refs.bib

@book{DormanLearningGeospatialAnalysis2014,
  title = {Learning {{R}} for {{Geospatial Analysis}}},
  publisher = {{Packt Publishing Ltd}},
  date = {2014},
  author = {Dorman, Michael}
}

@book{gillespie_efficient_2016,
  title = {Efficient {{R Programming}}: {{A Practical Guide}} to {{Smarter Programming}}},
  isbn = {978-1-4919-5078-4},
  url = {https://csgillespie.github.io/efficientR/},
  publisher = {{O'Reilly Media}},
  date = {2016},
  author = {Gillespie, Colin and Lovelace, Robin}
}

@book{grolemund_r_2016,
  langid = {english},
  title = {R for {{Data Science}}},
  edition = {1 edition},
  isbn = {978-1-4919-1039-9},
  pagetotal = {250},
  publisher = {{O'Reilly Media}},
  date = {2016-07-25},
  author = {Grolemund, Garrett and Wickham, Hadley}
}

@collection{openshaw_geocomputation_2000,
  langid = {english},
  location = {{London ; New York}},
  title = {Geocomputation},
  edition = {1 edition},
  isbn = {978-0-7484-0900-6},
  abstract = {Geocomputation is essentially the follow-on revolution from Geographic Information Science and is expected to gather speed and momentum in the first decade of the 21st century. It comes into use once a GIS database has been set up, with a digital data library, and expanded and linked to a global geographical two or three dimensional co-ordinate system. It exploits developments in IT and new data gathering and earth observing technologies, and takes the notion of GIS beyond data and towards its analysis, modelling, and use in problem solving. This book provides pointers on how to harness these technologies in tandem and in the context of multiple different subjects and problem areas. It seeks to establish the principles and set the foundations for subsequent growth.L},
  pagetotal = {432},
  publisher = {{CRC Press}},
  date = {2000-05-04},
  editor = {Openshaw, Stan and Abrahart, Robert J.}
}

@article{obrien_interactive_2016,
  title = {Interactive Mapping for Large, Open Demographic Data Sets Using Familiar Geographical Features},
  volume = {12},
  issn = {null},
  url = {http://dx.doi.org/10.1080/17445647.2015.1060183},
  doi = {10.1080/17445647.2015.1060183},
  abstract = {Ever-increasing numbers of large demographic data sets are becoming available. Many of these data sets are provided as open data, but are in basic repositories where it is incumbent on the user to generate their own visualisations and analysis in order to garner insights. In a bid to facilitate the use and exploration of such data sets, we have created a web mapping platform called DataShine. We link data from the 2011 Census for England and Wales with open geographical data to demonstrate the power and utility of creating a conventional map and combining it with a simple but flexible interface and a highly detailed demographic data set.},
  number = {4},
  journaltitle = {Journal of Maps},
  urldate = {2017-05-22},
  date = {2016-08-07},
  pages = {676-683},
  keywords = {Census,Population,population,census,choropleth,DataShine,interactive,Open data},
  author = {O'Brien, Oliver and Cheshire, James}
}

@collection{longley_geocomputation:_1998,
  langid = {english},
  location = {{Chichester, Eng. ; New York}},
  title = {Geocomputation: {{A Primer}}},
  edition = {1 edition},
  isbn = {978-0-471-98576-1},
  shorttitle = {Geocomputation},
  abstract = {Geocomputation A Primer edited by Paul A Longley Sue M Brooks Rachael McDonnell School of Geographical Sciences, University of Bristol, UK and Bill Macmillan School of Geography, University of Oxford, UK This book encompasses all that is new in geocomputation. It is also a primer - that is, a book which sets out the foundations and scope of this important emergent area from the same contemporary perspective. The catalyst to the emergence of geocomputation is the new and creative application of computers to devise and depict digital representations of the Earth's surface. The environment for geocomputation is provided by geographical information systems (GIS), yet geocomputation is much more than GIS. Geocomputation is a blend of research-led applications which emphasise process over form, dynamics over statics, and interaction over passive response. This book presents a timely blend of current research and practice, written by the leading figures in the field. It provides insights to a new and rapidly developing area, and identifies the key foundations to future developments. It should be read by all who seek to use geocomputational methods for solving real world problems.},
  pagetotal = {290},
  publisher = {{Wiley}},
  date = {1998-10-30},
  editor = {Longley, Paul A. and Brooks, Sue M. and McDonnell, Rachael and MacMillan, Bill}
}

@article{miller_toblers_2004,
  title = {Tobler's First Law and Spatial Analysis},
  volume = {94},
  abstract = {Discusses Tobler's First Law of (TFL) Geography, that everything is related to everything else, but near things are more related than distant things. Relatonships between two geographic entities; TFL as the core of spatial autocorrelation statistics; Quantitative techniques for analyzing correlation relative to distance or connectivity relationships.},
  number = {2},
  journaltitle = {Annals of the Association of American Geographers},
  date = {2004},
  author = {Miller, Harvey J.}
}

@book{chambers_extending_2016,
  langid = {english},
  title = {Extending {{R}}},
  isbn = {978-1-4987-7572-4},
  abstract = {Up-to-Date Guidance from One of the Foremost Members of the R Core Team  Written by John M. Chambers, the leading developer of the original S software, Extending R covers key concepts and techniques in R to support analysis and research projects. It presents the core ideas of R, provides programming guidance for projects of all scales, and introduces new, valuable techniques that extend R.  The book first describes the fundamental characteristics and background of R, giving readers a foundation for the remainder of the text. It next discusses topics relevant to programming with R, including the apparatus that supports extensions. The book then extends R’s data structures through object-oriented programming, which is the key technique for coping with complexity. The book also incorporates a new structure for interfaces applicable to a variety of languages.  A reflection of what R is today, this guide explains how to design and organize extensions to R by correctly using objects, functions, and interfaces. It enables current and future users to add their own contributions and packages to R.},
  pagetotal = {378},
  publisher = {{CRC Press}},
  date = {2016-06-08},
  keywords = {Mathematics / Probability & Statistics / General,Business & Economics / Statistics},
  author = {Chambers, John M.},
  eprinttype = {googlebooks}
}

@article{graser_processing:_2015,
  langid = {english},
  title = {Processing: {{A Python Framework}} for the {{Seamless Integration}} of {{Geoprocessing Tools}} in {{QGIS}}},
  volume = {4},
  issn = {2220-9964},
  url = {http://www.mdpi.com/2220-9964/4/4/2219/},
  doi = {10.3390/ijgi4042219},
  shorttitle = {Processing},
  number = {4},
  journaltitle = {ISPRS International Journal of Geo-Information},
  urldate = {2017-06-12},
  date = {2015-10-22},
  pages = {2219-2245},
  author = {Graser, Anita and Olaya, Victor}
}

@article{conrad_system_2015,
  title = {System for {{Automated Geoscientific Analyses}} ({{SAGA}}) v. 2.1.4},
  volume = {8},
  issn = {1991-9603},
  url = {http://www.geosci-model-dev.net/8/1991/2015/},
  doi = {10.5194/gmd-8-1991-2015},
  abstract = {The System for Automated Geoscientific Analyses (SAGA) is an open source geographic information system (GIS), mainly licensed under the GNU General Public License. Since its first release in 2004, SAGA has rapidly developed from a specialized tool for digital terrain analysis to a comprehensive and globally established GIS platform for scientific analysis and modeling. SAGA is coded in C++ in an object oriented design and runs under several operating systems including Windows and Linux. Key functional features of the modular software architecture comprise an application programming interface for the development and implementation of new geoscientific methods, a user friendly graphical user interface with many visualization options, a command line interpreter, and interfaces to interpreted languages like R and Python. The current version 2.1.4 offers more than 600 tools, which are implemented in dynamically loadable libraries or shared objects and represent the broad scopes of SAGA in numerous fields of geoscientific endeavor and beyond. In this paper, we inform about the system's architecture, functionality, and its current state of development and implementation. Furthermore, we highlight the wide spectrum of scientific applications of SAGA in a review of published studies, with special emphasis on the core application areas digital terrain analysis, geomorphology, soil science, climatology and meteorology, as well as remote sensing.},
  number = {7},
  journaltitle = {Geosci. Model Dev.},
  shortjournal = {Geosci. Model Dev.},
  urldate = {2017-06-12},
  date = {2015-07-07},
  pages = {1991-2007},
  author = {Conrad, O. and Bechtel, B. and Bock, M. and Dietrich, H. and Fischer, E. and Gerlitz, L. and Wehberg, J. and Wichmann, V. and Böhner, J.}
}

@book{neteler_open_2008,
  langid = {english},
  location = {{New York, NY}},
  title = {Open Source {{GIS}}: A {{GRASS GIS}} Approach},
  edition = {3. ed},
  isbn = {978-0-387-35767-6 978-0-387-68574-8},
  shorttitle = {Open Source {{GIS}}},
  pagetotal = {406},
  publisher = {{Springer}},
  date = {2008},
  keywords = {Open source,Software,GIS,Analyse,Computerkartographie,GRASS,GRASS (Electronic computer system),Geoinformationssystem,Open source software,Programm,Programmierung,Raster,Vektor,Visualisierung,Geographic information systems},
  author = {Neteler, Markus and Mitasova, Helena},
  note = {OCLC: 255568974}
}

@book{wickham_advanced_2014,
  title = {Advanced {{R}}},
  url = {http://www.crcpress.com/product/isbn/9781466586963 http://adv-r.had.co.nz http://www.crcpress.com/product/isbn/9781466586963 http://adv-r.had.co.nz},
  publisher = {{CRC Press}},
  date = {2014},
  author = {Wickham, Hadley}
}

@article{muenchow_geomorphic_2012,
  langid = {english},
  title = {Geomorphic Process Rates of Landslides along a Humidity Gradient in the Tropical {{Andes}}},
  volume = {139-140},
  issn = {0169555X},
  url = {http://linkinghub.elsevier.com/retrieve/pii/S0169555X11005551},
  doi = {10.1016/j.geomorph.2011.10.029},
  journaltitle = {Geomorphology},
  urldate = {2017-06-23},
  date = {2012-02},
  pages = {271-284},
  author = {Muenchow, Jannes and Brenning, Alexander and Richter, Michael}
}

@article{ripley_spatial_2001,
  title = {Spatial {{Statistics}} in {{R}}},
  volume = {1},
  number = {2},
  journaltitle = {R News},
  date = {2001},
  pages = {14--15},
  author = {Ripley, Brian D}
}

@article{bivand_more_2001,
  title = {More on {{Spatial Data Analysis}}},
  volume = {1},
  number = {3},
  journaltitle = {R News},
  date = {2001},
  pages = {13-17},
  author = {Bivand, Roger}
}

@book{sherman_desktop_2008,
  title = {Desktop {{GIS}}: {{Mapping}} the {{Planet}} with {{Open Source Tools}}},
  publisher = {{Pragmatic Bookshelf}},
  date = {2008},
  author = {Sherman, Gary}
}

@book{baddeley_spatial_2015,
  title = {Spatial Point Patterns: Methodology and Applications with {{R}}},
  publisher = {{CRC Press}},
  date = {2015},
  author = {Baddeley, Adrian and Rubak, Ege and Turner, Rolf}
}

@inproceedings{hornik_approaches_2003,
  title = {Approaches to {{Classes}} for {{Spatial Data}} in {{R}}},
  url = {https://www.r-project.org/nosvn/conferences/DSC-2003/Proceedings/Bivand.pdf},
  booktitle = {Proceedings of {{DSC}}},
  urldate = {2017-06-27},
  date = {2003},
  author = {Bivand, Roger},
  editor = {Hornik, Kurt and Leisch, Friedrich and Zeileis, Achim}
}

@article{harris_more_2017,
  langid = {english},
  title = {More Bark than Bytes? {{Reflections}} on 21+ Years of Geocomputation},
  url = {http://journals.sagepub.com/eprint/w8cyKwmUSwrQ9KDrJABu/full},
  doi = {10.1177/2399808317710132},
  shorttitle = {More Bark than Bytes?},
  abstract = {This year marks the 21st anniversary of the International GeoComputation Conference Series. To celebrate the occasion, Environment and Planning B invited some members of the geocomputational community to reflect on its achievements, some of the unrealised potential, and to identify some of the on-going challenges.},
  journaltitle = {Environment and Planning B: Urban Analytics and City Science},
  urldate = {2017-07-10},
  date = {2017-07-10},
  author = {Harris, Richard and O’Sullivan, David and Gahegan, Mark and Charlton, Martin and Comber, Lex and Longley, Paul and Brunsdon, Chris and Malleson, Nick and Heppenstall, Alison and Singleton, Alex and Arribas-Bel, Daniel and Evans, Andy}
}

@article{bivand_using_2000,
  title = {Using the {{R}} Statistical Data Analysis Language on {{GRASS}} 5.0 {{GIS}} Database Files},
  volume = {26},
  url = {http://www.sciencedirect.com/science/article/pii/S0098300400000571},
  number = {9},
  journaltitle = {Computers \& Geosciences},
  urldate = {2017-07-11},
  date = {2000},
  pages = {1043--1052},
  author = {Bivand, Roger S.}
}

@book{lamigueiro_displaying_2014,
  title = {Displaying Time Series, Spatial, and Space-Time Data with {{R}}},
  publisher = {{CRC Press}},
  date = {2014},
  author = {Lamigueiro, Óscar Perpiñán}
}

@article{bivand_implementing_2000,
  title = {Implementing Functions for Spatial Statistical Analysis Using the Language},
  volume = {2},
  url = {http://www.springerlink.com/index/CJRPUMB78JUYH54W.pdf},
  number = {3},
  journaltitle = {Journal of Geographical Systems},
  urldate = {2017-07-12},
  date = {2000},
  pages = {307--317},
  author = {Bivand, Roger and Gebhardt, Albrecht}
}

@book{brunsdon_introduction_2015,
  langid = {english},
  location = {{Los Angeles}},
  title = {An {{Introduction}} to {{R}} for {{Spatial Analysis}} and {{Mapping}}},
  edition = {1 edition},
  isbn = {978-1-4462-7295-4},
  abstract = {"In an age of big data, data journalism and with a wealth of quantitative information around us, it is not enough for students to be taught only 100 year old statistical methods using 'out of the box' software. They need to have 21st-century analytical skills too. This is an excellent and student-friendly text from two of the world leaders in the teaching and development of spatial analysis. It shows clearly why the open source software R is not just an alternative to commercial GIS, it may actually be the better choice for mapping, analysis and for replicable research. Providing practical tips as well as fully working code, this is a practical 'how to' guide ideal for undergraduates as well as those using R for the first time. It will be required reading on my own courses." - Richard Harris, Professor of Quantitative Social Science, University of Bristol  R is a powerful open source computing tool that supports geographical analysis and mapping for the many geography and ‘non-geography’ students and researchers interested in spatial analysis and mapping.   This book provides an introduction to the use of R for spatial statistical analysis, geocomputation and the analysis of geographical information for researchers collecting and using data with location attached, largely through increased GPS functionality.   Brunsdon and Comber take readers from ‘zero to hero’ in spatial analysis and mapping through functions they have developed and compiled into R packages. This enables practical R applications in GIS, spatial analyses, spatial statistics, mapping, and web-scraping. Each chapter includes:      Example data and commands for exploring it     Scripts and coding to exemplify specific functionality     Advice for developing greater understanding - through functions such as locator(), View(), and alternative coding to achieve the same ends      Self-contained exercises for students to work through     Embedded code within the descriptive text.   ~This is a definitive 'how to' that takes students - of any discipline - from coding to actual applications and uses of R.},
  pagetotal = {360},
  publisher = {{SAGE Publications Ltd}},
  date = {2015-02-05},
  author = {Brunsdon, Chris and Comber, Lex}
}

@article{wieland_market_2017,
  title = {Market {{Area Analysis}} for {{Retail}} and {{Service Locations}} with {{MCI}}},
  volume = {9},
  url = {https://journal.r-project.org/archive/2017/RJ-2017-020/index.html},
  number = {1},
  journaltitle = {The R Journal},
  date = {2017},
  pages = {298-323},
  author = {Wieland, Thomas}
}

@book{university_sgeostat:_2016,
  title = {Sgeostat: {{An Object}}-{{Oriented Framework}} for {{Geostatistical Modeling}} in {{S}}+},
  url = {https://CRAN.R-project.org/package=sgeostat},
  date = {2016},
  author = {University, S. original by James J. Majure Iowa State and Gebhardt, R. port + extensions by Albrecht}
}

@book{hijmans_geosphere:_2016,
  title = {Geosphere: {{Spherical Trigonometry}}},
  url = {https://CRAN.R-project.org/package=geosphere},
  date = {2016},
  author = {Hijmans, Robert J.}
}

@article{calenge_package_2006,
  title = {The Package Adehabitat for the {{R}} Software: Tool for the Analysis of Space and Habitat Use by Animals},
  volume = {197},
  journaltitle = {Ecological Modelling},
  date = {2006},
  pages = {1035},
  author = {Calenge, C.}
}

@article{kahle_ggmap:_2013,
  title = {Ggmap: {{Spatial Visualization}} with Ggplot2},
  volume = {5},
  url = {http://journal.r-project.org/archive/2013-1/kahle-wickham.pdf},
  number = {1},
  journaltitle = {The R Journal},
  date = {2013},
  pages = {144--161},
  author = {Kahle, David and Wickham, Hadley}
}

@book{perpinan_rastervis_2016,
  title = {{{rasterVis}}},
  url = {http://oscarperpinan.github.io/rastervis/},
  date = {2016},
  author = {Perpiñán, Oscar and Hijmans, Robert}
}

@book{brenning_arcgis_2012,
  title = {{{ArcGIS Geoprocessing}} in {{R}} via {{Python}}},
  url = {https://CRAN.R-project.org/package=RPyGeo},
  date = {2012},
  author = {Brenning, Alexander}
}

@article{bivand_comparing_2015,
  title = {Comparing {{Implementations}} of {{Estimation Methods}} for {{Spatial Econometrics}}},
  volume = {63},
  url = {http://www.jstatsoft.org/v63/i18/},
  number = {18},
  journaltitle = {Journal of Statistical Software},
  date = {2015},
  pages = {1--36},
  author = {Bivand, Roger and Piras, Gianfranco}
}

@book{bivand_rgrass7:_2016,
  title = {Rgrass7: {{Interface Between GRASS}} 7 {{Geographical Information System}} and {{R}}},
  url = {https://CRAN.R-project.org/package=rgrass7},
  date = {2016},
  author = {Bivand, Roger}
}

@book{bivand_spgrass6:_2016,
  title = {Spgrass6: {{Interface}} between {{GRASS}} 6 and {{R}}},
  url = {http://CRAN.R-project.org/package=spgrass6},
  date = {2016},
  author = {Bivand, Roger}
}

@book{venables_modern_2002,
  location = {{New York}},
  title = {Modern {{Applied Statistics}} with {{S}}},
  edition = {Fourth},
  url = {http://www.stats.ox.ac.uk/pub/MASS4},
  publisher = {{Springer}},
  date = {2002},
  author = {Venables, W. N. and Ripley, B. D.}
}

@book{jr_geor_2016,
  title = {{{geoR}}: {{Analysis}} of {{Geostatistical Data}}},
  url = {https://CRAN.R-project.org/package=geoR},
  date = {2016},
  author = {Jr, Paulo J. Ribeiro and Diggle, Peter J.}
}

@book{rowlingson_splancs:_2017,
  title = {Splancs: {{Spatial}} and {{Space}}-{{Time Point Pattern Analysis}}},
  url = {https://CRAN.R-project.org/package=splancs},
  date = {2017},
  author = {Rowlingson, Barry and Diggle, Peter}
}

@book{akima_akima:_2016,
  title = {Akima: {{Interpolation}} of {{Irregularly}} and {{Regularly Spaced Data}}},
  url = {https://CRAN.R-project.org/package=akima},
  date = {2016},
  author = {Akima, Hiroshi and Gebhardt, Albrecht}
}

@article{rowlingson_splancs:_1993,
  title = {Splancs: {{Spatial}} Point Pattern Analysis Code in {{S}}-Plus},
  volume = {19},
  issn = {0098-3004},
  url = {http://www.sciencedirect.com/science/article/pii/009830049390099Q},
  doi = {10.1016/0098-3004(93)90099-Q},
  shorttitle = {Splancs},
  abstract = {In recent years, Geographical Information Systems have provided researchers in many fields with facilities for mapping and analyzing spatially referenced data. Commercial systems have excellent facilities for database handling and a range of spatial operations. However, none can claim to be a rich environment for statistical analysis of spatial data. We have made some powerful enhancements to the S-Plus system to produce a tool for display and analysis of spatial point pattern data. In this paper we give a brief introduction to the S-Plus system and a detailed description of the S-Plus enhancements. We then present three worked examples: two from geomorphology and one from epidemiology.},
  number = {5},
  journaltitle = {Computers \& Geosciences},
  shortjournal = {Computers \& Geosciences},
  urldate = {2017-07-20},
  date = {1993-05-01},
  pages = {627-655},
  keywords = {Epidemiology,Software,Geographical Information Systems,Spatial statistics,Geomorphology},
  author = {Rowlingson, B. S and Diggle, P. J}
}

@book{longley_geographic_2015,
  location = {{Hoboken, NJ}},
  title = {Geographic Information Science \& Systems},
  edition = {Fourth edition},
  isbn = {978-1-118-67695-0},
  abstract = {"Effective use of today's powerful GIS technology requires an understanding of the science of problem-solving that underpins it. Since the first edition published over a decade ago, this book has led the way, with its focus on the scientific principles that support GIS usage. It has also provided thorough, upto- date coverage of GIS procedures, techniques and public policy applications. This unique combination of science, technology and practical problem solving has made this book a best-seller across a broad spectrum of disciplines. This fully updated 4th edition continues to deliver on these strengths"--},
  pagetotal = {477},
  publisher = {{Wiley}},
  date = {2015},
  keywords = {Technology & Engineering / Remote Sensing & Geographic Information Systems,Geographic information systems},
  author = {Longley, Paul}
}

@book{garrard_geoprocessing_2016,
  location = {{Shelter Island, NY}},
  title = {Geoprocessing with {{Python}}},
  isbn = {978-1-61729-214-9},
  pagetotal = {342},
  publisher = {{Manning Publications}},
  date = {2016},
  keywords = {Geospatial data,Cartography,Computer programs,Data processing,Python (Computer program language)},
  author = {Garrard, Chris},
  note = {OCLC: ocn915498655}
}

@book{bivand_spdep:_2017,
  title = {Spdep: {{Spatial Dependence}}: {{Weighting Schemes}}, {{Statistics}} and {{Models}}},
  url = {https://CRAN.R-project.org/package=spdep},
  date = {2017},
  author = {Bivand, Roger}
}

@book{bivand_maptools:_2017,
  title = {Maptools: {{Tools}} for {{Reading}} and {{Handling Spatial Objects}}},
  url = {https://CRAN.R-project.org/package=maptools},
  date = {2017},
  author = {Bivand, Roger and Lewin-Koh, Nicholas}
}

@article{tobler_smooth_1979,
  langid = {english},
  title = {Smooth {{Pycnophylactic Interpolation}} for {{Geographical Regions}}},
  volume = {74},
  issn = {0162-1459, 1537-274X},
  url = {http://www.tandfonline.com/doi/abs/10.1080/01621459.1979.10481647},
  doi = {10.1080/01621459.1979.10481647},
  number = {367},
  journaltitle = {Journal of the American Statistical Association},
  urldate = {2017-08-07},
  date = {1979-09},
  pages = {519-530},
  author = {Tobler, Waldo R.}
}

@article{qiu_development_2012,
  title = {The {{Development}} of an {{Areal Interpolation ArcGIS Extension}} and a {{Comparative Study}}},
  volume = {49},
  issn = {1548-1603},
  url = {http://bellwether.metapress.com/openurl.asp?genre=article&id=doi:10.2747/1548-1603.49.5.644},
  doi = {10.2747/1548-1603.49.5.644},
  number = {5},
  journaltitle = {GIScience \& Remote Sensing},
  urldate = {2017-08-07},
  date = {2012-09-01},
  pages = {644-663},
  author = {Qiu, Fang and Zhang, Caiyun and Zhou, Yuhong}
}

@book{wood_java_2002,
  location = {{London ; New York}},
  title = {Java Programming for Spatial Sciences},
  isbn = {978-0-415-26097-8 978-0-415-26098-5},
  pagetotal = {320},
  publisher = {{Taylor \& Francis}},
  date = {2002},
  keywords = {Geographic information systems,Java (Computer program language)},
  author = {Wood, Jo}
}

@book{livingstone_geographical_1992,
  langid = {english},
  location = {{Oxford, UK ; Cambridge, USA}},
  title = {The {{Geographical Tradition}}: {{Episodes}} in the {{History}} of a {{Contested Enterprise}}},
  isbn = {978-0-631-18586-4},
  shorttitle = {The {{Geographical Tradition}}},
  abstract = {The Geographical Tradition  presents the history of an essentially contested tradition. By examining a series of key episodes in geography′s history since 1400, Livingstone argues that the messy contingencies of history are to be preferred to the manufactured idealizations of the standard chronicles. Throughout, the development of geographical thought and practice is portrayed against the background of the broader social and intellectual contexts of the times. Among the topics investigated are geography during the Age of Reconnaissance, the Scientific Revolution and The Englightenment; subsequently geography′s relationships with Darwinism, imperialism, regionalism, and quantification are elaborated.},
  pagetotal = {444},
  publisher = {{John Wiley \& Sons Ltd}},
  date = {1992-12-03},
  author = {Livingstone, David N.}
}

@book{wulf_invention_2015,
  location = {{New York}},
  title = {The Invention of Nature: {{Alexander}} von {{Humboldt}}'s New World},
  edition = {First American Edition},
  isbn = {978-0-385-35066-2 978-0-345-80629-1},
  shorttitle = {The Invention of Nature},
  pagetotal = {473},
  publisher = {{Alfred A. Knopf}},
  date = {2015},
  keywords = {Germany,Humboldt; Alexander von,Naturalists,Scientists},
  author = {Wulf, Andrea}
}

@inproceedings{rowlingson_rasp:_2003,
  title = {Rasp: {{A Package}} for {{Spatial Statistics}}},
  url = {https://www.r-project.org/conferences/DSC-2003/Proceedings/RowlingsonEtAl.pdf},
  booktitle = {Proceedings of the 3rd {{International Workshop}} on {{Distributed Statistical Computing}}},
  date = {2003},
  author = {Rowlingson, Barry and Baddeley, Adrian and Turner, Rolf and Diggle, Peter},
  editor = {Hornik, Kurt},
  editors = {Kurt Hornik and Friedrich Leisch and Achim Zeileis}
}

@book{brzustowicz_data_2017,
  langid = {english},
  location = {{Beijing Boston Farnham}},
  title = {Data Science with {{Java}}: [Practical Methods for Scientists and Engineers]},
  edition = {First edition},
  isbn = {978-1-4919-3411-1},
  shorttitle = {Data Science with {{Java}}},
  pagetotal = {220},
  publisher = {{O´Reilly}},
  date = {2017},
  keywords = {Data Mining,Java (Computer program language),Data mining Software,Datenanalyse,Java},
  author = {Brzustowicz, Michael R.},
  note = {OCLC: 993428657}
}

@article{muenchow_predictive_2013,
  langid = {english},
  title = {Predictive Mapping of Species Richness and Plant Species' Distributions of a {{Peruvian}} Fog Oasis along an Altitudinal Gradient},
  volume = {45},
  issn = {1744-7429},
  url = {http://onlinelibrary.wiley.com/doi/10.1111/btp.12049/abstract},
  doi = {10.1111/btp.12049},
  abstract = {Tropical arid to semi-arid ecosystems are nearly as diverse as more humid forests and occupy large parts of the tropics. In comparison, however, they are vastly understudied. For instance, fog precipitation alone supports a unique vegetation formation, locally termed lomas, on coastal mountains in the Peruvian desert. To effectively protect these highly endemic and threatened ecosystems, we must increase our understanding of their diversity patterns in relation to environmental factors. Consequently, we recorded all vascular species from 100 random 4~×~4~m plots on the fog-exposed southern slope of the mountain Mongón. We used topographic and remotely sensed covariates in statistical models to generate spatial predictions of alpha diversity and plant species' distribution probabilities. Altitude was the most important predictor in all models and may represent fog moisture levels. Other significant covariates in the models most likely refer also to water availability but on a finer spatial scale. Additionally, model-based clustering revealed five altitudinal vegetation zones. This study contributes to a better spatial understanding of the biodiversity and spatial arrangement of vegetation belts of the largely unknown but highly unique lomas formations. Furthermore, mapping species richness and plant species' distributions could support a long-needed lomas strategic conservation scheme.},
  number = {5},
  journaltitle = {Biotropica},
  shortjournal = {Biotropica},
  urldate = {2017-08-28},
  date = {2013-09-01},
  pages = {557-566},
  keywords = {El Niño Southern Oscillation (ENSO),La Niña,biodiversity conservation,climatic gradient,lomas,species distribution models,species richness model,tropical plant diversity},
  author = {Muenchow, Jannes and Bräuning, Achim and Rodríguez, Eric Frank and von Wehrden, Henrik},
  options = {useprefix=true}
}

@book{tomlin_geographic_1990,
  location = {{Englewood Cliffs, N.J}},
  title = {Geographic Information Systems and Cartographic Modeling},
  isbn = {978-0-13-350927-4},
  pagetotal = {249},
  publisher = {{Prentice Hall}},
  date = {1990},
  keywords = {Cartography,Data processing,Geographic information systems},
  author = {Tomlin, C. Dana}
}

@article{pebesma_measurement_2016,
  title = {Measurement {{Units}} in {{R}}},
  volume = {8},
  url = {https://journal.r-project.org/archive/2016-2/pebesma-mailund-hiebert.pdf},
  number = {2},
  journaltitle = {The R Journal},
  date = {2016-12},
  pages = {486-494},
  author = {Pebesma, Edzer and Mailund, Thomas and Hiebert, James}
}

@book{burrough_principles_2015,
  location = {{Oxford ; New York}},
  title = {Principles of Geographical Information Systems},
  edition = {Third edition},
  isbn = {978-0-19-874284-5},
  pagetotal = {330},
  publisher = {{Oxford University Press}},
  date = {2015},
  keywords = {Geographic information systems},
  author = {Burrough, P. A. and McDonnell, Rachael and Lloyd, Christopher D.},
  note = {OCLC: ocn915100245}
}

@book{liu_essential_2009,
  location = {{Chichester, West Sussex, UK ; Hoboken, NJ}},
  title = {Essential Image Processing and {{GIS}} for Remote Sensing},
  isbn = {978-0-470-51032-2 978-0-470-51031-5},
  pagetotal = {443},
  publisher = {{Wiley-Blackwell}},
  date = {2009},
  keywords = {Geographic information systems,Earth (Planet),Image processing,Remote sensing,Surface Remote sensing},
  author = {Liu, Jian-Guo and Mason, Philippa J.}
}

@article{muenchow_soil_2013,
  langid = {english},
  title = {Soil Texture and Altitude, Respectively, Largely Determine the Floristic Gradient of the Most Diverse Fog Oasis in the {{Peruvian}} Desert},
  volume = {29},
  issn = {0266-4674, 1469-7831},
  url = {http://www.journals.cambridge.org/abstract_S0266467413000436},
  doi = {10.1017/S0266467413000436},
  number = {05},
  journaltitle = {Journal of Tropical Ecology},
  urldate = {2017-09-21},
  date = {2013-09},
  pages = {427-438},
  author = {Muenchow, Jannes and Hauenstein, Simon and Bräuning, Achim and Bäumler, Rupert and Rodríguez, Eric Frank and von Wehrden, Henrik},
  options = {useprefix=true}
}

@article{muenchow_rqgis:_2017,
  title = {{{RQGIS}}: {{Integrating R}} with {{QGIS}} for Statistical Geocomputing},
  volume = {9},
  number = {2},
  journaltitle = {The R Journal},
  date = {2017},
  pages = {409-428},
  author = {Muenchow, Jannes and Schratz, Patrick and Brenning, Alexander}
}

@book{usgs_geological_2016,
  title = {U.{{S}}. {{Geological Survey}} ({{USGS}}) {{Earth Resources Observation}} and {{Science}} ({{EROS}}) {{Center}}},
  url = {http://earthexplorer.usgs.gov/},
  date = {2016},
  author = {{USGS}}
}

@inproceedings{bivand_open_2000,
  title = {Open Source Geocomputation: Using the {{R}} Data Analysis Language Integrated with {{GRASS GIS}} and {{PostgreSQL}} Data Base Systems},
  url = {http://www.geocomputation.org/2000/GC009/Gc009.htm},
  booktitle = {Proceedings of the 5th {{International Conference}} on {{GeoComputation}}},
  date = {2000},
  author = {Bivand, Roger and Neteler, Markus},
  editor = {Neteler, Markus and Bivand, Roger S.}
}

@article{tomintz_geography_2008,
  title = {The Geography of Smoking in {{Leeds}}: Estimating Individual Smoking Rates and the Implications for the Location of Stop Smoking Services},
  volume = {40},
  url = {http://onlinelibrary.wiley.com/doi/10.1111/j.1475-4762.2008.00837.x/full},
  number = {3},
  journaltitle = {Area},
  date = {2008},
  pages = {341--353},
  keywords = {microsimulation,location-allocation,health geography,geography of smoking,modelling,stop smoking services},
  author = {Tomintz, Melanie N M.N. and Clarke, Graham P and Rigby, Janette E J.E.}
}

@article{loidl_spatial_2016,
  title = {Spatial Patterns and Temporal Dynamics of Urban Bicycle Crashes—{{A}} Case Study from {{Salzburg}} ({{Austria}})},
  volume = {52},
  issn = {0966-6923},
  url = {http://www.sciencedirect.com/science/article/pii/S0966692316000302},
  doi = {10.1016/j.jtrangeo.2016.02.008},
  abstract = {Most bicycle crash analyses are designed as explanatory studies. They aim to identify contributing risk factors and calculate risk rates based on – most of the time – highly aggregated statistical data. In contrast to such explanatory study designs, the presented study follows an exploratory approach, focusing on the absolute number of crashes. The aim is to reveal and describe patterns and dynamics of urban bicycle crashes on various spatial scale levels and temporal resolutions through a multi-stage workflow. Spatial units are delineated in the network space and serve as initial units of aggregation. In order to facilitate comparisons among regions and quantify temporal dynamics, a reference value of crash frequency is simulated for each unit of the respective spatial scale level and temporal resolution. For the presented case study, over 3000 geo-coded bicycle crashes in the city of Salzburg (Austria) were analyzed. The data set covers 10years and comprises all bicycle crashes reported by the police. Distinct spatial and temporal patterns with clusters, seasonal variations, and regional particularities could be revealed. These insights are indicators for urban dynamics in the transport system and allow for further, targeted in-depth analyses and subsequent counter measures. Moreover, the results prove the applicability of the proposed multi-stage workflow and demonstrate the added value of analyses of small aggregates on various scale levels, down to single crashes, and temporal resolutions.},
  issue = {Supplement C},
  journaltitle = {Journal of Transport Geography},
  shortjournal = {Journal of Transport Geography},
  urldate = {2017-10-18},
  date = {2016-04-01},
  pages = {38-50},
  keywords = {Bicycle crashes,Exploratory analysis,Spatial and temporal dynamics},
  author = {Loidl, Martin and Traun, Christoph and Wallentin, Gudrun}
}

@article{wickham_split-apply-combine_2011,
  langid = {english},
  title = {The {{Split}}-{{Apply}}-{{Combine Strategy}} for {{Data Analysis}}},
  volume = {40},
  issn = {1548-7660},
  url = {http://www.jstatsoft.org/v40/i01/},
  doi = {10.18637/jss.v040.i01},
  number = {1},
  journaltitle = {Journal of Statistical Software},
  urldate = {2017-10-20},
  date = {2011},
  author = {Wickham, Hadley}
}

@article{pebesma_classes_2005,
  title = {Classes and Methods for Spatial Data in {{R}}},
  volume = {5},
  url = {https://CRAN.R-project.org/doc/Rnews/},
  number = {2},
  journaltitle = {R News},
  date = {2005-11},
  pages = {9--13},
  author = {Pebesma, Edzer J. and Bivand, Roger S.}
}

@online{robinson_impressive_2017,
  title = {The {{Impressive Growth}} of {{R}}},
  url = {https://stackoverflow.blog/2017/10/10/impressive-growth-r/},
  abstract = {We found in a previous post that Python has a solid claim to being the fastest-growing programming language in terms of Stack Overflow visits.},
  journaltitle = {Stack Overflow Blog},
  urldate = {2017-10-21},
  date = {2017-10-10T09:00:36-04:00},
  author = {Robinson, David}
}

@article{pebesma_r_2012,
  langid = {english},
  title = {The {{R}} Software Environment in Reproducible Geoscientific Research},
  volume = {93},
  issn = {2324-9250},
  url = {http://onlinelibrary.wiley.com/doi/10.1029/2012EO160003/abstract},
  doi = {10.1029/2012EO160003},
  abstract = {Reproducibility is an important aspect of scientific research, because the credibility of science is at stake when research is not reproducible. Like science, the development of good, reliable scientific software is a social process. A mature and growing community relies on the R software environment for carrying out geoscientific research. Here we describe why people use R and how it helps in communicating and reproducing research.},
  number = {16},
  journaltitle = {Eos, Transactions American Geophysical Union},
  shortjournal = {Eos Trans. AGU},
  urldate = {2017-10-25},
  date = {2012-04-17},
  pages = {163-163},
  keywords = {R project,reproducible research,0520 Data analysis: algorithms and implementation,0530 Data presentation and visualization,1694 Instruments and techniques,1819 Hydrology: Geographic Information Systems (GIS),1978 Software re-use},
  author = {Pebesma, Edzer and Nüst, Daniel and Bivand, Roger}
}

@book{nolan_xml_2014,
  langid = {english},
  location = {{New York, NY}},
  title = {{{XML}} and Web Technologies for Data Sciences with {{R}}},
  isbn = {978-1-4614-7900-0 978-1-4614-7899-7},
  abstract = {Web technologies are increasingly relevant to scientists working with data, for both accessing data and creating rich dynamic and interactive displays. The XML and JSON data formats are widely used in Web services, regular Web pages and JavaScript code, and visualization formats such as SVG and KML for Google Earth and Google Maps. In addition, scientists use HTTP and other network protocols to scrape data from Web pages, access REST and SOAP Web Services, and interact with NoSQL databases and text search applications. This book provides a practical hands-on introduction to these technologies, including high-level functions the authors have developed for data scientists. It describes strategies and approaches for extracting data from HTML, XML, and JSON formats and how to programmatically access data from the Web. Along with these general skills, the authors illustrate several applications that are relevant to data scientists, such as reading and writing spreadsheet documents both locally and via GoogleDocs, creating interactive and dynamic visualizations, displaying spatial-temporal displays with Google Earth, and generating code from descriptions of data structures to read and write data. These topics demonstrate the rich possibilities and opportunities to do new things with these modern technologies. The book contains many examples and case-studies that readers can use directly and adapt to their own work},
  pagetotal = {663},
  series = {Use R!},
  publisher = {{Springer}},
  date = {2014},
  author = {Nolan, Deborah and Lang, Duncan Temple},
  note = {OCLC: 841520665}
}

@book{venables_introduction_2017,
  title = {An {{Introduction}} to {{R}}. {{Notes}} on {{R}}: {{A Programming Environment}} for {{Data Analysis}} and {{Graphics}}},
  url = {http://colinfay.me/intro-to-r/},
  abstract = {An Introduction to R is based on the former ‘Notes on R’, gives an introduction to the language and how to use R for doing statistical analysis and graphics.},
  urldate = {2017-11-01},
  date = {2017},
  author = {Venables, W.N. and Smith, D.M. and R Core Team}
}

@article{huff_probabilistic_1963,
  eprinttype = {jstor},
  eprint = {3144521},
  title = {A {{Probabilistic Analysis}} of {{Shopping Center Trade Areas}}},
  volume = {39},
  issn = {0023-7639},
  doi = {10.2307/3144521},
  number = {1},
  journaltitle = {Land Economics},
  date = {1963},
  pages = {81-90},
  author = {Huff, David L.}
}

@book{rodrigue_geography_2013,
  langid = {english},
  location = {{London ; New York}},
  title = {The {{Geography}} of {{Transport Systems}}},
  edition = {3 edition},
  isbn = {978-0-415-82254-1},
  pagetotal = {432},
  publisher = {{Routledge}},
  date = {2013-06-20},
  author = {Rodrigue, Jean-Paul and Comtois, Claude and Slack, Brian}
}

@article{moreno-monroy_public_2017,
  title = {Public Transport and School Location Impacts on Educational Inequalities: {{Insights}} from {{São Paulo}}},
  issn = {0966-6923},
  url = {http://www.sciencedirect.com/science/article/pii/S0966692316303453},
  doi = {10.1016/j.jtrangeo.2017.08.012},
  shorttitle = {Public Transport and School Location Impacts on Educational Inequalities},
  abstract = {In many large Latin American urban areas such as the São Paulo Metropolitan Region (SPMR), growing social and economic inequalities are embedded through high spatial inequality in the provision of state schools and affordable public transport to these schools. This paper sheds light on the transport-education inequality nexus with reference to school accessibility by public transport in the SPMR. To assess school accessibility, we develop an accessibility index which combines information on the spatial distribution of adolescents, the location of existing schools, and the public transport provision serving the school catchment area into a single measure. The index is used to measure school accessibility locally across 633 areas within the SPMR. We use the index to simulate the impact of a policy aiming at increasing the centralisation of public secondary education provision, and find that it negatively affects public transport accessibility for students with the lowest levels of accessibility. These results illustrate how existing inequalities can be amplified by variable accessibility to schools across income groups and geographical space. The research suggests that educational inequality impacts of school agglomeration policies should be considered before centralisation takes place.},
  journaltitle = {Journal of Transport Geography},
  shortjournal = {Journal of Transport Geography},
  urldate = {2017-10-15},
  date = {2017-09-15},
  keywords = {Schools,Accessibility,Public transport,Latin America,Inequality},
  author = {Moreno-Monroy, Ana I. and Lovelace, Robin and Ramos, Frederico R.}
}

@article{savric_projection_2016,
  title = {Projection {{Wizard}} – {{An Online Map Projection Selection Tool}}},
  volume = {53},
  url = {http://dx.doi.org/10.1080/00087041.2015.1131938},
  doi = {10.1080/00087041.2015.1131938},
  number = {2},
  journaltitle = {The Cartographic Journal},
  date = {2016},
  pages = {177-185},
  author = {Šavrič, Bojan and Jenny, Bernhard and Jenny, Helen}
}

@article{lovelace_propensity_2017,
  langid = {english},
  title = {The {{Propensity}} to {{Cycle Tool}}: {{An}} Open Source Online System for Sustainable Transport Planning},
  volume = {10},
  issn = {1938-7849},
  url = {https://www.jtlu.org/index.php/jtlu/article/view/862},
  doi = {10.5198/jtlu.2016.862},
  shorttitle = {The {{Propensity}} to {{Cycle Tool}}},
  abstract = {Getting people cycling is an increasingly common objective in transport planning institutions worldwide. A growing evidence base indicates that high quality infrastructure can boost local cycling rates. Yet for infrastructure and other cycling measures to be effective, it is important to intervene in the right places, such as along ‘desire lines’ of high latent demand. This creates the need for tools and methods to help answer the question ‘where to build?’. Following a brief review of the policy and research context related to this question, this paper describes the design, features and potential applications of such a tool. The Propensity to Cycle Tool (PCT) is an online, interactive planning support system that was initially developed to explore and map cycling potential across England (see www.pct.bike). Based on origin-destination data it models cycling levels at area, desire line, route and route network levels, for current levels of cycling, and for scenario-based ‘cycling futures.’ Four scenarios are presented, including ‘Go Dutch’ and ‘Ebikes,’ which explore what would happen if English people had the same propensity to cycle as Dutch people and the potential impact of electric cycles on cycling uptake. The cost effectiveness of investment depends not only on the number of additional trips cycled, but on wider impacts such as health and carbon benefits. The PCT reports these at area, desire line, and route level for each scenario. The PCT is open source, facilitating the creation of scenarios and deployment in new contexts. We conclude that the PCT illustrates the potential of online tools to inform transport decisions and raises the wider issue of how models should be used in transport planning.},
  number = {1},
  journaltitle = {Journal of Transport and Land Use},
  urldate = {2017-06-01},
  date = {2017-01-01},
  keywords = {Planning,Cycling,modelling,Participatory},
  author = {Lovelace, Robin and Goodman, Anna and Aldred, Rachel and Berkoff, Nikolai and Abbas, Ali and Woodcock, James}
}

@incollection{jenny_guide_2017,
  title = {A Guide to Selecting Map Projections for World and Hemisphere Maps},
  booktitle = {Choosing a {{Map Projection}}},
  publisher = {{Springer}},
  date = {2017},
  pages = {213--228},
  author = {Jenny, Bernhard and Šavrič, Bojan and Arnold, Nicholas D and Marston, Brooke E and Preppernau, Charles A},
  editor = {Lapaine, Miljenko and Usery, Lynn}
}

@incollection{dillon_lomas_2003,
  location = {{Chicago}},
  title = {The {{Lomas}} Formations of Coastal {{Peru}}: {{Composition}} and Biogeographic History},
  booktitle = {El {{Niño}} in {{Peru}}: {{Biology}} and Culture over 10,000 Years},
  publisher = {{Field Museum of Natural History}},
  date = {2003},
  pages = {1-9},
  author = {Dillon, M. O. and Nakazawa, M. and Leiva, S. G.},
  editor = {Haas, J. and Dillon, M. O.}
}

@book{borcard_numerical_2011,
  location = {{New York}},
  title = {Numerical Ecology with {{R}}},
  isbn = {978-1-4419-7975-9},
  pagetotal = {306},
  series = {Use R!},
  publisher = {{Springer}},
  date = {2011},
  keywords = {R (Computer program language),Ecology,Data processing,Statistical methods},
  author = {Borcard, Daniel and Gillet, François and Legendre, Pierre},
  note = {OCLC: ocn690089213}
}

@article{goetz_evaluating_2015,
  langid = {english},
  title = {Evaluating Machine Learning and Statistical Prediction Techniques for Landslide Susceptibility Modeling},
  volume = {81},
  issn = {00983004},
  url = {http://linkinghub.elsevier.com/retrieve/pii/S0098300415000904},
  doi = {10.1016/j.cageo.2015.04.007},
  journaltitle = {Computers \& Geosciences},
  urldate = {2017-11-24},
  date = {2015-08},
  pages = {1-11},
  author = {Goetz, J.N. and Brenning, A. and Petschko, H. and Leopold, P.}
}

@inproceedings{brenning_spatial_2012,
  title = {Spatial Cross-Validation and Bootstrap for the Assessment of Prediction Rules in Remote Sensing: {{The R}} Package Sperrorest},
  isbn = {978-1-4673-1159-5 978-1-4673-1160-1 978-1-4673-1158-8},
  url = {http://ieeexplore.ieee.org/document/6352393/},
  doi = {10.1109/IGARSS.2012.6352393},
  shorttitle = {Spatial Cross-Validation and Bootstrap for the Assessment of Prediction Rules in Remote Sensing},
  publisher = {{IEEE}},
  urldate = {2017-11-24},
  date = {2012-07},
  pages = {5372-5375},
  author = {Brenning, Alexander}
}

@article{muenchow_review_2018,
  langid = {english},
  title = {A Review of Ecological Gradient Research in the {{Tropics}}: Identifying Research Gaps, Future Directions, and Conservation Priorities},
  volume = {27},
  issn = {0960-3115, 1572-9710},
  url = {http://link.springer.com/10.1007/s10531-017-1465-y},
  doi = {10.1007/s10531-017-1465-y},
  shorttitle = {A Review of Ecological Gradient Research in the {{Tropics}}},
  number = {2},
  journaltitle = {Biodiversity and Conservation},
  urldate = {2017-11-23},
  date = {2018},
  pages = {273-285},
  author = {Muenchow, Jannes and Dieker, Petra and Kluge, Jürgen and Kessler, Michael and von Wehrden, Henrik},
  options = {useprefix=true}
}

@book{maling_coordinate_1992,
  location = {{Oxford ; New York}},
  title = {Coordinate Systems and Map Projections},
  edition = {2nd ed},
  isbn = {978-0-08-037234-1},
  pagetotal = {476},
  publisher = {{Pergamon Press}},
  date = {1992},
  keywords = {Grids (Cartography),Map projection},
  author = {Maling, D. H.}
}

@article{coombes_efficient_1986,
  eprinttype = {jstor},
  eprint = {2582282?origin=crossref},
  title = {An {{Efficient Algorithm}} to {{Generate Official Statistical Reporting Areas}}: {{The Case}} of the 1984 {{Travel}}-to-{{Work Areas Revision}} in {{Britain}}},
  volume = {37},
  issn = {01605682},
  doi = {10.2307/2582282},
  shorttitle = {An {{Efficient Algorithm}} to {{Generate Official Statistical Reporting Areas}}},
  number = {10},
  journaltitle = {The Journal of the Operational Research Society},
  date = {1986-10},
  pages = {943},
  author = {Coombes, M. G. and Green, A. E. and Openshaw, S.}
}

@report{bristol_city_council_deprivation_2015,
  title = {Deprivation in {{Bristol}} 2015},
  url = {https://www.bristol.gov.uk/statistics-census-information/deprivation},
  institution = {{Bristol City Council}},
  date = {2015},
  author = {{Bristol City Council}}
}

@book{hollander_transport_2016,
  langid = {english},
  title = {Transport {{Modelling}} for a {{Complete Beginner}}},
  isbn = {978-0-9956624-1-4},
  abstract = {Finally! A book about transport modelling which doesn’t require any previous knowledge. "Transport modelling for a complete beginner" explains the basics of transport modelling in a simple language, with lots of silly drawings, and without using any mathematics. Click here to watch a 3-minute introductory video (or search for the book name on YouTube if the link doesn't show). ~ This book is aimed at transport planners, town planners, students in transport-related courses, policy advisors, economists, project managers, property developers, investors, politicians, journalists, and anyone else who wants to understand the process of making decisions on transport infrastructure. It is suitable for readers in any country.~ ~ The book is split into two parts. The first part is about the principles of transport modelling. This part talks about travel demand, transport networks, zones, trip matrices, the value of time, trip generation, mode split, destination choice, model calibration – lots of scary words that need explaining in order to understand the role of models in the assessment of transport projects. All modes of transport are covered: cars, buses, trains, trucks, taxis, walking, cycling and others. Hot air balloons may be the only transport mode that is hardly mentioned.~ ~ The second part of the book covers more strategic issues. It talks about the culture of transport modelling, including the management of transport modelling work, the way model outputs are communicated, and the professional environment where this is done. This part of the book also contains an honest discussion of common modelling practices which should be recommended and others which should not.~ ~ “Transport modelling for a complete beginner” will help you ensure that anything you do with a transport model remains fair, effective and based on real evidence.},
  pagetotal = {318},
  publisher = {{CTthink!}},
  date = {2016-12-18},
  author = {Hollander, Yaron}
}

@book{horni_multi-agent_2016,
  langid = {english},
  title = {The {{Multi}}-{{Agent Transport Simulation MATSim}}},
  isbn = {978-1-909188-77-8 978-1-909188-75-4 978-1-909188-78-5 978-1-909188-76-1},
  url = {https://www.ubiquitypress.com/site/books/10.5334/baw/},
  abstract = {The MATSim (Multi-Agent Transport Simulation) software project was started around 2006 with the goal of generating traffic and congestion patterns by following individual synthetic travelers through their daily or weekly activity programme. It has since then evolved from a collection of stand-alone C++ programs to an integrated Java-based framework which is publicly hosted, open-source available, automatically regression tested. It is currently used by about 40 groups throughout the world. This book takes stock of the current status.$<$/p$>$

The first part of the book gives an introduction to the most important concepts, with the intention of enabling a potential user to set up and run basic simulations.The second part of the book describes how the basic functionality can be extended, for example by adding schedule-based public transit, electric or autonomous cars, paratransit, or within-day replanning. For each extension, the text provides pointers to the additional documentation and to the code base. It is also discussed how people with appropriate Java programming skills can write their own extensions, and plug them into the MATSim core.$<$/p$>$

The project has started from the basic idea that traffic is a consequence of human behavior, and thus humans and their behavior should be the starting point of all modelling, and with the intuition that when simulations with 100 million particles are possible in computational physics, then behavior-oriented simulations with 10 million travelers should be possible in travel behavior research. The initial implementations thus combined concepts from computational physics and complex adaptive systems with concepts from travel behavior research. The third part of the book looks at theoretical concepts that are able to describe important aspects of the simulation system; for example, under certain conditions the code becomes a Monte Carlo engine sampling from a discrete choice model. Another important aspect is the interpretation of the MATSim score as utility in the microeconomic sense, opening up a connection to benefit cost analysis.$<$/p$>$

Finally, the book collects use cases as they have been undertaken with MATSim. All current users of MATSim were invited to submit their work, and many followed with sometimes crisp and short and sometimes longer contributions, always with pointers to additional references.$<$/p$>$

We hope that the book will become an invitation to explore, to build and to extend agent-based modeling of travel behavior from the stable and well tested core of MATSim documented here.$<$/p$>$},
  publisher = {{Ubiquity Press}},
  urldate = {2017-12-29},
  date = {2016-08-10},
  author = {Horni, Andreas and Nagel, Kai and Axhausen, Kay W.}
}

@article{jafari_investigation_2015,
  langid = {english},
  title = {Investigation of {{Centroid Connector Placement}} for {{Advanced Traffic Assignment Models}} with {{Added Network Detail}}},
  volume = {2498},
  issn = {0361-1981},
  url = {http://trrjournalonline.trb.org/doi/10.3141/2498-03},
  doi = {10.3141/2498-03},
  journaltitle = {Transportation Research Record: Journal of the Transportation Research Board},
  urldate = {2018-01-01},
  date = {2015-06},
  pages = {19-26},
  author = {Jafari, Ehsan and Gemar, Mason D. and Juri, Natalia Ruiz and Duthie, Jennifer}
}

@article{douglas_algorithms_1973,
  title = {Algorithms for the Reduction of the Number of Points Required to Represent a Digitized Line or Its Caricature},
  volume = {10},
  number = {2},
  journaltitle = {Cartographica: The International Journal for Geographic Information and Geovisualization},
  date = {1973},
  pages = {112--122},
  author = {Douglas, David H and Peucker, Thomas K}
}

@article{tallon_bristol_2007,
  langid = {english},
  title = {Bristol},
  volume = {24},
  issn = {02642751},
  url = {http://linkinghub.elsevier.com/retrieve/pii/S0264275106000874},
  doi = {10.1016/j.cities.2006.10.004},
  number = {1},
  journaltitle = {Cities},
  urldate = {2018-01-03},
  date = {2007-02},
  pages = {74-88},
  author = {Tallon, Andrew R.}
}

@article{visvalingam_line_1993,
  langid = {english},
  title = {Line Generalisation by Repeated Elimination of Points},
  volume = {30},
  issn = {0008-7041, 1743-2774},
  url = {http://www.tandfonline.com/doi/full/10.1179/000870493786962263},
  doi = {10.1179/000870493786962263},
  number = {1},
  journaltitle = {The Cartographic Journal},
  urldate = {2018-01-03},
  date = {1993-06},
  pages = {46-51},
  author = {Visvalingam, M. and Whyatt, J. D.}
}

@article{hickman_transitions_2011,
  title = {Transitions to Low Carbon Transport Futures: Strategic Conversations from {{London}} and {{Delhi}}},
  volume = {19},
  shorttitle = {Transitions to Low Carbon Transport Futures},
  number = {6},
  journaltitle = {Journal of Transport Geography},
  date = {2011},
  pages = {1553--1562},
  author = {Hickman, Robin and Ashiru, Olu and Banister, David}
}

@article{thiele_r_2014,
  title = {R {{Marries NetLogo}}: {{Introduction}} to the {{RNetLogo Package}}},
  volume = {58},
  url = {http://www.jstatsoft.org/v58/i02/paper},
  number = {2},
  journaltitle = {Journal of Statistical Software},
  date = {2014},
  pages = {1--41},
  author = {Thiele, J}
}

@online{office_for_national_statistics_workplace_2014,
  title = {Workplace {{Zones}}: {{A}} New Geography for Workplace Statistics - {{Datasets}}},
  url = {https://data.gov.uk/dataset/workplace-zones-a-new-geography-for-workplace-statistics3},
  urldate = {2018-01-13},
  date = {2014},
  author = {{Office for National Statistics}}
}

@article{coppock_history_1991,
  title = {The History of {{GIS}}},
  volume = {1},
  url = {https://www.geos.ed.ac.uk/~gisteac/ilw/generic_resources/books_and_papers/Thx1ARTICLE.pdf},
  abstract = {Coppock, J. T., and Rhind, D. W. 1991. The History of GIS. In Geographical Information Systems: Principles and Applications, vol. 1, ed. D. J. Maguire, M. F. Goodchild, and D. W. Rhind, pp. 21-43. New York: John Wiley and Sons.},
  number = {1},
  journaltitle = {Geographical Information Systems: Principles and Applications, vol. 1.},
  date = {1991},
  pages = {21--43},
  keywords = {History of GIS},
  author = {Coppock, J Terry and Rhind, David W}
}

@collection{james_introduction_2013,
  location = {{New York}},
  title = {An Introduction to Statistical Learning: With Applications in {{R}}},
  isbn = {978-1-4614-7137-0},
  shorttitle = {An Introduction to Statistical Learning},
  pagetotal = {426},
  number = {103},
  series = {Springer texts in statistics},
  publisher = {{Springer}},
  date = {2013},
  keywords = {R (Computer program language),Statistics,Mathematical models,Mathematical statistics},
  editor = {James, Gareth and Witten, Daniela and Hastie, Trevor and Tibshirani, Robert},
  note = {OCLC: ocn828488009}
}

@article{schratz_performance_nodate,
  title = {Performance Evaluation and Hyperparameter Tuning of Statistical and Machine-Learning Models Using Spatial Data},
  journaltitle = {tba},
  date = {2018},
  author = {Schratz, Patrick and Muenchow, J. and Iturritxa, Eugenia and Richter, Jakob and Brenning, A.}
}

@book{talbert_ancient_2014,
  langid = {english},
  title = {Ancient {{Perspectives}}: {{Maps}} and {{Their Place}} in {{Mesopotamia}}, {{Egypt}}, {{Greece}}, and {{Rome}}},
  isbn = {978-0-226-78940-8},
  shorttitle = {Ancient {{Perspectives}}},
  abstract = {Ancient Perspectives encompasses a vast arc of space and time—Western Asia to North Africa and Europe from the third millennium BCE to the fifth century CE—to explore mapmaking and worldviews in the ancient civilizations of Mesopotamia, Egypt, Greece, and Rome. In each society, maps served as critical economic, political, and personal tools, but there was little consistency in how and why they were made. Much like today, maps in antiquity meant very different things to different people. Ancient Perspectives presents an ambitious, fresh overview of cartography and its uses. The seven chapters range from broad-based analyses of mapping in Mesopotamia and Egypt to a close focus on Ptolemy’s ideas for drawing a world map based on the theories of his Greek predecessors at Alexandria. The remarkable accuracy of Mesopotamian city-plans is revealed, as is the creation of maps by Romans to support the proud claim that their emperor’s rule was global in its reach. By probing the instruments and techniques of both Greek and Roman surveyors, one chapter seeks to uncover how their extraordinary planning of roads, aqueducts, and tunnels was achieved. Even though none of these civilizations devised the means to measure time or distance with precision, they still conceptualized their surroundings, natural and man-made, near and far, and felt the urge to record them by inventive means that this absorbing volume reinterprets and compares.},
  pagetotal = {284},
  publisher = {{University of Chicago Press}},
  date = {2014-02-14},
  keywords = {Technology & Engineering / Cartography,History / General,Science / Earth Sciences / Geography,History / Ancient / Greece,History / Ancient / Egypt,History / Ancient / Rome,History / Asia / Central Asia},
  author = {Talbert, Richard J. A.},
  eprinttype = {googlebooks}
}

@book{murrell_r_2016,
  langid = {english},
  title = {R {{Graphics}}, {{Second Edition}}},
  isbn = {978-1-4398-3177-9},
  abstract = {Extensively updated to reflect the evolution of statistics and computing, the second edition of the bestselling R Graphics comes complete with new packages and new examples. Paul Murrell, widely known as the leading expert on R graphics, has developed an in-depth resource that helps both neophyte and seasoned users master the intricacies of R graphics. New in the Second Edition   Updated information on the core graphics engine, the traditional graphics system, the grid graphics system, and the lattice package A new chapter on the ggplot2 package New chapters on applications and extensions of R Graphics, including geographic maps, dynamic and interactive graphics, and node-and-edge graphs   Organized into five parts, R Graphics covers both "traditional" and newer, R-specific graphics systems. The book reviews the graphics facilities of the R language and describes R’s powerful grid graphics system. It then covers the graphics engine, which represents a common set of fundamental graphics facilities, and provides a series of brief overviews of the major areas of application for R graphics and the major extensions of R graphics.},
  pagetotal = {536},
  publisher = {{CRC Press}},
  date = {2016-04-19},
  keywords = {Mathematics / Probability & Statistics / General,Computers / Computer Graphics,Computers / General},
  author = {Murrell, Paul}
}

@book{zuur_mixed_2009,
  langid = {english},
  location = {{New York}},
  title = {Mixed Effects Models and Extensions in Ecology with {{R}}},
  isbn = {978-0-387-87457-9},
  url = {//www.springer.com/de/book/9780387874579},
  series = {Statistics for Biology and Health},
  publisher = {{Springer-Verlag}},
  urldate = {2018-02-07},
  date = {2009},
  author = {Zuur, Alain and Ieno, Elena N. and Walker, Neil and Saveliev, Anatoly A. and Smith, Graham M.}
}

@mvbook{zuur_beginners_2017,
  langid = {english},
  location = {{Newburgh, United Kingdom}},
  title = {Beginner's Guide to Spatial, Temporal and Spatial-Temporal Ecological Data Analysis with {{R}}-{{INLA}}},
  volume = {Volume 1: Using GLM and GLMM},
  isbn = {978-0-9571741-9-1},
  volumes = {2},
  pagetotal = {362},
  publisher = {{Highland Statistics Ltd}},
  date = {2017},
  author = {Zuur, Alain F. and Ieno, Elena N. and Saveliev, Anatoly A. and Zuur, Alain F.},
  note = {OCLC: 993615802}
}

@book{blangiardo_spatial_2015,
  langid = {english},
  location = {{Chichester, UK}},
  title = {Spatial and {{Spatio}}-Temporal {{Bayesian Models}} with {{R}}-{{INLA}}},
  isbn = {978-1-118-95020-3 978-1-118-32655-8},
  url = {http://doi.wiley.com/10.1002/9781118950203},
  shorttitle = {Spatial and {{Spatio}}-Temporal {{Bayesian Models}} with {{R}}-{{INLA}}},
  publisher = {{John Wiley \& Sons, Ltd}},
  urldate = {2018-02-07},
  date = {2015-04-17},
  author = {Blangiardo, Marta and Cameletti, Michela},
  doi = {10.1002/9781118950203}
}

@book{lovelace_spatial_2016,
  title = {Spatial Microsimulation with {{R}}},
  url = {https://spatial-microsim-book.robinlovelace.net/},
  publisher = {{CRC Press}},
  date = {2016},
  author = {Lovelace, Robin and Dumont, Morgane}
}

@book{bivand_applied_2013,
  langid = {english},
  location = {{New York}},
  title = {Applied {{Spatial Data Analysis}} with {{R}}},
  edition = {2nd ed. 2013 edition},
  isbn = {978-1-4614-7617-7},
  abstract = {Applied Spatial Data Analysis with R, second edition, is divided into two basic parts, the first presenting R packages, functions, classes and methods for handling spatial data. This part is of interest to users who need to access and visualise spatial data. Data import and export for many file formats for spatial data are covered in detail, as is the interface between R and the open source GRASS GIS and the handling of spatio-temporal data. The second part showcases more specialised kinds of spatial data analysis, including spatial point pattern analysis, interpolation and geostatistics, areal data analysis and disease mapping. The coverage of methods of spatial data analysis ranges from standard techniques to new developments, and the examples used are largely taken from the spatial statistics literature. All the examples can be run using R contributed packages available from the CRAN website, with code and additional data sets from the book's own website. Compared to the first edition, the second edition covers the more systematic approach towards handling spatial data in R, as well as a number of important and widely used CRAN packages that have appeared since the first edition.~This book will be of interest to researchers who intend to use R to handle, visualise, and analyse spatial data. It will also be of interest to spatial data analysts who do not use R, but who are interested in practical aspects of implementing software for spatial data analysis. It is a suitable companion book for introductory spatial statistics courses and for applied methods courses in a wide range of subjects using spatial data, including human and physical geography, geographical information science and geoinformatics, the environmental sciences, ecology, public health and disease control, economics, public administration and political science.~The book has a website where complete code examples, data sets, and other support material may be found: http://www.asdar-book.org.~The authors have taken part in writing and maintaining software for spatial data handling and analysis with R in concert since 2003.},
  pagetotal = {405},
  publisher = {{Springer}},
  date = {2013-06-21},
  author = {Bivand, Roger S. and Pebesma, Edzer and Gómez-Rubio, Virgilio}
}

@article{krug_clearing_2010,
  langid = {english},
  title = {Clearing of Invasive Alien Plants under Different Budget Scenarios: Using a Simulation Model to Test Efficiency},
  volume = {12},
  issn = {1387-3547, 1573-1464},
  url = {http://link.springer.com/10.1007/s10530-010-9827-3},
  doi = {10.1007/s10530-010-9827-3},
  shorttitle = {Clearing of Invasive Alien Plants under Different Budget Scenarios},
  number = {12},
  journaltitle = {Biological Invasions},
  urldate = {2018-02-13},
  date = {2010-12},
  pages = {4099-4112},
  author = {Krug, Rainer M. and Roura-Pascual, Núria and Richardson, David M.}
}

@article{bischl_mlr:_2016,
  title = {Mlr: {{Machine Learning}} in {{R}}},
  volume = {17},
  url = {http://jmlr.org/papers/v17/15-066.html},
  number = {170},
  journaltitle = {Journal of Machine Learning Research},
  date = {2016},
  pages = {1-5},
  author = {Bischl, Bernd and Lang, Michel and Kotthoff, Lars and Schiffner, Julia and Richter, Jakob and Studerus, Erich and Casalicchio, Giuseppe and Jones, Zachary M.}
}

@book{kuhn_applied_2013,
  location = {{New York}},
  title = {Applied Predictive Modeling},
  isbn = {978-1-4614-6848-6},
  pagetotal = {600},
  publisher = {{Springer}},
  date = {2013},
  keywords = {Mathematical models,Mathematical statistics,Prediction theory},
  author = {Kuhn, Max and Johnson, Kjell},
  note = {OCLC: ocn827083441}
}

@book{hunziker_velox:_2017,
  title = {Velox: {{Fast Raster Manipulation}} and {{Extraction}}},
  url = {https://CRAN.R-project.org/package=velox},
  date = {2017},
  author = {Hunziker, Philipp}
}

@article{cawley_overfitting_2010,
  title = {On Over-Fitting in Model Selection and Subsequent Selection Bias in Performance Evaluation},
  volume = {11},
  issue = {Jul},
  journaltitle = {Journal of Machine Learning Research},
  date = {2010},
  pages = {2079--2107},
  author = {Cawley, Gavin C. and Talbot, Nicola LC}
}

@article{karatzoglou_kernlab_2004,
  langid = {english},
  title = {Kernlab - {{An S4}}  {{Package}} for {{Kernel Methods}} in {{R}}},
  volume = {11},
  issn = {1548-7660},
  url = {http://www.jstatsoft.org/v11/i09/},
  doi = {10.18637/jss.v011.i09},
  number = {9},
  journaltitle = {Journal of Statistical Software},
  urldate = {2018-03-28},
  date = {2004},
  author = {Karatzoglou, Alexandros and Smola, Alex and Hornik, Kurt and Zeileis, Achim}
}

@article{lefkowitz_identification_1975,
  langid = {english},
  title = {Identification of Adenylate Cyclase-Coupled Beta-Adrenergic Receptors with Radiolabeled Beta-Adrenergic Antagonists},
  volume = {24},
  issn = {0006-2952},
  number = {18},
  journaltitle = {Biochemical Pharmacology},
  shortjournal = {Biochem. Pharmacol.},
  date = {1975-09-15},
  pages = {1651-1658},
  keywords = {Animals,Adenylyl Cyclases,Adrenergic beta-Antagonists,Alprenolol,Anura,Binding Sites,Catecholamines,Cattle,Cell Membrane,Eels,Erythrocytes,Guinea Pigs,In Vitro Techniques,Isoproterenol,Kinetics,Propranolol,Receptors; Adrenergic,Stereoisomerism,Tritium},
  author = {Lefkowitz, R. J.},
  eprinttype = {pmid},
  eprint = {11}
}

@book{hengl_practical_2007,
  langid = {english},
  location = {{Luxembourg}},
  title = {A Practical Guide to Geostatistical Mapping of Environmental Variables},
  isbn = {978-92-79-06904-8},
  abstract = {Geostatistical mapping can be defined as analytical production of maps by using field observations, auxiliary information and a computer program that calculates values at locations of interest. Today, increasingly the heart of a mapping project is, in fact, the computer program that implements some (geo)statistical algorithm to a given point data set. Purpose of this guide is to assist you in producing quality maps by using fully-operational tools, without a need for serious additional investments. It will first introduce you the to the basic principles of geostatistical mapping and regression-kriging, as the key prediction technique, then it will guide you through four software packages: ILWIS GIS, R+gstat, SAGA GIS and Google Earth, which will be used to prepare the data, run analysis and make final layouts. These materials have been used for the five-days advanced training course "Hands-on-geostatistics: merging GIS and spatial statistics", that is regularly organized by the author and collaborators. Visit the course website to obtain a copy of the datasets used in this exercise. [Résumé de l'auteur].},
  publisher = {{Publications Office}},
  date = {2007},
  author = {Hengl, Tomislav},
  note = {OCLC: 758643236}
}

@book{goovaerts_geostatistics_1997,
  location = {{New York}},
  title = {Geostatistics for Natural Resources Evaluation},
  isbn = {978-0-19-511538-3},
  pagetotal = {483},
  series = {Applied geostatistics series},
  publisher = {{Oxford University Press}},
  date = {1997},
  keywords = {Statistical methods,Geology},
  author = {Goovaerts, Pierre}
}

@book{diggle_modelbased_2007,
  title = {Model-Based Geostatistics},
  publisher = {{Springer}},
  date = {2007},
  author = {Diggle, Peter and Ribeiro, Paulo Justiniano}
}

@book{gelfand_handbook_2010,
  title = {Handbook of Spatial Statistics},
  isbn = {1-4200-7288-9},
  publisher = {{CRC press}},
  date = {2010},
  author = {Gelfand, Alan E and Diggle, Peter and Guttorp, Peter and Fuentes, Montserrat}
}

@book{baddeley_spatial_2015b,
  title = {Spatial Point Patterns: Methodology and Applications with {{R}}},
  shorttitle = {Spatial Point Patterns},
  publisher = {{CRC Press}},
  date = {2015},
  author = {Baddeley, Adrian and Rubak, Ege and Turner, Rolf}
}

@article{borland_rainbow_2007,
  title = {Rainbow Color Map (Still) Considered Harmful},
  volume = {27},
  number = {2},
  journaltitle = {IEEE computer graphics and applications},
  date = {2007},
  author = {Borland, David and Ii, Russell M Taylor},
  publisher = {{IEEE}}
}

@article{meyer_improving_2018,
  langid = {english},
  title = {Improving Performance of Spatio-Temporal Machine Learning Models Using Forward Feature Selection and Target-Oriented Validation},
  volume = {101},
  issn = {13648152},
  url = {http://linkinghub.elsevier.com/retrieve/pii/S1364815217310976},
  doi = {10.1016/j.envsoft.2017.12.001},
  journaltitle = {Environmental Modelling \& Software},
  urldate = {2018-04-18},
  date = {2018-03},
  pages = {1-9},
  author = {Meyer, Hanna and Reudenbach, Christoph and Hengl, Tomislav and Katurji, Marwan and Nauss, Thomas}
}

@article{tennekes_tmap_2018,
  title = {Tmap: {{Thematic Maps}} in {{R}}},
  volume = {84},
  issn = {1548-7660},
  url = {https://www.jstatsoft.org/v084/i06},
  doi = {10.18637/jss.v084.i06},
  abstract = {Thematic maps show spatial distributions. The theme refers to the phenomena that is shown, which is often demographical, social, cultural, or economic. The best known thematic map type is the choropleth, in which regions are colored according to the distribution of a data variable. The R package tmap offers a coherent plotting system for thematic maps that is based on the layered grammar of graphics. Thematic maps are created by stacking layers, where per layer, data can be mapped to one or more aesthetics. It is also possible to generate small multiples. Thematic maps can be further embellished by configuring the map layout and by adding map attributes, such as a scale bar and a compass. Besides plotting thematic maps on the graphics device, they can also be made interactive as an HTML widget. In addition, the R package tmaptools contains several convenient functions for reading and processing spatial data.},
  number = {6},
  journaltitle = {Journal of Statistical Software, Articles},
  date = {2018},
  pages = {1-39},
  keywords = {spatial data,R,thematic maps},
  author = {Tennekes, Martijn}
}