Abstract
Transient spatiotemporal events occur within a short interval of time, in a particular location. If such events occur unexpectedly with varying durations, frequencies, and intensities, they pose a challenge for near-real-time monitoring. Lightning strikes are examples of such events and they can have severe negative consequences, such as fires, or they precede sudden flash storms, which can result in damage to infrastructure, loss of Internet connectivity, interruption of electrical power supply, and loss of life or property. Furthermore, they are unexpected, momentary in occurrence, sometimes with high frequency and then again with long intervals between them, their intensity varies considerably, and they are difficult to trace once they have occurred. Despite their unpredictable and irregular nature, timely analysis of lightning events is crucial for understanding their patterns and behaviour so that any adverse effects can be mitigated. However, near-real-time monitoring of unexpected and irregular transient events presents technical challenges for their analysis and visualisation. This paper demonstrates an approach for overcoming some of the challenges by clustering and visualising data streams with information about lightning events during thunderstorms, in real time. The contribution is twofold. Firstly, we detect clusters in dynamic spatiotemporal lightning events based on space, time, and attributes, using graph theory, that is adaptive and does not prescribe number and size of clusters beforehand, and allows for use of multiple clustering criteria and thresholds, and formation of different cluster shapes. Secondly, we demonstrate how the space time cube can be used to visualise unexpected and irregular transient events. Along with the visualisation, we identify the interactive elements required to counter challenges related to visualising unexpected and irregular transient events through space time cubes.
Highlights
An event occurs in a certain place during a particular interval of time and is characterised by its start and end times, its spatial coordinates, and observed descriptive attributes (Kisilevich et al 2010; Andrienko et al 2015)
We further review state-of-the-art methods and open research challenges in the way visual analytics of transient events has been applied and highlight the challenges, relative to this study, in order to address the second objective of this research
We present in detail how the space time cube is formulated and constructed for the purpose of visualisation of dynamic, transient spatiotemporal events, while illustrating patterns that would otherwise remain unseen over time
Summary
An event occurs in a certain place during a particular interval of time and is characterised by its start and end times, its spatial coordinates, and observed descriptive attributes (Kisilevich et al 2010; Andrienko et al 2015). We focus on transient spatiotemporal events that occur unexpectedly and within a very short interval of time, such as within a few seconds or less Their duration varies and is unpredictable, and their frequencies and intensities vary considerably. The challenge presented by lightning strikes is their unexpected, momentary occurrence with considerable variation in their frequency and intensity, and the difficulty to trace once they have occurred. Despite their unpredictable nature, timely analysis thereof is crucial in order to understand the patterns and behaviour so that adverse effects may be mitigated
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