Your search keyword '"Fan, Hongchao"' showing total 5 results

1. Coupling maximum entropy modeling with geotagged social media data to determine the geographic distribution of tourists.

Author

Yan, Yingwei, Kuo, Chiao-Ling, Feng, Chen-Chieh, Huang, Wei, Fan, Hongchao, and Zipf, Alexander

Subjects

DATA modeling, SOCIAL media, CRISIS management, EMERGENCY management, GEOGRAPHIC information systems

Abstract

Modeling the geographic distribution of tourists at a tourist destination is crucial when it comes to enhancing the destination’s resilience to disasters and crises, as it enables the efficient allocation of limited resources to precise geographic locations. Seldom have existing studies explored the geographic distribution of tourists through understanding the mechanisms behind it. This article proposes to couple maximum entropy modeling with geotagged social media data to determine the geographic distribution of tourists in order to facilitate disaster and crisis management at tourist destinations. As one of the most popular tourist destinations in the United States, San Diego was chosen as the study area to demonstrate the proposed approach. We modeled the tourist geographic distribution in the study area by quantifying the relationship between the distribution and five environmental factors, including land use, land parcel, elevation, distance to the nearest major road and distance to the nearest transit stop. The geographic distribution’s dependency on and sensitivity to the environmental factors were uncovered. The model was subsequently applied to estimate the potential impacts of one simulated tsunami disaster and one simulated traffic breakdown due to crisis events such as a political protest or a fire hazard. As such, the effectiveness of the approach has been demonstrated with specific disaster and crisis scenarios. [ABSTRACT FROM AUTHOR]

Published

2018

2. Detecting repetitive structures on building footprints for the purposes of 3D modeling and reconstruction.

Author

Fan, Hongchao, Zipf, Alexander, and Wu, Hangbin

Subjects

*BUILDING design & construction, *THREE-dimensional display systems, *POLYGONS, *ALGORITHMS, *GEOGRAPHIC information systems

Abstract

Repetitive structures of a building share features in terms of geometries and appearance and, therefore, the 3D information for these structures can be transferred from one specification to another for the purpose of 3D modeling and reconstruction once they are identified as repetitive structures. In this paper, a novel approach is proposed for the detection of the repetitive structures specified by the polygons of a building’s footprints. Instead of directly operating on the polygon in 2D space, the polygon is converted into a bend angle function representation in 1D space, whereby an extrusion is represented as a closed polygon intersected by thex-axis and located above it, while an intrusion is represented as a closed polygon below thex-axis. In this way, a polygon of a footprint is decomposed into a number of extrusions and intrusions which can in turn be processed. The task of detecting any repetitive structures specified in a building’s footprints then becomes the task of clustering the intersected polygons in the bend angle function space. The extrusions/intrusions which can be placed in the same clusters can be regarded as repetitive structures. Experiments show that this proposed approach can detect repetitive structures with different sizes, orientations and complexities. [ABSTRACT FROM PUBLISHER]

Published

2017

3. Quality assessment for building footprints data on OpenStreetMap.

Author

Fan, Hongchao, Zipf, Alexander, Fu, Qing, and Neis, Pascal

Subjects

*GEOGRAPHIC information systems, *INFORMATION storage & retrieval systems, *INFORMATION resources management, *ANTHROPOMETRY, *THREE-dimensional imaging, *IMAGING systems

Abstract

In the past two years, several applications of generating three-dimensional (3D) buildings from OpenStreetMap (OSM) have been made available, for instance, OSM-3D, OSM2World, OSM Building, etc. In these projects, 3D buildings are reconstructed using the buildings’ footprints and information about their attributes, which are documented as tags in OSM. Therefore, the quality of 3D buildings relies strongly on the quality of the building footprints data in OSM. This article is dedicated to a quality assessment of building footprints data in OSM for the German city of Munich, which is one of the most developed cities in OSM. The data are evaluated in terms of completeness, semantic accuracy, position accuracy, and shape accuracy by using building footprints in ATKIS (German Authority Topographic–Cartographic Information System) as reference data. The process contains three steps: finding correspondence between OSM and ATKIS data, calculating parameters of the four quality criteria, and statistical analysis. The results show that OSM footprint data in Munich have a high completeness and semantic accuracy. There is an offset of about four meters on average in terms of position accuracy. With respect to shape, OSM building footprints have a high similarity to those in ATKIS data. However, some architectural details are missing; hence, the OSM footprints can be regarded as a simplified version of those in ATKIS data. [ABSTRACT FROM AUTHOR]

Published

2014

4. Towards generating network of bikeways from Mapillary data.

Author

Ding, Xuan, Fan, Hongchao, and Gong, Jianya

Subjects

*CYCLING, *GLOBAL Positioning System, *CYCLING competitions, *GEOGRAPHIC information systems, *BICYCLE lanes

Abstract

Nowadays, biking is flourishing in many Western cities. While many roads are used for both cars and bicycles, buffered bike lanes are marked for the safety of cyclists. In many cities, segregated paths are built up to have physical separation from motor vehicles. These types of biking ways are regarded as attributes in geographic information system (GIS) data. This information is required and important in the service of route planning, as cyclists may prefer certain types of bikeways. This paper presents a framework for generating networks of bikeways with attribute information from the data collected on the collaborative street view data platform Mapillary. The framework consists of two layers: The first layer focuses on constructing a bikeway road network using Global Positioning System (GPS) information of Mapillary images. Mapillary sequences are classified into walking, cycling, driving (ordinary road), and driving (motorway) trajectories based on the transportation mode with a trained XGBoost classifier. The bikeway road network is then extracted from cycling and driving (ordinary road) trajectories using a raster-based method. The second layer focuses on extracting attribute information from Mapillary images. Cycling-specific information (i.e., bicycle signs/markings) is extracted using a two-stage detection and classification model. A series of quantitative evaluations based on a case study demonstrated the ability and potential of the framework for extracting bikeway road information to enrich the existing OSM cycling road data. • Generating of bikeways from VGI data i.e. Mapillary street-level images. • Extraction of attribute information of bikeways by using a two-stage detection and classification model. • New method for enriching cycling data with classification information on OpenStreetMap. [ABSTRACT FROM AUTHOR]

Published

2021

5. A contextualized and personalized model to predict user interest using location-based social networks.

Author

Li, Ming, Sagl, Günther, Mburu, Lucy, and Fan, Hongchao

Subjects

*GEOGRAPHIC information systems, *ONLINE social networks, *MOBILE apps, *RECOMMENDER systems, *LOGISTIC regression analysis

Abstract

The accurate determination of user interest in terms of geographic information is essential to numerous mobile applications, such as recommender systems and mobile advertising. User interest is greatly influenced by the usage context and varies across individuals; therefore, a user interest model should incorporate these individual needs and propensities. In this paper, we present an approach to model user interest in a contextualized and personalized manner based on location-based social networks. Multinomial logistic regression is employed to quantify the relationship between user interest and usage context at both the aggregate and individual levels. The proposed approach is tested in a real-world application using Foursquare check-ins issued between February and June 2014 in the three major cities of Chicago, Los Angeles and New York. Results demonstrate the capability of the contextualization process for capturing contextual influences on user interest, and that such influences can be observed at a fine-grained scale at the individual level through the personalization process. The proposed approach therefore enables contextualized and personalized estimation of user interest, thereby contributing useful information to follow-up mobile applications. [ABSTRACT FROM AUTHOR]

Published

2016