Nano-CF: A Coordination Framework for Macro-programming in Wireless Sensor Networks
Ref: HURRAY-TR-110110 Publication Date: 28, Jan, 2011
Nano-CF: A Coordination Framework for Macro-programming in Wireless Sensor Networks
Ref: HURRAY-TR-110110 Publication Date: 28, Jan, 2011Abstract:
Abstract—Wireless Sensor Networks (WSN) are being used for
a number of applications involving infrastructure monitoring,
building energy monitoring and industrial sensing. The difficulty
of programming individual sensor nodes and the associated over-
head have encouraged researchers to design macro-programming
systems which can help program the network as a whole or as a
combination of subnets. Most of the current macro-programming
schemes do not support multiple users seamlessly deploying
diverse applications on the same shared sensor network. As
WSNs are becoming more common, it is important to provide
such support, since it enables higher-level optimizations such as
code reuse, energy savings, and traffic reduction. In this paper,
we propose a macro-programming framework called Nano-CF,
which, in addition to supporting in-network programming, allows
multiple applications written by different programmers to be
executed simultaneously on a sensor networking infrastructure.
This framework enables the use of a common sensing infras-
tructure for a number of applications without the users having
to worrying about the applications already deployed on the
network. The framework also supports timing constraints and
resource reservations using the Nano-RK operating system. Nano-
CF is efficient at improving WSN performance by (a) combining
multiple user programs, (b) aggregating packets for data delivery,
and (c) satisfying timing and energy specifications using Rate-
Harmonized Scheduling. Using representative applications, we
demonstrate that Nano-CF achieves 90% reduction in Source
Lines-of-Code (SLoC) and 50% energy savings from aggregated
data delivery.
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Record Date: 28, Jan, 2011