Geovisualization Techniques of Spatial Environmental Data Using Different Visualization Tools

The appearance of online map services and frameworks (e.g., KML, QGIS) has increased the possibilities to easily, quickly and—in many cases—cost-effectively publish spatial data stored in databases. The aim of this study is to present the geovisualization of spatial databases of a Hungarian settlement on the web, using the open source webGIS system and Google application programming interfaces (APIs). The interactive point and interpolated distribution maps available online provide a detailed picture of the level of contamination, the spatial distribution of the ground water supply of the investigated settlement, and the changes which have occurred following the establishment of the sewage system. In the case of PO43− we determined that in the year before the sewage system was constructed, most of the area of the settlement could be considered contaminated, with the highest level of contamination measured in the central area of the settlement. Five years after the construction of the sewage system, the ratio of the contaminated areas had significantly decreased. In the case of NO3− we found a high level of contamination before the construction of the sewage system with a concentration increase in a North–West direction. After the establishment of the sewage system, the increase in concentration was the most intense in the central parts of the settlement, while the characteristic spatial distribution could no longer be observed. The geovisualization techniques developed are able to provide information about the different spatial data for users in a visual way, and also help to understand better the spatial information using a cognitive approach. The advantage of interactive web maps created with the technologies applied over traditional static maps is a new approach, which allows the user to manipulate the temporal and spatial data directly in the most appropriate way.

[2]  Gabor Fazekas,et al.  Multiple Sclerosis Detection via Machine Learning Algorithm, Accurate Simulated Database 3D MRI to 2D Images, using value of Binary Pattern Classification - A Case Study , 2019, 2019 10th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[3]  Marianna Zichar,et al.  Cognitive interpretation of different spatial databases in web environment , 2015, 2015 6th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[4]  Ildiko Horvath,et al.  Innovative engineering education in the cooperative VR environment , 2016, 2016 7th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[5]  H. Zh,et al.  Radon risk mapping in southern Belgium: an application of geostatistical and GIS techniques. , 2001, The Science of the total environment.

[6]  Gabor Farkas,et al.  Applicability of open-source web mapping libraries for building massive Web GIS clients , 2017, Journal of Geographical Systems.

[7]  A. Nandi,et al.  Iron and Manganese in Groundwater: Using Kriging and GIS to Locate High Concentrations in Buncombe County, North Carolina , 2018, Ground water.

[8]  Adam B. Csapo,et al.  Evaluation of human-Myo gesture control capabilities in continuous search and select operations , 2016, 2016 7th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[9]  Peter Baranyi,et al.  Cognitive infocommunications: CogInfoCom , 2010, 2010 11th International Symposium on Computational Intelligence and Informatics (CINTI).

[10]  Gyöngyi Bujdosó,et al.  Developing cognitive processes as a major goal in designing e-health information provider VR environment in information science education , 2019, 2019 10th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[11]  Andreas Neumann Web Mapping and Web Cartography , 2008, Encyclopedia of GIS.

[12]  B. Márkus,et al.  FROM SURVEYING TO GEOMATICS , 2016 .

[13]  Ryszard Klempous,et al.  Possibility analysis of danger factors visualization in the construction environment based on Virtual Reality model , 2017, 2017 8th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[14]  Eydis H. Magnusdottir,et al.  Cognitive workload classification using cardiovascular measures and dynamic features , 2017, 2017 8th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[15]  Marianna Zichar,et al.  Categorization and geovisualization of climate change strategies using an open-access WebGIS tool , 2020 .

[16]  Mark Graham,et al.  NEOGEOGRAPHY AND THE PALIMPSESTS OF PLACE: WEB 2.0 AND THE CONSTRUCTION OF A VIRTUAL EARTH , 2010 .

[17]  Tibor Ujbanyi,et al.  Examine the effect of different web-based media on human brain waves , 2017, 2017 8th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[18]  Ágoston Török,et al.  Cluttered centres: Interaction between eccentricity and clutter in attracting visual attention of readers of a 16th century map , 2017, 2017 8th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[19]  Atsushi Ito,et al.  UI Design based on Traditional Japanese Gesture , 2019, 2019 10th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[20]  Attila Kovari,et al.  Quantitative Analysis of Relationship Between Visual Attention and Eye-Hand Coordination , 2020 .

[21]  G. Szabó,et al.  The effects of uninsulated sewage tanks on groundwater. A case study in an eastern Hungarian settlement , 2017 .

[22]  Tibor Ujbanyi,et al.  Speed control of Festo Robotino mobile robot using NeuroSky MindWave EEG headset based brain-computer interface , 2016, 2016 7th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[23]  Marianna Zichar,et al.  ANALYSIS AND OPTIMIZATION OF KML FILES , 2020 .

[24]  Andrea Pődör,et al.  Experimental investigation of visualization methods of earthquake catalogue maps , 2014 .

[25]  Tibor Guzsvinecz,et al.  Analyzing the Spatial Skills of University Students with a Virtual Reality Application using a Desktop Display and the Gear VR , 2020 .

[26]  Modar Dergham,et al.  Application of Virtual Reality in Kinematics Education , 2019, 2019 10th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[27]  Kristof Csorba,et al.  Toward Cognitive Data Analysis with Big Data Environment , 2018, 2018 9th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[28]  Z. Torok,et al.  Remember the North - : Reference Frames and Spatial Cognition at Different Scale , 2019 .

[29]  Sterling Udell Beginning Google Maps Mashups with Mapplets, KML, and GeoRSS: From Novice to Professional , 2008 .

[30]  S. Dell'Orco,et al.  Epistemology of Olfaction : Emotion, Cognition, and Decision Making , 2018, 2018 9th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[31]  D. Donald Determination of nitrate and nitrite , 1957 .

[32]  A. Kovari,et al.  Mathability and Creative Problem Solving in the MaTech Math Competition , 2020 .

[33]  Mark Gahegan,et al.  Geovisualization for knowledge construction and decision support , 2004, IEEE Computer Graphics and Applications.

[34]  R. Webster,et al.  Kriging: a method of interpolation for geographical information systems , 1990, Int. J. Geogr. Inf. Sci..

[35]  Krzysztof Walczak,et al.  Visualizing Financial Stock Data withinan Augmented Reality Trading Environment , 2019 .

[36]  Martin C. Brown Hacking Google Maps and Google Earth , 2006 .

[37]  Alex Singleton,et al.  Web mapping 2.0: The neogeography of the GeoWeb , 2008 .

[38]  P. Baranyi,et al.  Definition and synergies of cognitive infocommunications , 2012 .

[39]  Ilona Heldal,et al.  Detecting oculomotor problems using eye tracking: Comparing EyeX and TX300 , 2019, 2019 10th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[40]  A. Bera,et al.  Delineating groundwater potential zones of agriculture dominated landscapes using GIS based AHP techniques: a case study from Uttar Dinajpur district, West Bengal , 2020, Environmental Earth Sciences.

[41]  T. Mikita,et al.  A GIS Tool to Express Soil Naturalness Grades and Geovisualization of Results on Tokaj Nagy-Hill  , 2019, Acta Polytechnica Hungarica.

[42]  Ammar Tiri,et al.  Spatial distribution of the groundwater quality using kriging and Co-kriging interpolations , 2020 .

[43]  K. Sreelash,et al.  GIS and AHP Techniques Based Delineation of Groundwater Potential Zones: a case study from Southern Western Ghats, India , 2019, Scientific Reports.

[44]  Bálint Molnár,et al.  An Architectural Approach to Cognitive Information Systems , 2020 .

[45]  Vesa A. Niskanen,et al.  A case study on time-interval fuzzy cognitive maps in a complex organization , 2017, 2017 8th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[46]  Jozsef Katona,et al.  A Brain–Computer Interface Project Applied in Computer Engineering , 2016, IEEE Transactions on Education.

[47]  Alan M. MacEachren,et al.  Exploratory cartographic visualization: advancing the agenda , 1997 .

[48]  Ilona Heldal,et al.  Analysis of Gaze Fixations Using an Open-source Software , 2019, 2019 10th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[49]  Kristof Csorba,et al.  Implementation of a geographic information system with big data environment on common data model , 2017, 2017 8th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[50]  G. Szabó,et al.  Effects of nitrogen loading from domestic wastewater on groundwater quality , 2019, Water SA.

[51]  Marianna Zichar,et al.  Possibilities of spatial data visualization with web technologies for cognitive interpretation , 2017, 2017 8th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[52]  Patrícia Bőczén-Rumbach Industry-Oriented Enhancement of Information Management Systems at AUDI Hungaria using MaxWhere’s 3D Digital Environments , 2018, 2018 9th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[53]  Ádám B. Csapó,et al.  Interaction Patterns of Spatial Navigation in VR Workspaces , 2019, 2019 10th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).

[54]  Borbala Berki Better Memory Performance for Images in MaxWhere 3D VR Space than in Website , 2018, 2018 9th IEEE International Conference on Cognitive Infocommunications (CogInfoCom).