Tiled vector data model for the geographical features of symbolized maps.

Lin Li,Haihong Zhu,Wei Hu,You Li,Hang Zhang,George-John Nychas

doi:10.1371/journal.pone.0176387

Lin Li, Haihong Zhu + Show 4 more

Open Access

https://doi.org/10.1371/journal.pone.0176387

Copy DOI

Abstract

Electronic maps (E-maps) provide people with convenience in real-world space. Although web map services can display maps on screens, a more important function is their ability to access geographical features. An E-map that is based on raster tiles is inferior to vector tiles in terms of interactive ability because vector maps provide a convenient and effective method to access and manipulate web map features. However, the critical issue regarding rendering tiled vector maps is that geographical features that are rendered in the form of map symbols via vector tiles may cause visual discontinuities, such as graphic conflicts and losses of data around the borders of tiles, which likely represent the main obstacles to exploring vector map tiles on the web. This paper proposes a tiled vector data model for geographical features in symbolized maps that considers the relationships among geographical features, symbol representations and map renderings. This model presents a method to tailor geographical features in terms of map symbols and ‘addition’ (join) operations on the following two levels: geographical features and map features. Thus, these maps can resolve the visual discontinuity problem based on the proposed model without weakening the interactivity of vector maps. The proposed model is validated by two map data sets, and the results demonstrate that the rendered (symbolized) web maps present smooth visual continuity.

Highlights

Web electronic maps (E-maps) have been extensively exploited and widely applied with the rapid development of technologies such as wireless communication, computer technology and geographic space information technology [1]
The graphic conflicts and losses that are caused by the traditional data model are marked in Fig 19, whereas a perfect effect is displayed in Fig 20, which does not show the problems that are associated with graphic conflicts and losses
Most current applications of E-maps are implemented based on raster tiles or vector tiles that are generated based on the traditional data model

Summary

Introduction

Web electronic maps (E-maps) have been extensively exploited and widely applied with the rapid development of technologies such as wireless communication, computer technology and geographic space information technology [1]. Many successful applications of E-maps have been implemented in daily life [2]. E-maps can be used as information inquiry services by providing users with specific information, such as POIs (points of interest) and tourist information [3,4]. E-maps present bus routes and real-time traffic information and provide data that support vehicle navigation [5,6]. E-maps are useful for teaching geography [7] and urban planning [8].

Methods

Results

Conclusion