Abstract
Although the availability of sensor data is becoming prevalent across many domains, it still remains a challenge to make sense of the sensor data in an efficient and effective manner in order to provide users with relevant services. The concept of virtual sensors provides a step towards this goal, however they are often used to denote homogeneous types of data, generally retrieved from a predetermined group of sensors. The DIVS (Dynamic Intelligent Virtual Sensors) concept was introduced in previous work to extend and generalize the notion of a virtual sensor to a dynamic setting with heterogenous sensors. This paper introduces a refined version of the DIVS concept by integrating an interactive machine learning mechanism, which enables the system to take input from both the user and the physical world. The paper empirically validates some of the properties of the DIVS concept. In particular, we are concerned with the distribution of different budget allocations for labelled data, as well as proactive labelling user strategies. We report on results suggesting that a relatively good accuracy can be achieved despite a limited budget in an environment with dynamic sensor availability, while proactive labeling ensures further improvements in performance.
Highlights
With the evolution of sensor technology, Internet of Things (IoT), and high performance communication networks, making use of the vast amount of data being generated is critical for developing new and more powerful applications
We introduce a refined version of the Dynamic Intelligent Virtual Sensors (DIVS)
To illustrate the DIVS concept and validate some of its properties, we present a set of experiments where a DIVS uses data streams from a heterogeneous set of sensors to estimate the occupancy of an office room
Summary
With the evolution of sensor technology, Internet of Things (IoT), and high performance communication networks, making use of the vast amount of data being generated is critical for developing new and more powerful applications. This may concern supporting the user by distilling information from the incoming sensor data streams and presenting the user with the relevant sensory data just-in-time, while accounting for the user’s interaction with the cyber-physical systems in its environment. A key aspect of virtual sensors, which we are addressing in this work, has to do with measuring properties for which no corresponding physical
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