4,756 research outputs found
In-Network Distributed Solar Current Prediction
Long-term sensor network deployments demand careful power management. While
managing power requires understanding the amount of energy harvestable from the
local environment, current solar prediction methods rely only on recent local
history, which makes them susceptible to high variability. In this paper, we
present a model and algorithms for distributed solar current prediction, based
on multiple linear regression to predict future solar current based on local,
in-situ climatic and solar measurements. These algorithms leverage spatial
information from neighbors and adapt to the changing local conditions not
captured by global climatic information. We implement these algorithms on our
Fleck platform and run a 7-week-long experiment validating our work. In
analyzing our results from this experiment, we determined that computing our
model requires an increased energy expenditure of 4.5mJ over simpler models (on
the order of 10^{-7}% of the harvested energy) to gain a prediction improvement
of 39.7%.Comment: 28 pages, accepted at TOSN and awaiting publicatio
Collaborative Storage Management In Sensor Networks
In this paper, we consider a class of sensor networks where the data is not
required in real-time by an observer; for example, a sensor network monitoring
a scientific phenomenon for later play back and analysis. In such networks, the
data must be stored in the network. Thus, in addition to battery power, storage
is a primary resource: the useful lifetime of the network is constrained by its
ability to store the generated data samples. We explore the use of
collaborative storage technique to efficiently manage data in storage
constrained sensor networks. The proposed collaborative storage technique takes
advantage of spatial correlation among the data collected by nearby sensors to
significantly reduce the size of the data near the data sources. We show that
the proposed approach provides significant savings in the size of the stored
data vs. local buffering, allowing the network to run for a longer time without
running out of storage space and reducing the amount of data that will
eventually be relayed to the observer. In addition, collaborative storage
performs load balancing of the available storage space if data generation rates
are not uniform across sensors (as would be the case in an event driven sensor
network), or if the available storage varies across the network.Comment: 13 pages, 7 figure
Online Learning Algorithm for Time Series Forecasting Suitable for Low Cost Wireless Sensor Networks Nodes
Time series forecasting is an important predictive methodology which can be
applied to a wide range of problems. Particularly, forecasting the indoor
temperature permits an improved utilization of the HVAC (Heating, Ventilating
and Air Conditioning) systems in a home and thus a better energy efficiency.
With such purpose the paper describes how to implement an Artificial Neural
Network (ANN) algorithm in a low cost system-on-chip to develop an autonomous
intelligent wireless sensor network. The present paper uses a Wireless Sensor
Networks (WSN) to monitor and forecast the indoor temperature in a smart home,
based on low resources and cost microcontroller technology as the 8051MCU. An
on-line learning approach, based on Back-Propagation (BP) algorithm for ANNs,
has been developed for real-time time series learning. It performs the model
training with every new data that arrive to the system, without saving enormous
quantities of data to create a historical database as usual, i.e., without
previous knowledge. Consequently to validate the approach a simulation study
through a Bayesian baseline model have been tested in order to compare with a
database of a real application aiming to see the performance and accuracy. The
core of the paper is a new algorithm, based on the BP one, which has been
described in detail, and the challenge was how to implement a computational
demanding algorithm in a simple architecture with very few hardware resources.Comment: 28 pages, Published 21 April 2015 at MDPI's journal "Sensors
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