<?xml version="1.0" encoding="utf-8" ?><rss version="2.0" xmlns:atom="http://www.w3.org/2005/Atom" xmlns:r="https://r-universe.dev"><channel><title>cityriverspaces.r-universe.dev</title><link>https://cityriverspaces.r-universe.dev</link><description>Recent package updates in cityriverspaces</description><generator>R-universe</generator><image><url>https://github.com/cityriverspaces.png</url><title>R packages by cityriverspaces</title><link>https://cityriverspaces.r-universe.dev</link></image><lastBuildDate>Tue, 30 Jun 2026 21:53:51 GMT</lastBuildDate><item><title>[cityriverspaces] rcrisp 0.3.1</title><author>c.forgaci@tudelft.nl (Claudiu Forgaci)</author><description>Provides tools to automate the morphological delineation
of riverside urban areas based on a method introduced in
Forgaci (2018) &lt;doi:10.7480/abe.2018.31&gt;. Delineation entails
the identification of corridor boundaries, segmentation of the
corridor, and delineation of the river space using
two-dimensional spatial information from street network data
and digital elevation data in a projected CRS. The resulting
delineation can be used to characterise spatial phenomena that
can be related to the river as a central element.</description><link>https://github.com/r-universe/cityriverspaces/actions/runs/28478922836</link><pubDate>Tue, 30 Jun 2026 21:53:51 GMT</pubDate><r:package>rcrisp</r:package><r:version>0.3.1</r:version><r:status>success</r:status><r:repository>https://cityriverspaces.r-universe.dev</r:repository><r:upstream>https://github.com/cityriverspaces/rcrisp</r:upstream><r:article><r:source>vig_01-method.Rmd</r:source><r:filename>vig_01-method.html</r:filename><r:title>The method of delineation </r:title><r:created>2025-07-04 16:49:38</r:created><r:modified>2026-05-20 09:15:51</r:modified></r:article><r:article><r:source>vig_02-getting-osm-data.Rmd</r:source><r:filename>vig_02-getting-osm-data.html</r:filename><r:title>Getting OSM data for delineation </r:title><r:created>2025-07-04 16:49:38</r:created><r:modified>2026-06-17 07:14:01</r:modified></r:article><r:article><r:source>vig_03-network-preparation.Rmd</r:source><r:filename>vig_03-network-preparation.html</r:filename><r:title>Preparing the network for delineation </r:title><r:created>2025-07-04 16:49:38</r:created><r:modified>2026-05-20 09:15:51</r:modified></r:article><r:article><r:source>vig_04-valley-delineation.Rmd</r:source><r:filename>vig_04-valley-delineation.html</r:filename><r:title>Valley delineation </r:title><r:created>2025-07-04 16:49:38</r:created><r:modified>2026-05-20 09:15:51</r:modified></r:article><r:article><r:source>vig_05-corridor-delineation.Rmd</r:source><r:filename>vig_05-corridor-delineation.html</r:filename><r:title>Corridor delineation </r:title><r:created>2025-07-04 16:49:38</r:created><r:modified>2025-11-24 13:07:59</r:modified></r:article><r:article><r:source>vig_06-corridor-segmentation.Rmd</r:source><r:filename>vig_06-corridor-segmentation.html</r:filename><r:title>Corridor segmentation </r:title><r:created>2025-07-04 16:49:38</r:created><r:modified>2026-05-20 09:15:51</r:modified></r:article><r:article><r:source>vig_07-riverspace-delineation.Rmd</r:source><r:filename>vig_07-riverspace-delineation.html</r:filename><r:title>Riverspace delineation </r:title><r:created>2025-07-04 16:49:38</r:created><r:modified>2026-06-23 20:19:26</r:modified></r:article><r:article><r:source>vig_08-benchmark.Rmd</r:source><r:filename>vig_08-benchmark.html</r:filename><r:title>Benchmarking across city-river cases </r:title><r:created>2026-06-30 19:26:58</r:created><r:modified>2026-06-30 19:26:58</r:modified></r:article><r:article><r:source>getting-started.Rmd</r:source><r:filename>getting-started.html</r:filename><r:title>Getting started with rcrisp</r:title><r:created>2025-09-08 21:04:17</r:created><r:modified>2025-11-24 13:07:59</r:modified></r:article></item><item><title>[cityriverspaces] visor 0.1.1</title><author>c.forgaci@tudelft.nl (Claudiu Forgaci)</author><description>Provides tools for visibility analysis in geospatial data.
It offers functionality to perform isovist calculations, using
arbitrary geometries as both viewpoints and occluders.</description><link>https://github.com/r-universe/cityriverspaces/actions/runs/28575038763</link><pubDate>Thu, 04 Dec 2025 21:37:17 GMT</pubDate><r:package>visor</r:package><r:version>0.1.1</r:version><r:status>success</r:status><r:repository>https://cityriverspaces.r-universe.dev</r:repository><r:upstream>https://github.com/cityriverspaces/visor</r:upstream><r:article><r:source>isovist.Rmd</r:source><r:filename>isovist.html</r:filename><r:title>Isovist analysis</r:title><r:created>2025-01-14 20:31:53</r:created><r:modified>2025-04-03 18:55:35</r:modified></r:article></item><item><title>[cityriverspaces] rcoins 0.4.0</title><author>f.nattino@esciencecenter.nl (Francesco Nattino)</author><description>Provides functionality to group lines that form naturally
continuous lines in a spatial network. The algorithm
implemented is based on the Continuity in Street Networks
(COINS) method from Tripathy et al. (2021)
&lt;doi:10.1177/2399808320967680&gt;, which identifies continuous
&quot;strokes&quot; in the network as the line strings that maximize the
angles between consecutive segments.</description><link>https://github.com/r-universe/cityriverspaces/actions/runs/27754375418</link><pubDate>Wed, 20 Aug 2025 14:12:51 GMT</pubDate><r:package>rcoins</r:package><r:version>0.4.0</r:version><r:status>success</r:status><r:repository>https://cityriverspaces.r-universe.dev</r:repository><r:upstream>https://github.com/cityriverspaces/rcoins</r:upstream><r:article><r:source>using-rcoins.Rmd</r:source><r:filename>using-rcoins.html</r:filename><r:title>Tracing continuous streets using rcoins</r:title><r:created>2024-12-16 15:27:49</r:created><r:modified>2025-08-20 10:42:40</r:modified></r:article></item></channel></rss>