1 Preface
This Quarto book contains the online documentation of the second version of Arabesque, a web application for thematic flow mapping created within the geographic flow vizualisation research program (gflowiz) funded by Univ. Gustave Eiffel (former IFSTTAR).
The gflowiz project was originally led by Françoise Bahoken and co-directed by Étienne Côme (Univ. Gustave Eiffel), with the scientific collaboration of Laurent Jégou (Univ. Toulouse 2 Jean Jaurès). The main developer of the first version of Arabesque was Thomas Bapaume (ESIEE student engineer), then Paul Fabre (UGE/IGN student geographer/geomatician) ; Tony Hauck (freelance geomatician) is developping the Arabesque2 version. Other contributors include for the conception & design of the app : Marion Maisonobe and Grégoire le Campion (CNRS), and t for the Arabesque 1 documentation : Nicolas Roelandt (Univ. Gustave Eiffel).
Arabesque is an innovative cartographic application that meets the contemporary challenges of spatial networks geovisualisation.
1.1 Challenges
The analysis of the dynamics of urban areas or metropolises in one hand, the delimitation of their functional areas and the spatio-temporal comparison of their patterns in the other hand, are often limited by two categories of problems inherent in data and tools.
The lack of open origin-destination (OD) data sets depicting territorial interactions and interrelations limited the possibility of empirical analysis. Similarly, the lack of dedicated geovisualization and cartographic analysis tools means that many images of visual and analytical interest are no longer part of the current cartographic landscape. In addition to these specific problems regarding online OD data, it is important to focus attention on the current possibilities offered by online possibilities of OD cartography.
The current range of possibilities for exploring flows and networks datasets on the geoweb is symptomatic of the ongoing enthusiasm of a growing interdisciplinary community. While for a long time the efforts were limited to direct visualisation alone, applications specifically dedicated to flows have recently come on line.
1.2 State of the Art
Three development approaches seem to be coexisting. The first one seems to be dedicated to the development of large volumes of data in a digital cartographic form, as is the case with the United Nations Comtrade for example. The second approach consists of applications for the visual geographical exploration of one’s own OD datasets as in flowmap.blue, for example. Academic applications offer different graphical models allowing co-visualization, such as the Vistorian (Serrano Molinero & al., 2017) and Netscity (Maisonobe & al., 2019). The third approach is specific to heavy online thematic mapping software infrastructures such as Magrit or Kepler in response to the shortcomings of current editors regarding flow mapping. It is interesting to note that all these solutions are being developed in line with the growing practice of open-source development with a view to reproducibility (Giraud, Lambert, 2017).
Few applications, however, appear to be fully aligned with the “visualization mapping” paradigm as defined by A. Mac Eachren (2004). Indeed, efforts still seem to be focused more on displaying layers and simply exploring them. Existing tools still do little to combine within a single interface the three pillars of cartographic representation: (geo)visualization and the processing of statistical and geographic data.
In this context, Arabesque’s objectives are as follows.
1.3 Objectives
Arabesque’s ambition is to meet the high demand for analysis of one’s own flow dataset in a free, open source and ergonomic way - this need corresponding to the main result of our survey conducted in 2018.
Arabesque is part of the french Lemaire Law for a digital republic. It falls under the general objective of increasing understanding of the geographical determinants of the spatial mobility of goods, people and so on.
Arabesque aims to respond to the need to visualize the results of fundamental or applied research within theoretical and methodological development frameworks that can be considered both transverse to several subjects (population, habitat, environment, transport, i.e.) and interdisciplinary by nature (geography, demography, environment, geomatics, engineering sciences, human and social sciences, i.e.). These subjects also contribute to the societal challenges linked to the rise of the digital society, which they help to address.
From a scientific point of view, Arabesque aims to innovate in the handling of flow and network data currently available on the geoweb (Bahoken et al, 2020). This is why it is part of the Mac Eachren (2005) new paradigm of “visualization mapping”.
Arabesque combines in the same environment geo-visualization and geographic and statistical information processing devices - initially for descriptive purposes. On the other hand, it enables the processing of complex relational datasets, which can be both voluminous and display different dimensions of spatial mobilities (several thematic categories and/or temporalities).
Particular attention is paid to rendering, both in terms of drawing and the cartographic semiology of linear features. The desire to improve the quality of the images of flows produced should lead to the development of a sensible approach to the geo-visualization of mobilities and spatial interactions.
Françoise Bahoken and Étienne Côme
Paris, Mai 2024.
Quoted references:
Keim D., Andrienko G., Fekete J.-D., Görg C., Kohlhammer J., Melançon G. (2008), Visual Analytics: Definition, Process, and Challenges, In: Kerren A. & al. (Eds.): Information Visualization, Springer-Verlag Berlin Heidelberg, LNCS 4950, pp. 154–175.
Mac Eachren A. (2005), How Maps Work. Representation, Visualization, and Design, New-York, The Guildford Press.
Maisonobe M., Jégou L., Yakimovich N., Cabanac G. (2019), NETSCITY: a geospatial application to analyse and map world scale production and collaboration data between cities, International Conference on Scientometrics and Informetrics (ISSI 2019), sep. 2019, Rome, Italy, 〈hal-02301035〉
Giraud T., Lambert N. (2017), Reproducible cartography, in: Advances in Cartography and GISsciences, International Cartographic Conference, ICACI’2017, Springer, pp.173-183.
Serrano Molinero V., Bach B., Plaisant C., Dufournaud N.,Fekete J.-D. (2017), Understanding the Use of The Vistorian: Complementing Logs with Context Mini-Questionnaires, Visualization for the Digital Humanities, Oct. 2017, Phoenix, United States. ⟨hal-01650259⟩.