobile Computing and Communications Review
Efficient communication in control-oriented embedded networks
ETFA'09 Proceedings of the 14th IEEE international conference on Emerging technologies & factory automation
Interconnecting Smart Objects with IP: The Next Internet
Interconnecting Smart Objects with IP: The Next Internet
Rethinking multi-channel protocols in wireless sensor networks
Proceedings of the 6th Workshop on Hot Topics in Embedded Networked Sensors
Improving sensornet performance by separating system configuration from system logic
EWSN'10 Proceedings of the 7th European conference on Wireless Sensor Networks
CONFab: component based optimization of WSN protocol stacks using deployment feedback
Proceedings of the 10th ACM international symposium on Mobility management and wireless access
Experiences from a decade of TinyOS development
OSDI'12 Proceedings of the 10th USENIX conference on Operating Systems Design and Implementation
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An overall sensornet architecture would help tame the increasingly complex structure of wireless sensornet software and help foster greater interoperability between different codebases. A previous step in this direction is the Sensornet Protocol (SP), a unifying link-abstraction layer. This paper takes the natural next step by proposing a modular network-layer for sensornets that sits atop SP. This modularity eases implementation of new protocols by increasing code reuse, and enables co-existing protocols to share and reduce code and resources consumed at run-time. We demonstrate how current protocols can be decomposed into this modular structure and show that the costs, in performance and code footprint, are minimal relative to their monolithic counterparts.