Title :
The development of interactive 3D spring visualization for periodic multidimensional direction time-series data sets
Author :
Siripatana, Adil ; Jaroensutasinee, Krisanadej ; Prueksaaroon, Supakit ; Vannarat, Sornthep
Author_Institution :
NECTEC-WU Center of Excellence for Ecoinformatics & Comput. Sci. Undergraduate Program, Walailak Univ., Nakhon Si Thammarat, Thailand
Abstract :
This paper introduces a new approach for visualizing multidimentional weather-direction-related time-series data sets called “3D Spring Model”. Spring Model is designed to visualize pattern behind large time-series weather data set and to clearify seasonal structure in the data. In addition, it supports visibility of seasonal shift and wind direction anomaly by direct comparison betweem successive spring cycles. The visualization contained three data types: (1) Weather parameter (such as windrun, temperature or rainfall etc.), (2) Wind directions and (3) time. We mapped the color to the model in such the way that it comply with human perception using color gradient. Level-Of-Detail scheme is applied and adjustable resulting different pattern time focus for users. Spring Model is highly self-contained for accumulative long term data. It is interactive, flexible and user-friendly. Spring Model is very well-suited to high computing power visualization environment. At the end of the paper, the observation of weather pattern in Nakhon Si Thammarat, Thailand using Spring Model was proposed as the case study to present the model vast applications.
Keywords :
atmospheric temperature; data visualisation; geophysics computing; interactive systems; meteorology; pattern recognition; rain; solid modelling; time series; wind; 3D Spring Model; Nakhon Si Thammarat; Thailand; accumulative long term data; color gradient; data seasonal structure; high computing power visualization environment; human perception; interactive 3D spring visualization; level-of-detail scheme; multidimensional weather-direction-related time-series data set visualization; pattern visualization; periodic multidimensional direction time-series data set; rainfall; seasonal shift visibility; spring cycle; temperature; user-friendly system; weather parameter; weather pattern observation; wind direction anomaly; windrun; Data models; Data visualization; Image color analysis; Spirals; Springs; Wind; 3D Spring Visualization; direction-related time-series data;
Conference_Titel :
Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON), 2012 9th International Conference on
Conference_Location :
Phetchaburi
Print_ISBN :
978-1-4673-2026-9
DOI :
10.1109/ECTICon.2012.6254257
