|
| 1 | + |
| 2 | +@article{araldi2019, |
| 3 | + ids = {araldi2019a}, |
| 4 | + title = {From the Street to the Metropolitan Region: {{Pedestrian}} Perspective in Urban Fabric Analysis:}, |
| 5 | + author = {Araldi, Alessandro and Fusco, Giovanni}, |
| 6 | + year = {2019}, |
| 7 | + month = aug, |
| 8 | + volume = {46}, |
| 9 | + pages = {1243--1263}, |
| 10 | + doi = {10.1177/2399808319832612}, |
| 11 | + abstract = {The urban fabric is a fundamental small-scale component of urban form. Its quantitative analysis has so far been limited either in its geographical extent or in the diversity of components analysed...}, |
| 12 | + file = {/Users/martin/Dropbox/References/Araldi, Fusco/Araldi, Fusco - 2019 - From the street to the metropolitan region.pdf;/Users/martin/Zotero/storage/X486IKI3/Araldi and Fusco - 2019 - From the street to the metropolitan region Pedest.pdf}, |
| 13 | + journal = {Environment and Planning B: Urban Analytics and City Science}, |
| 14 | + number = {7} |
| 15 | +} |
| 16 | + |
| 17 | +@article{basaraner2017, |
| 18 | + title = {Performance of Shape Indices and Classification Schemes for Characterising Perceptual Shape Complexity of Building Footprints in {{GIS}}}, |
| 19 | + author = {Basaraner, Melih and Cetinkaya, Sinan}, |
| 20 | + year = {2017}, |
| 21 | + month = jul, |
| 22 | + volume = {31}, |
| 23 | + pages = {1952--1977}, |
| 24 | + doi = {10.1080/13658816.2017.1346257}, |
| 25 | + abstract = {ABSTRACTShape characterisation is important in many fields dealing with spatial data. For this purpose, numerous shape analysis and recognition methods with different degrees of complexity have so far been developed. Among them, relatively simple indices are widely used in spatial applications, but their performance has not been investigated sufficiently, particularly for building footprints (BFs). Therefore, this article focuses on BF shape characterisation with shape indices and classification schemes in a GIS environment. This study consists of four phases. In the first phase, the criteria for BF shape complexity were identified, and accordingly, benchmark data was constructed by human experts in three shape complexity categories. In the second phase, 18 shape indices were selected from the literature and automatically computed in GIS. The performance of these indices was then statistically assessed with histograms, correlation matrix and boxplots, and consequently four indices were found to be appropr...}, |
| 26 | + file = {/Users/martin/Dropbox/References/Basaraner, Cetinkaya/Basaraner, Cetinkaya - 2017 - Performance of shape indices and classification schemes for characterising.pdf}, |
| 27 | + journal = {International Journal of Geographical Information Science}, |
| 28 | + number = {10} |
| 29 | +} |
| 30 | + |
| 31 | +@article{bourdic2012, |
| 32 | + title = {Assessing Cities: A New System of Cross-Scale Spatial Indicators}, |
| 33 | + author = {Bourdic, Loeiz and Salat, Serge and Nowacki, Caroline}, |
| 34 | + year = {2012}, |
| 35 | + month = jan, |
| 36 | + volume = {40}, |
| 37 | + pages = {592--605}, |
| 38 | + doi = {10.1080/09613218.2012.703488}, |
| 39 | + abstract = {A comprehensive table displays 60 indicators and method}, |
| 40 | + file = {/Users/martin/Dropbox/References/Bourdic, Salat, Nowacki/Bourdic, Salat, Nowacki - 2012 - Assessing cities.pdf}, |
| 41 | + journal = {Building Research \& Information}, |
| 42 | + number = {5} |
| 43 | +} |
| 44 | + |
| 45 | +@phdthesis{cimburova2017, |
| 46 | + title = {Urban Morphology in {{Prague}}: Automatic Classification in {{GIS}}}, |
| 47 | + author = {Cimburova, Zofie}, |
| 48 | + year = {2017}, |
| 49 | + month = jan, |
| 50 | + address = {{Prague}}, |
| 51 | + file = {/Users/martin/Dropbox/References/Cimburova/Cimburova - 2017 - Urban morphology in Prague.pdf}, |
| 52 | + school = {Czech Technical University} |
| 53 | +} |
| 54 | + |
| 55 | +@article{dibble2017, |
| 56 | + title = {On the Origin of Spaces: {{Morphometric}} Foundations of Urban Form Evolution}, |
| 57 | + author = {Dibble, Jacob and Prelorendjos, Alexios and Romice, Ombretta and Zanella, Mattia and Strano, Emanuele and Pagel, Mark and Porta, Sergio}, |
| 58 | + year = {2017}, |
| 59 | + month = aug, |
| 60 | + volume = {46}, |
| 61 | + pages = {707--730}, |
| 62 | + doi = {10.1177/2399808317725075}, |
| 63 | + file = {/Users/martin/Dropbox/References/Dibble et al/Dibble et al - 2017 - On the origin of spaces.pdf}, |
| 64 | + journal = {Environment and Planning B: Urban Analytics and City Science}, |
| 65 | + number = {4} |
| 66 | +} |
| 67 | + |
| 68 | +@phdthesis{feliciotti2018, |
| 69 | + title = {{{RESILIENCE AND URBAN DESIGN}}: {{A SYSTEMS APPROACH TO THE STUDY OF RESILIENCE IN URBAN FORM}}}, |
| 70 | + author = {Feliciotti, Alessandra}, |
| 71 | + year = {2018}, |
| 72 | + month = jan, |
| 73 | + address = {{Glasgow}}, |
| 74 | + file = {/Users/martin/Dropbox/References/Feliciotti/Feliciotti - 2018 - RESILIENCE AND URBAN DESIGN.pdf}, |
| 75 | + school = {University of Strathclyde} |
| 76 | +} |
| 77 | + |
| 78 | +@article{fleischmann2020, |
| 79 | + title = {Morphological Tessellation as a Way of Partitioning Space: {{Improving}} Consistency in Urban Morphology at the Plot Scale}, |
| 80 | + author = {Fleischmann, Martin and Feliciotti, Alessandra and Romice, Ombretta and Porta, Sergio}, |
| 81 | + year = {2020}, |
| 82 | + month = jan, |
| 83 | + volume = {80}, |
| 84 | + pages = {101441}, |
| 85 | + doi = {10.1016/j.compenvurbsys.2019.101441}, |
| 86 | + abstract = {Urban Morphometrics (UMM) is an expanding area of urban studies that aims at representing and measuring objectively the physical form of cities to support evidence-based research. An essential step in its development is the identification of a suitable spatial unit of analysis, where suitability is determined by its degree of reliability, universality, accessibility and significance in capturing essential urban form patterns. In Urban Morphology such unit is found in the plot, a fundamental component in the morphogenetic of urban settlements. However, the plot is a conceptually and analytically ambiguous concept and a kind of spatial information often unavailable or inconsistently represented across geographies, issues that limit its reliability and universality and hence its suitability for Urban Morphometric applications. This calls for alternative methods of deriving a spatial unit able to convey reliable plot-scale information, possibly comparable with that provided by plots. This paper presents Morphological Tessellation (MT), an objectively and universally applicable method that derives a spatial unit named Morphological Cell (MC) from widely available data on building footprint only and tests its informational value as proxy data in capturing plot-scale spatial properties of urban form. Using the city of Zurich (CH) as case study we compare MT to the cadastral layer on a selection of morphometric characters capturing different geometrical and configurational properties of urban form, to test the degree of informational similarity between MT and cadastral plots. Findings suggest that MT can be considered an efficient informational proxy for cadastral plots for many of the tested morphometric characters, that there are kinds of plot-scale information only plots can provide, as well as kinds only morphological tessellation can provide. Overall, there appears to be clear scope for application of MT as fundamental spatial unit of analysis in Urban Morphometrics, opening the way to large-scale urban morphometric analysis.}, |
| 87 | + copyright = {All rights reserved}, |
| 88 | + file = {/Users/martin/Dropbox/References/Fleischmann et al/Fleischmann et al - 2020 - Morphological tessellation as a way of partitioning space.pdf}, |
| 89 | + journal = {Computers, Environment and Urban Systems}, |
| 90 | + keywords = {\#nosource} |
| 91 | +} |
| 92 | + |
| 93 | +@article{gil2012, |
| 94 | + title = {On the {{Discovery}} of {{Urban Typologies}}: {{Data Mining}} the {{Multi}}-Dimensional {{Character}} of {{Neighbourhoods}}}, |
| 95 | + author = {Gil, Jorge and Montenegro, Nuno and Beir{\~a}o, J N and Duarte, J P}, |
| 96 | + year = {2012}, |
| 97 | + month = jan, |
| 98 | + volume = {16}, |
| 99 | + pages = {27--40}, |
| 100 | + abstract = {In sustainable urban development the first stage of the urban design process should consist of a pre-design phase where the context of the site is analysed both qualitatively and quantitatively. In this paper we present a methodology for data mining an urban Geographic Information System (GIS) data set, consisting of three main phases: representation, analysis and description. The process reveals a series of block and street typologies at various levels of detail that highlight the different character of two neighbourhoods. This methodology is~\ldots{}}, |
| 101 | + file = {/Users/martin/Dropbox/References/Gil et al/Gil et al - 2012 - On the Discovery of Urban Typologies.pdf}, |
| 102 | + journal = {Urban Morphology}, |
| 103 | + number = {1} |
| 104 | +} |
| 105 | + |
| 106 | +@incollection{hamaina2012a, |
| 107 | + title = {Towards {{Urban Fabrics Characterization Based}} on {{Buildings Footprints}}}, |
| 108 | + booktitle = {Bridging the {{Geographic Information Sciences}}}, |
| 109 | + author = {Hamaina, Rachid and Leduc, Thomas and Moreau, Guillaume}, |
| 110 | + year = {2012}, |
| 111 | + month = jan, |
| 112 | + volume = {2}, |
| 113 | + pages = {327--346}, |
| 114 | + publisher = {{Springer, Berlin, Heidelberg}}, |
| 115 | + address = {{Berlin, Heidelberg}}, |
| 116 | + doi = {10.1007/978-3-642-29063-3_18}, |
| 117 | + abstract = {Urban fabric characterization is very useful in urban design, planning, modeling and simulation. It is traditionally considered as a descriptive task mainly based on visual inspection of urban plans....}, |
| 118 | + file = {/Users/martin/Dropbox/References/Hamaina, Leduc, Moreau/Hamaina, Leduc, Moreau - 2012 - Towards Urban Fabrics Characterization Based on Buildings Footprints.pdf}, |
| 119 | + isbn = {978-3-642-29062-6} |
| 120 | +} |
| 121 | + |
| 122 | +@inproceedings{hausleitner2017, |
| 123 | + ids = {hausleitner2017a}, |
| 124 | + title = {Development of a Configurational Typology for Micro-Businesses Integrating Geometric and Configurational Variables}, |
| 125 | + booktitle = {11th {{Space Syntax Symposium}}}, |
| 126 | + author = {Hausleitner, Birgit and Berghauser Pont, Meta}, |
| 127 | + year = {2017}, |
| 128 | + month = jan, |
| 129 | + abstract = {In cities manifold actors are continuously taking decisions and proposing interventions, which are driven by, but also change, spatial conditions and their performance on a variety of scales. Understanding how this interplay works is crucial for urban designers and planners. However, this complexity asks for new methods of analysis or combinations of existing methods that better inform urban designers which is exactly what this paper is aiming at. The use of typologies to describe a complex reality has been both attractive to~\ldots{}}, |
| 130 | + file = {/Users/martin/Dropbox/References/Hausleitner, Berghauser Pont/Hausleitner, Berghauser Pont - 2017 - Development of a configurational typology for micro-businesses integrating.pdf;/Users/martin/Dropbox/References/Hausleitner, Berghauser Pont/Hausleitner, Berghauser Pont - 2017 - Development of a configurational typology for micro-businesses integrating2.pdf} |
| 131 | +} |
| 132 | + |
| 133 | +@article{hermosilla2012, |
| 134 | + title = {Assessing Contextual Descriptive Features for Plot-Based Classification of Urban Areas}, |
| 135 | + author = {Hermosilla, T and Ruiz, L A and Recio, J A and {Cambra-L{\'o}pez}, M}, |
| 136 | + year = {2012}, |
| 137 | + month = may, |
| 138 | + volume = {106}, |
| 139 | + pages = {124--137}, |
| 140 | + doi = {10.1016/j.landurbplan.2012.02.008}, |
| 141 | + abstract = {Landscape and Urban Planning, 106 (2012) 124-137. 10.1016/j.landurbplan.2012.02.008}, |
| 142 | + file = {/Users/martin/Dropbox/References/Hermosilla et al/Hermosilla et al - 2012 - Assessing contextual descriptive features for plot-based classification of.pdf}, |
| 143 | + journal = {Landscape and Urban Planning}, |
| 144 | + number = {1} |
| 145 | +} |
| 146 | + |
| 147 | +@book{mcgarigal1995fragstats, |
| 148 | + title = {{{FRAGSTATS}}: Spatial Pattern Analysis Program for Quantifying Landscape Structure}, |
| 149 | + author = {McGarigal, Kevin}, |
| 150 | + year = {1995}, |
| 151 | + volume = {351}, |
| 152 | + publisher = {{US Department of Agriculture, Forest Service, Pacific Northwest Research Station}} |
| 153 | +} |
| 154 | + |
| 155 | +@article{porta2006, |
| 156 | + title = {The Network Analysis of Urban Streets: {{A}} Primal Approach}, |
| 157 | + author = {Porta, Sergio and Crucitti, Paolo and Latora, Vito}, |
| 158 | + year = {2006}, |
| 159 | + month = jan, |
| 160 | + volume = {33}, |
| 161 | + pages = {705--725}, |
| 162 | + doi = {10.1068/b32045}, |
| 163 | + abstract = {The network metaphor in the analysis of urban and territorial cases has a long tradition especially in transportation/land-use planning and economic geography. More recently, urban design has brought its contribution by means of the "space syntax" methodology. All these approaches, though under different terms like accessibility, proximity, integration,connectivity, cost or effort, focus on the idea that some places (or streets) are more important than others because they are more central. The study of centrality in complex systems,however, originated in other scientific areas, namely in structural sociology, well before its use in urban studies; moreover, as a structural property of the system, centrality has never been extensively investigated metrically in geographic networks as it has been topologically in a wide range of other relational networks like social, biological or technological. After two previous works on some structural properties of the dual and primal graph representations of urban street networks (Porta et al. cond-mat/0411241; Crucitti et al. physics/0504163), in this paper we provide an in-depth investigation of centrality in the primal approach as compared to the dual one, with a special focus on potentials for urban design.}, |
| 164 | + file = {/Users/martin/Dropbox/References/Porta, Crucitti, Latora/Porta, Crucitti, Latora - 2006 - The network analysis of urban streets.pdf}, |
| 165 | + journal = {Environment and Planning B: Planning and Design}, |
| 166 | + number = {5} |
| 167 | +} |
| 168 | + |
| 169 | +@article{schirmer2015, |
| 170 | + title = {A Multiscale Classification of Urban Morphology}, |
| 171 | + author = {Schirmer, Patrick Michael and Axhausen, Kay W}, |
| 172 | + year = {2015}, |
| 173 | + month = may, |
| 174 | + volume = {9}, |
| 175 | + pages = {101--130}, |
| 176 | + doi = {10.5198/jtlu.2015.667}, |
| 177 | + abstract = {Various studies in the field of urban planning and design have given recommendations for "good urban forms," suggesting that specific spatial characteristics inform the quality of an urban landscape and the way people perceive and behave in them. When modeling spatial behavior in the form of location choice models or hedonic prices, we should reflect these spatial characteristics through the integration of quantitative attributes such as model variables, which is currently only done in a very limited way. The increasing availability of disaggregated geodata enlarges the options to characterize urban morphology in the form of such attributes. The question for the researcher is which attributes are most useful to reflect characteristics of urban morphology and how can they be processed from the given data. In this paper, we want to address this issue and give an overview of quantitative descriptions of urban morphology. We base our work on a data model that is simple enough to allow for reproducibility in any study area. These attributes are classified in multiple scales to reflect different perceptions of urban morphology. In a case study on the canton of Zurich, we furthermore prove how these characteristics allow for the definition of urban typologies at different scales.}, |
| 178 | + file = {/Users/martin/Dropbox/References/Schirmer, Axhausen/Schirmer, Axhausen - 2015 - A multiscale classification of urban morphology.pdf}, |
| 179 | + journal = {Journal of Transport and Land Use}, |
| 180 | + number = {1} |
| 181 | +} |
| 182 | + |
| 183 | +@article{vanderhaegen2017, |
| 184 | + title = {Mapping Urban Form and Function at City Block Level Using Spatial Metrics}, |
| 185 | + author = {Vanderhaegen, Sven and Canters, Frank}, |
| 186 | + year = {2017}, |
| 187 | + month = nov, |
| 188 | + volume = {167}, |
| 189 | + pages = {399--409}, |
| 190 | + doi = {10.1016/j.landurbplan.2017.05.023}, |
| 191 | + file = {/Users/martin/Dropbox/References/Vanderhaegen, Canters/Vanderhaegen, Canters - 2017 - Mapping urban form and function at city block level using spatial metrics.pdf}, |
| 192 | + journal = {Landscape and Urban Planning} |
| 193 | +} |
| 194 | + |
| 195 | + |
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