«Application mobile de visualisation 3D ...
Document type :
Communication dans un congrès avec actes
Permalink :
Title :
«Application mobile de visualisation 3D temps-réel des compétitions sportives en extérieur (LIS3D) », general track: IoT & geolocation, communication
Author(s) :
Pagès, Thierry [Auteur]
Soula, Julien [Auteur]
Beuscart, Régis [Auteur]
QUESNEL-BARBET, Anne [Auteur]
Soula, Julien [Auteur]
Beuscart, Régis [Auteur]
QUESNEL-BARBET, Anne [Auteur]
![refId](/themes/Mirage2//images/idref.png)
Conference title :
Foss4G-Europe 2017
Conference organizers(s) :
École Nationale des Sciences Géographiques
GeoLabs
OSGeo
OSGeo-fr
GeoLabs
OSGeo
OSGeo-fr
City :
MARNE-LA-VALLEE
Country :
France
Start date of the conference :
2017-07-18
Publication date :
2017-07-19
Keyword(s) :
Geomatics
Live
IOT
Geolocalization
Sport
3D
Live
IOT
Geolocalization
Sport
3D
HAL domain(s) :
Informatique [cs]
English abstract : [en]
Abstract Introduction \u2013 State of the Art An innovative solution of connected bibs is available to the organizers of outdoors sports events. It allows to follow in live the participants and secure the tracks. The ...
Show more >Abstract Introduction \u2013 State of the Art An innovative solution of connected bibs is available to the organizers of outdoors sports events. It allows to follow in live the participants and secure the tracks. The innovation is based on Global Positioning System (GPS) tracking, two-dimensional (2D) and three-dimensional (3D) real-time visualization. This solution [1] allows the public to follow in live or in a delayed time all participants (500 and more) or a particular participant. Portable GPS tracking in sport events has been around for a decade, but has been used only on a small scale (less than fifty participants are usually tracked) due to inadequate standard network coverage of operators. The generalization of the mobile networks roaming has allowed the development of specialized companies in the management of multi-operator standard networks at competitive costs. [2,3] Finally, the virtual 3D visualization with dynamic real-time tracking of outdoor sport event seems to be under-covered by the industry or even nonexistent. Objectives, materials and methods Through our sport competition data collection carried out in 2016, we intend to build an unique 3D visual replay rendering for building a mobile application where the user could benefit from a virtual 3D immersion of the real-time sport event similar to the real one of the \u201CTour de France\u201D. First of all, the connected bib consists of an electronic device integrated in the sport participant's bib. The electronic device including a GPS chip and a Subscriber Identity Module (SIM) card transmits electronically over the Internet (TCP \/ IP) at the frequencies between 30s and 60s. Overall, the system autonomy varies from 10 to 20 hours. In addition, we have developed several 2D visualization modes: using the Google Maps API [4], (Fig. 1), or using the proprietary 2D projections, (Fig. 2), all obtained from the real-time network frames containing timed GPS coordinates of the sport participants during the event. A 3D model restricted to the bounds of the sport competition track was realized. We used an open source software environment such as QGIS [5] and the Qgis2threejs plugin [6] built on top of ThreeJS library [7] (Fig. 3). Thanks to these tools, we have combined geographic information layers, coming from the large scale referential (RGE®) databases of IGN comprising digital elevation models (DEM) and high resolution Orthophotography layers (BD ALTI®) through \u201Cgeo-services\u201D Web Map Services (WMS). [8,9] Results and Demonstration In this context of sport competition, we propose you a descriptive analysis and a 3D visualization demonstration of real-time sport event managed in 2016 among which a TRAIL (53km), a SWIM & RUN (44km) and a marathon (42km) involving a number of sport participants from 100 to 500. [10] The visual quality of the 3D blocks was obtained thanks to QGIS and QGIS2THREEjs configurations and the associated geographic data layers. The overall obtained result (3D block with dynamic follow-up of the sport participants) makes possible today to simulate a moving camera at a distance of fifty meters above the sport track.Show less >
Show more >Abstract Introduction \u2013 State of the Art An innovative solution of connected bibs is available to the organizers of outdoors sports events. It allows to follow in live the participants and secure the tracks. The innovation is based on Global Positioning System (GPS) tracking, two-dimensional (2D) and three-dimensional (3D) real-time visualization. This solution [1] allows the public to follow in live or in a delayed time all participants (500 and more) or a particular participant. Portable GPS tracking in sport events has been around for a decade, but has been used only on a small scale (less than fifty participants are usually tracked) due to inadequate standard network coverage of operators. The generalization of the mobile networks roaming has allowed the development of specialized companies in the management of multi-operator standard networks at competitive costs. [2,3] Finally, the virtual 3D visualization with dynamic real-time tracking of outdoor sport event seems to be under-covered by the industry or even nonexistent. Objectives, materials and methods Through our sport competition data collection carried out in 2016, we intend to build an unique 3D visual replay rendering for building a mobile application where the user could benefit from a virtual 3D immersion of the real-time sport event similar to the real one of the \u201CTour de France\u201D. First of all, the connected bib consists of an electronic device integrated in the sport participant's bib. The electronic device including a GPS chip and a Subscriber Identity Module (SIM) card transmits electronically over the Internet (TCP \/ IP) at the frequencies between 30s and 60s. Overall, the system autonomy varies from 10 to 20 hours. In addition, we have developed several 2D visualization modes: using the Google Maps API [4], (Fig. 1), or using the proprietary 2D projections, (Fig. 2), all obtained from the real-time network frames containing timed GPS coordinates of the sport participants during the event. A 3D model restricted to the bounds of the sport competition track was realized. We used an open source software environment such as QGIS [5] and the Qgis2threejs plugin [6] built on top of ThreeJS library [7] (Fig. 3). Thanks to these tools, we have combined geographic information layers, coming from the large scale referential (RGE®) databases of IGN comprising digital elevation models (DEM) and high resolution Orthophotography layers (BD ALTI®) through \u201Cgeo-services\u201D Web Map Services (WMS). [8,9] Results and Demonstration In this context of sport competition, we propose you a descriptive analysis and a 3D visualization demonstration of real-time sport event managed in 2016 among which a TRAIL (53km), a SWIM & RUN (44km) and a marathon (42km) involving a number of sport participants from 100 to 500. [10] The visual quality of the 3D blocks was obtained thanks to QGIS and QGIS2THREEjs configurations and the associated geographic data layers. The overall obtained result (3D block with dynamic follow-up of the sport participants) makes possible today to simulate a moving camera at a distance of fifty meters above the sport track.Show less >
Language :
Anglais
Audience :
Internationale
Popular science :
Non
Administrative institution(s) :
CHU Lille
Université de Lille
Université de Lille
Submission date :
2020-06-08T14:10:35Z
2020-06-09T09:37:35Z
2020-06-09T09:37:35Z
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