Abstract
This article introduces a time-selective strategy for enhancing temporal consistency of input data for multi-sensor data fusion for in-network data processing in ad hoc wireless sensor networks. Detecting and handling complex time-variable (real-time) situations require methodical consideration of temporal aspects, especially in ad hoc wireless sensor network with distributed asynchronous and autonomous nodes. For example, assigning processing intervals of network nodes, defining validity and simultaneity requirements for data items, determining the size of memory required for buffering the data streams produced by ad hoc nodes and other relevant aspects. The data streams produced periodically and sometimes intermittently by sensor nodes arrive to the fusion nodes with variable delays, which results in sporadic temporal order of inputs. Using data from individual nodes in the order of arrival (i.e. freshest data first) does not, in all cases, yield the optimal results in terms of data temporal consistency and fusion accuracy. We propose time-selective data fusion strategy, which combines temporal alignment, temporal constraints and a method for computing delay of sensor readings, to allow fusion node to select the temporally compatible data from received streams. A real-world experiment (moving vehicles in urban environment) for validation of the strategy demonstrates significant improvement of the accuracy of fusion results.
Highlights
Detecting complex situations in real time typically requires simultaneous observations originating from several autonomous and multi-modal wireless sensor network (WSN) nodes
This article focuses on communication between sensor and fusion processes, explores how readings from multiple distributed sensor nodes are consumed by the fusion node in real time and how data validity and
The column presents the number of completed fusions, and the last two columns show how many of the fusion results were false negatives and false positives
Summary
Detecting complex situations in real time typically requires simultaneous observations originating from several autonomous and multi-modal wireless sensor network (WSN) nodes. The problem, when employing ad hoc WSNs, is that the data transport times of even simultaneous sensor readings, acquired by distributed nodes, may not match temporarily even if the same communication path is used. International Journal of Distributed Sensor Networks simultaneity intervals affect the selection of temporally matching data for fusion process. The subscription contains information about what data should be provided, its expected refresh rate and can specify the requirements for validity and simultaneity intervals. The WSN middleware for handling the subscriptions for exchanging SA information has been introduced in our previous work.[5]
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