Bin Jiang, profilbild

Bin Jiang

Professor, teknologie doktor i geografiska informationssystem, M.Sc in Remote Sensing and Computer Cartography, B.Sc.in Cartography

Forskningsämne: Geografi

Forskningsområde: Geospatial informationsvetenskap

026-648901

bin.jiang@hig.se

Om forskaren

Bin Jiang är en självständig forskare och har varit banbrytande i en serie nya koncept, metoder och verktyg, inte bara för att bättre förstå städernas struktur och dynamik, utan också för att göra och bygga om den byggda miljön mot hållbarhet.

Visa innehållet

Artiklar

Refereegranskat

  • Ren, Z., Seipel, S. & Jiang, B. (2024). A topology-based approach to identifying urban centers in America using multi-source geospatial big data. Elsevier, Computers, Environment and Urban Systems, 107 (), 10.1016/j.compenvurbsys.2023.102045 [Mer information]

  • Ren, Z., Jiang, B., de Rijke, C. & Seipel, S. (2024). Characterizing the livingness of geographic space across scales using global nighttime light data. Elsevier, International Journal of Applied Earth Observation and Geoinformation, 133 (), 10.1016/j.jag.2024.104136 [Mer information]

  • Hu, B., Fu, S., Luo, J., Lin, H., Yin, Q., Tao, V., Jiang, B., Zuo, L. & Meng, Y. (2023). Geographical detector-based assessment of multi-level explanatory powers of determinants on China’s medical-service resumption during the COVID-19 epidemic. SAGE, Environment and planning B, 50 (7), (1739-1758). 10.1177/23998083221143122 [Mer information]

  • Jiang, B. & de Rijke, C. (2023). Living Images: A Recursive Approach to Computing the Structural Beauty of Images or the Livingness of Space. Taylor & Francis, Annals of the American Association of Geographers, 113 (6), (1329-1347). 10.1080/24694452.2023.2178376 [Mer information]

  • Levin, T., Sjöberg, S., Jiang, B. & Barthel, S. (2023). Social Sustainability and Alexander’s Living Structure Through a New Kind of City Science. Cogitatio, Urban Planning, 8 (3), (224-234). 10.17645/up.v8i3.6841 [Mer information]

  • Xu, Z. & Jiang, B. (2022). Effects of social vulnerability and spatial accessibility on COVID-19 vaccination coverage: A census-tract level study in Milwaukee County, USA. MDPI, International Journal of Environmental Research and Public Health, 19 (19), 10.3390/ijerph191912304 [Mer information]

  • Jiang, B. (2022). Geography as a science of the earth’s surface founded on the third view of space. Taylor & Francis, Annals of GIS, 28 (1), (31-43). 10.1080/19475683.2021.1966502 [Mer information]

  • Jiang, B. & de Rijke, C. (2022). Representing geographic space as a hierarchy of recursively defined subspaces for computing the degree of order. Elsevier, Computers, Environment and Urban Systems, 92 (), 10.1016/j.compenvurbsys.2021.101750 [Mer information]

  • Xie, Y., Liu, C., Chang, S. & Jiang, B. (2022). Urban Sustainability: Integrating Socioeconomic and Environmental Data for Multi-Objective Assessment. MDPI, Sustainability, 14 (15), 10.3390/su14159142 [Mer information]

  • Jiang, B. & Huang, J. (2021). A new approach to detecting and designing living structure of urban environments. Elsevier, 10.1016/j.compenvurbsys.2021.101646 [Mer information]

  • Jiang, B. & Huang, J. (2021). A new approach to detecting and designing living structure of urban environments. Springer, Computational Urban Science, 1 (), 10.1007/s43762-021-00013-y [Mer information]

  • Jiang, B. & de Rijke, C. (2021). A power-law-based approach to mapping COVID-19 cases in the United States. Taylor & Francis, 10.1080/10095020.2020.1871306 [Mer information]

  • Huang, H., Yao, X., Krisp, J. & Jiang, B. (2021). Analytics of location-based big data for smart cities. Elsevier, Computers, Environment and Urban Systems, 90 (), [Mer information]

  • Jiang, B. & de Rijke, C. (2021). Structural Beauty: A Structure-Based Computational Approach to Quantifying the Beauty of an Image. MDPI, 10.3390/jimaging7050078 [Mer information]

  • Jiang, B. & Slocum, T. (2020). A map is a living structure with the recurring notion of far more smalls than larges. MDPI, 10.3390/ijgi9060388 [Mer information]

  • Ma, D., Osaragi, T., Oki, T. & Jiang, B. (2020). Exploring the heterogeneity of human urban movements using geo-tagged tweets. Taylor & Francis, International Journal of Geographical Information Science, 34 (12), (2475-2496). 10.1080/13658816.2020.1718153 [Mer information]

  • de Rijke, C., Macassa, G., Sandberg, M. & Jiang, B. (2020). Living Structure as an Empirical Measurement of City Morphology. MDPI, 10.3390/ijgi9110677 [Mer information]

  • Karydas, C. & Jiang, B. (2020). Scale optimization in topographic and hydrographic feature mapping using fractal analysis. MDPI, 10.3390/ijgi9110631 [Mer information]

  • Jiang, B. (2019). A recursive definition of goodness of space for bridging the concepts of space and place for sustainability. MDPI AG, 10.3390/su11154091 [Mer information]

  • Jiang, B. (2019). Alexander’s wholeness as the scientific foundation of sustainable urban design and planning. Jomard Publishing, [Mer information]

  • Ren, Z., Jiang, B. & Seipel, S. (2019). Capturing and characterizing human activities using building locations in America. MDPI, ISPRS International Journal of Geo-Information, 8 (5), 10.3390/ijgi8050200 [Mer information]

  • Jiang, B. (2019). Christopher Alexander and His Life’s Work. MDPI, 10.3390/urbansci3010030 [Mer information]

  • Jiang, B. & Ren, Z. (2019). Geographic space as a living structure for predicting human activities using big data. Taylor & Francis, 10.1080/13658816.2018.1427754 [Mer information]

  • Jiang, B. (2019). Living Structure Down to Earth and Up to Heaven. MDPI, 10.3390/urbansci3030096 [Mer information]

  • Jiang, B. (2019). Natural Cities Generated from All Building Locations in America. Data, 4 (2), 10.3390/data4020059 [Mer information]

  • Jiang, B. (2019). New Paradigm in Mapping: A Critique on Cartography and GIS. University of Toronto Press, 10.3138/cart.54.3.2018-0019 [Mer information]

  • Yao, X., Huang, H., Jiang, B. & Krisp, J. (2019). Representation and analytical models for location-based big data. Taylor & Francis, International Journal of Geographical Information Science, 33 (4), (707-713). [Mer information]

  • Behnisch, M., Hecht, R., Herold, H. & Jiang, B. (2019). Urban big data analytics and morphology. Sage Publications, Environment and planning B, 46 (7 (SI)), (1203-1205). [Mer information]

  • Ma, D., Omer, I., Osaragi, T., Sandberg, M. & Jiang, B. (2019). Why Topology Matters in Predicting Human Activities. Sage Publications, Environment and planning B, 46 (7), (1297-1313). [Mer information]

  • Ma, D. & Jiang, B. (2018). A smooth curve as a fractal under the third definition. Cartographica, 53 (3), (203-210). [Mer information]

  • Jiang, B. (2018). A Topological Representation for Taking Cities as a Coherent Whole. John Wiley & Sons, Geographical Analysis, 50 (3), (298-313). [Mer information]

  • Chen, Y. & Jiang, B. (2018). Hierarchical scaling in systems of natural cities. MDPI AG, Entropy, 20 (6), 10.3390/e20060432 [Mer information]

  • Jiang, B. & Ma, D. (2018). How complex is a fractal?. Journal of Geovisualization and Spatial Analysis, 2 (1), 10.1007/s41651-017-0009-z [Mer information]

  • Jiang, B. (2018). Spatial heterogeneity, scale, data character and sustainable transport in the big data era. MDPI AG, 10.3390/ijgi7050167 [Mer information]

  • Ma, D., Sandberg, M. & Jiang, B. (2017). A Socio-Geographic Perspective on Human Activities in Social Media. Geographical Analysis, 49 (3), (328-342). [Mer information]

  • Robinson, A., Demšar, U., Moore, A., Buckley, A., Jiang, B., Field, K., Kraak, M., Camboim, S. & Sluter, C. (2017). Geospatial big data and cartography. International Journal of Cartography, 3 (Suppl. 1), (32-60). 10.1080/23729333.2016.1278151 [Mer information]

  • Jiang, B. (2017). Scaling as a design principle for cartography. Annals of GIS, 23 (1), (67-69). [Mer information]

  • Jiang, B. (2016). A complex-network perspective on Alexander's wholeness. Physica A, 463 (), (475-484). [Mer information]

  • Jiang, B. & Brandt, S. (2016). A Fractal Perspective on Scale in Geography. ISPRS International Journal of Geo-information, 5 (6), 10.3390/ijgi5060095 [Mer information]

  • See, L., Mooney, P., Foody, G., Bastin, L., Comber, A., Estima, J., Fritz, S., Kerle, N., Jiang, B., Laakso, M., Liu, H., Milčinski, G., Nikšič, M., Painho, M., Pődör, A., Olteanu-Raimond, A. & Rutzinger, M. (2016). Crowdsourcing, citizen science or volunteered geographic information?. ISPRS International Journal of Geo-Information, 5 (5), 10.3390/ijgi5050055 [Mer information]

  • Li, S., Dragicevic, S., Castro, F., Sester, M., Winter, S., Coltekin, A., Pettit, C., Jiang, B., Haworth, J., Stein, A. & Cheng, T. (2016). Geospatial big data handling theory and methods. ISPRS journal of photogrammetry and remote sensing (Print), 115 (), (119-133). [Mer information]

  • Yao, X., Jiang, B., Liu, Y. & Madden, M. (2016). New insights gained from location-based social media data. Elsevier, Computers, Environment and Urban Systems, 58 (), [Mer information]

  • Jiang, B., Ma, D., Yin, J. & Sandberg, M. (2016). Spatial Distribution of City Tweets and Their Densities. Geographical Analysis, 48 (3), (337-351). [Mer information]

  • Omer, I. & Jiang, B. (2015). Can cognitive inferences be made from aggregate traffic flow data?. Computers, Environment and Urban Systems, 54 (), (219-229). [Mer information]

  • Ma, D., Sandberg, M. & Jiang, B. (2015). Characterizing the Heterogeneity of the OpenStreetMap Data and Community. ISPRS International Journal of Geo-Information, 4 (2), (535-550). 10.3390/ijgi4020535 [Mer information]

  • Jiang, B. & Ma, D. (2015). Defining least community as a homogeneous group in complex networks. Physica A, 428 (), (154-160). [Mer information]

  • Jiang, B. (2015). Geospatial analysis requires a different way of thinking. GeoJournal, 80 (1), (1-13). [Mer information]

  • Jiang, B. (2015). Head/tail breaks for visualization of city structure and dynamics. Cities, 43 (), (69-77). [Mer information]

  • Jiang, B. & Miao, Y. (2015). The Evolution of Natural Cities from the Perspective of Location-Based Social Media. Professional Geographer, 67 (2), (295-306). [Mer information]

  • Jiang, B. (2015). The fractal nature of maps and mapping. International Journal of Geographical Information Science, 29 (1), (159-174). [Mer information]

  • Jiang, B. (2015). Wholeness as a hierarchical graph to capture the nature of space. International Journal of Geographical Information Science, 29 (9), (1632-1648). [Mer information]

  • Jiang, B., Yin, J. & Liu, Q. (2015). Zipf’s law for all the natural cities around the world. International Journal of Geographical Information Science, 29 (3), (498-522). [Mer information]

  • Jiang, B. & Sui, D. (2014). A new kind of beauty out of the underlying scaling of geographic space. Professional Geographer, 66 (4), (676-686). [Mer information]

  • Jiang, B. & Yin, J. (2014). Ht-index for quantifying the fractal or scaling structure of geographic features. Annals of the Association of American Geographers, 104 (3), (530-541). [Mer information]

  • Jiang, B., Duan, Y., Lu, F., Yang, T. & Zhao, J. (2014). Topological structure of urban street networks from the perspective of degree correlations. Environment and Planning, B, 41 (5), (813-828). [Mer information]

  • Jiang, B. (2013). Head/tail breaks. Professional Geographer, 65 (3), (482-494). [Mer information]

  • Jiang, B., Liu, X. & Jia, T. (2013). Scaling of Geographic space as a universal rule for map generalization. Annals of the Association of American Geographers, 103 (4), (844-855). [Mer information]

  • Jiang, B. (2013). The Image of the city out of the underlying scaling of city artifacts or locations. Annals of the Association of American Geographers, 103 (6), (1552-1566). [Mer information]

  • Jia, T., Jiang, B., Carling, K., Bolin, M. & Ban, Y. (2012). An empirical study on human mobility and its agent-based modeling. Institute of Physics Publishing (IOPP), Journal of Statistical Mechanics, (11), (P11024-). [Mer information]

  • Jia, T. & Jiang, B. (2012). Building and analyzing the US airport network based on en-route location information. Physica A, 391 (15), (4031-4042). [Mer information]

  • Liu, X. & Jiang, B. (2012). Defining and generating axial lines from street center lines for better understanding of urban morphologies. International Journal of Geographical Information Science, 26 (8), (1521-1532). [Mer information]

  • Jia, T. & Jiang, B. (2012). Exploring human activity patterns using taxicab static points. ISPRS International Journal of Geo-Information, 1 (1), (89-107). 10.3390/ijgi1010089 [Mer information]

  • Jiang, B. & Liu, X. (2012). Scaling of geographic space from the perspective of city and field blocks and using volunteered geographic information. International Journal of Geographical Information Science, 26 (2), (215-229). [Mer information]

  • Liu, X. & Jiang, B. (2011). A novel approach to the identification of urban sprawl patches based on the scaling of geographic space. International journal of Geomatics and Geosciences, 2 (2), (415-429). [Mer information]

  • Jiang, B. & Jia, T. (2011). Agent-based simulation of human movement shaped by the underlying street structure. Taylor & Francis, International Journal of Geographical Information Science, 25 (1), (51-64). [Mer information]

  • Jiang, B. & Liu, X. (2011). Computing the fewest-turn map directions based on the connectivity of natural roads. Taylor & Francis, International Journal of Geographical Information Science, 25 (7), (1069-1082). [Mer information]

  • Jiang, B. & Jia, T. (2011). Zipf's law for all the natural cities in the United States. International Journal of Geographical Information Science, 25 (8), (1269-1281). [Mer information]

  • Jiang, B. & Liu, X. (2010). Automatic generation of the axial lines of urban environments to capture what we perceive. Taylor & Francis, International Journal of Geographical Information Science, 24 (4), (545-558). [Mer information]

  • Jiang, B., Yin, J. & Zhao, S. (2009). Characterizing the human mobility pattern in a large street network. American Physical Society, Physical Review E. Statistical, Nonlinear, and Soft Matter Physics, 80 (2), [Mer information]

  • Jiang, B. (2009). Ranking spaces for predicting human movement in an urban environment. Taylor &Francis, International Journal of Geographical Information Science, 23 (7), (823-837). [Mer information]

  • Jiang, B. (2009). Street hierarchies: a minority of streets account for a majority of traffic flow. Taylor & Francis, International Journal of Geographical Information Science, 23 (8), (1033-1148). [Mer information]

  • Jiang, B. & Liu, C. (2009). Street-based topological representations and analyses for predicting traffic flow in GIS. Taylor & Francis, International Journal of Geographical Information Science, 23 (9), (1119-1137). [Mer information]

  • Jiang, B. (2008). Flow dimension and capacity for structuring urban street networks. Physica A, 387 (16-17), (4440-4452). [Mer information]

  • Jiang, B., Zhao, S. & Yin, J. (2008). Self-organized natural roads for predicting traffic flow. Journal of Statistical Mechanics, (July), [Mer information]

  • Jiang, B. (2007). A topological pattern of urban street networks. Physica A, 384 (2), (647-655). [Mer information]

  • Jiang, B. (2007). Some thoughts on geospatial analysis and modeling. Computers, Environment and Urban Systems, 31 (5), (477-480). [Mer information]

  • Jiang, B. & Omer, I. (2007). Spatial topology and its structural analysis based on the concept of simplicial complex. Transactions in GIS, 11 (6), (943-960). [Mer information]

  • Jiang, B. & Yao, X. (2006). Location-based services and GIS in perspective. Computers, Environment and Urban Systems, 30 (6), (712-725). [Mer information]

  • Jiang, B. & Li, Z. (2005). Geovisualization. Cartographic Journal, 42 (1), (3-4). [Mer information]

  • Jiang, B. & Claramunt, C. (2004). A structural approach to model generalisation of an urban street network. Geoinformatica, 8 (2), (157-171). [Mer information]

  • Jiang, B. & Zipf, A. (2004). An introduction to the special issue on LBS and GIS. Journal of Geographic Information Sciences, 10 (2), (89-90). [Mer information]

  • Jiang, B. & Harrie, L. (2004). Selection of streets from a network using self-organizing maps. Transactions on GIS, 8 (3), (335-350). [Mer information]

  • Jiang, B. & Claramunt, C. (2002). Intergration of space syntax into GIS. Transactions on GIS, 6 (3), (295-309). [Mer information]

Övrig (populärvetenskap, debatt, mm)

  • Jiang, B. (2020). Is living structure beauty's temperature?. Tsinghua University, Beijing, [Mer information]

  • Jiang, B. (2011). Making GIScience research more open access. Taylor & Francis, International Journal of Geographical Information Science, 25 (8), (1217-1220). [Mer information]

  • Jiang, B. & Zipf, A. (2006). How do location-based services hit Google?. Computers, Environment and Urban Systems, 30 (6), (709-711). [Mer information]

  • Jiang, B. (2005). A different topology. GEO Informatics, (March), (21-21). [Mer information]

  • Jiang, B. (2005). A structural perspective on visibility patterns with a topographic surface. Transactions on GIS, 9 (4), (475-488). [Mer information]

  • Jiang, B. (2005). Visualization of qualitative locations in geographic information systems. Cartography and Geographic Information Science, 32 (4), (219-229). [Mer information]

  • Jiang, B. & Claramunt, C. (2004). Topological analysis of urban street networks. Environment and Planning, B, 31 (), (151-162). [Mer information]

Övrigt vetenskapligt

  • Jiang, B. (2017). New ways of thinking for maps and mapping. Swedish Cartographic Society, Kart och Bildteknik, - (3), (9-). [Mer information]

  • Jiang, B. & Thill, J. (2015). Volunteered Geographic Information. Computers, Environment and Urban Systems, 53 (SI), (1-3). [Mer information]

  • Jiang, B. & Okabe, A. (2014). Different ways of thinking about street networks and spatial analysis. Geographical Analysis, 46 (4), (341-344). [Mer information]

  • Benenson, I. & Jiang, B. (2012). Editorial : Bridging the Gap between Urban and Regional Modeling, and Planning Practice. Journal of the Urban and Regional Information Systems Association, 24 (1), (5-7). [Mer information]

  • Yao, X. & Jiang, B. (2009). Geospatial modeling of urban environments. Environment and Planning, B, 36 (5), (769-771). [Mer information]

  • Jiang, B. (2008). Review of Else/Where: Mapping - New Cartographies of Networks and Territories. Cartographic Journal, 36 (5), (769-771). [Mer information]

  • Jiang, B. (2007). Cybercartography. Environment and Planning, B, 34 (1), (186-187). [Mer information]

  • Jiang, B. (2005). Review of. Geoinformatics, (July/August), (21-21). [Mer information]

  • Jiang, B. (2005). Review of. Cartographic Journal, 42 (2), (189-190). [Mer information]

  • Jiang, B. (2004). How many turns? It is smaller than we thought. Geoinformatics, Oct./Nov. (), (27-27). [Mer information]

  • Jiang, B. (2004). Review of: Telegeoinformatics: Location-Based Computing and Services by Hassan A. Karimi and Amin Hammad. Geoinformatics, September (), (57-57). [Mer information]

Konferensbidrag

  • Jiang, B. (2020). Spatial Healing: Bridging Space and Place through the Concept of Wholeness. [Mer information]

  • Jiang, B. (2019). Bridging the Two Concepts of Space and Place through the Concept of Wholeness. [Mer information]

  • Jiang, B. (2019). Spatial Heterogeneity, Scale, Data Character, and Sustainable Transport in the Big Data Era. : DATA ANALYTICS: PAVING THE WAY TO SUSTAINABLE URBAN MOBILITY. S. 730-736. [Mer information]

  • Jiang, B. (2018). A Geospatial Perspective on Sustainable Urban Mobility in the Era of BIG Data. [Mer information]

  • Jiang, B. (2018). Challenging the Establishment of Cartography and GIS. [Mer information]

  • Jiang, B. (2018). Geospatial Analysis Requires a Different Way of Thinking : The Problem of Spatial Heterogeneity. : TRENDS IN SPATIAL ANALYSIS AND MODELLING. S. 23-40. [Mer information]

  • Jiang, B. (2018). On Spatiotemporal Thinking: Spatial heterogeneity, scale, and data character. [Mer information]

  • Jiang, B. (2018). Scaling Law and Tobler's Law for Characterizing Asymmetry in Geography. [Mer information]

  • Jiang, B. (2018). Three Fundamental Issues on Geography as a Science of the Earth's Surface. [Mer information]

  • Moore, A. & Jiang, B. (2018). Towards data-based artworks in geovisual analytics. Länk [Mer information]

  • Omer, I., Kaplan, N. & Jiang, B. (2018). Why angular centralities are more suitable for space syntax modeling?. : Proceedings of the 11th Space Syntax Symposium. S. 100.1-100.12. [Mer information]

  • Omer, I., Kaplan, N. & Jiang, B. (2017). Why angular centralities are more suitable for space syntax modeling?. : Proceedings - 11th International Space Syntax Symposium. S. 100.1-100.12. [Mer information]

  • Jiang, B. (2013). Why can the image of the city be formed?. : Proceedings of the 12th International Conference on GeoComputation, LIESMARS. [Mer information]

  • Jiang, B. (2012). Computing the image of the city. : Planning Support Tools: Policy analysis, implementation and evaluation. S. 111-121. [Mer information]

  • Jiang, B. (2011). A short note on data-intensive geospatial computing. [Mer information]

  • Jiang, B. (2010). Bottom-up approach to studying the street structure and human movement patterns. : Workshop on Movement Research: Are you in the flow?. [Mer information]

  • Jiang, B. (2010). Data-intensive geospatial analysis and computation. : online proceeding. [Mer information]

  • Jiang, B. & Liu, X. (2009). AxialGen: a research prototype for automatically generating the axial map. : Proceedings of 11th International Conference on Computers in Urban Planning and Urban Management (CUPUM). [Mer information]

  • Brandt, S. & Jiang, B. (2004). 3D geovisualization as a communication and analysis tool in fluvial geomorphology. : Geoinformatics 2004. S. 339-346. Länk [Mer information]

Kapitel i böcker

  • Jiang, B., Ma, D., Yin, J. & Sandberg, M. (2021). Spatial Distribution of City Tweets and Their Densities. Urban Remote Sensing: Monitoring, Synthesis, and Modeling in the Urban Environment. John Wiley & Sons. S. 115-129. [Mer information]

  • Jiang, B. (2019). A Topological Representation for Taking Cities as a Coherent Whole. Modeling and Simulation in Science, Engineering and Technology. Springer. S. 335-352. [Mer information]

  • Jiang, B. & Ren, Z. (2019). Geographic Space as a Living Structure for Predicting Human Activities Using Big Data. Mobility patterns, big data and transport analytics : Tools and applications for modeling. Elsevier. S. 55-72. [Mer information]

  • Jiang, B. (2016). Head/tail breaks for visualization of city structure and dynamics. European Handbook of Crowdsourced Geographic Information. London, Ubiquity Press. S. 169-183. [Mer information]

  • Jiang, B. (2016). Line simplification. International Encyclopedia of Geography : People, the Earth, Environment, and Technology. Wiley-Blackwell. [Mer information]

  • Lemmens, R., Falquet, G., De Sabbata, S., Jiang, B. & Bucher, B. (2016). Querying VGI by semantic enrichment. European Handbook on Crowdsourced Geographic Information. London, Ubiquity Press. S. 185-194. [Mer information]

  • Jiang, B. (2015). A city is a complex network. A City is Not a Tree : 50<sup>th</sup> Anniversary Edition. Portland, Sustasis Press. S. 89-100. [Mer information]

  • Jiang, B. (2013). Volunteered geographic information and computational geography. Crowdsourcing Geographic Knowledge : Volunteered Geographic Information (VGI) in Theory and Practice. Springer Berlin/Heidelberg. S. 125-138. [Mer information]

  • Jiang, B. & Yao, X. (2010). Geospatial analysis and modeling of urban structure and dynamics. The GeoJournal Library, 2010, Volume 99, Part 1. Berlin, Springer. S. 3-11. [Mer information]

  • Omer, I. & Jiang, B. (2010). Imageability and topological eccentricity of urban streets. Dordrecht, Springer. [Mer information]

  • Jiang, B. (2005). Small world modelling for complex geographic environments. Complex Artificial Environments : simulation, cognition and VR in the study and planning of cities. Berlin, Springer. S. 259-270. [Mer information]

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Sidan uppdaterades 2024-04-02