Merge pull request #4307 from openjournals/joss.05074

Merging automatically

joss.05074/10.21105.joss.05074.crossref.xml

@@ -0,0 +1,218 @@
+<?xml version="1.0" encoding="UTF-8"?>
+<doi_batch xmlns="http://www.crossref.org/schema/5.3.1"
+           xmlns:ai="http://www.crossref.org/AccessIndicators.xsd"
+           xmlns:rel="http://www.crossref.org/relations.xsd"
+           xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
+           version="5.3.1"
+           xsi:schemaLocation="http://www.crossref.org/schema/5.3.1 http://www.crossref.org/schemas/crossref5.3.1.xsd">
+  <head>
+    <doi_batch_id>20230613T142003-2c19b37f0c27300c5b154473fba879e2c7488f68</doi_batch_id>
+    <timestamp>20230613142003</timestamp>
+    <depositor>
+      <depositor_name>JOSS Admin</depositor_name>
+      <email_address>admin@theoj.org</email_address>
+    </depositor>
+    <registrant>The Open Journal</registrant>
+  </head>
+  <body>
+    <journal>
+      <journal_metadata>
+        <full_title>Journal of Open Source Software</full_title>
+        <abbrev_title>JOSS</abbrev_title>
+        <issn media_type="electronic">2475-9066</issn>
+        <doi_data>
+          <doi>10.21105/joss</doi>
+          <resource>https://joss.theoj.org/</resource>
+        </doi_data>
+      </journal_metadata>
+      <journal_issue>
+        <publication_date media_type="online">
+          <month>06</month>
+          <year>2023</year>
+        </publication_date>
+        <journal_volume>
+          <volume>8</volume>
+        </journal_volume>
+        <issue>86</issue>
+      </journal_issue>
+      <journal_article publication_type="full_text">
+        <titles>
+          <title>pycoxmunk: A python package for computing sea surface
+reflectance</title>
+        </titles>
+        <contributors>
+          <person_name sequence="first" contributor_role="author">
+            <given_name>Simon R.</given_name>
+            <surname>Proud</surname>
+            <ORCID>https://orcid.org/0000-0003-3880-6774</ORCID>
+          </person_name>
+        </contributors>
+        <publication_date>
+          <month>06</month>
+          <day>13</day>
+          <year>2023</year>
+        </publication_date>
+        <pages>
+          <first_page>5074</first_page>
+        </pages>
+        <publisher_item>
+          <identifier id_type="doi">10.21105/joss.05074</identifier>
+        </publisher_item>
+        <ai:program name="AccessIndicators">
+          <ai:license_ref applies_to="vor">http://creativecommons.org/licenses/by/4.0/</ai:license_ref>
+          <ai:license_ref applies_to="am">http://creativecommons.org/licenses/by/4.0/</ai:license_ref>
+          <ai:license_ref applies_to="tdm">http://creativecommons.org/licenses/by/4.0/</ai:license_ref>
+        </ai:program>
+        <rel:program>
+          <rel:related_item>
+            <rel:description>Software archive</rel:description>
+            <rel:inter_work_relation relationship-type="references" identifier-type="doi">10.5281/zenodo.8020079</rel:inter_work_relation>
+          </rel:related_item>
+          <rel:related_item>
+            <rel:description>GitHub review issue</rel:description>
+            <rel:inter_work_relation relationship-type="hasReview" identifier-type="uri">https://github.com/openjournals/joss-reviews/issues/5074</rel:inter_work_relation>
+          </rel:related_item>
+        </rel:program>
+        <doi_data>
+          <doi>10.21105/joss.05074</doi>
+          <resource>https://joss.theoj.org/papers/10.21105/joss.05074</resource>
+          <collection property="text-mining">
+            <item>
+              <resource mime_type="application/pdf">https://joss.theoj.org/papers/10.21105/joss.05074.pdf</resource>
+            </item>
+          </collection>
+        </doi_data>
+        <citation_list>
+          <citation key="sayer:2010">
+            <article_title>A sea surface reflectance model for (A)ATSR,
+and application to aerosol retrievals</article_title>
+            <author>Sayer</author>
+            <journal_title>Atmospheric Measurement
+Techniques</journal_title>
+            <issue>4</issue>
+            <volume>3</volume>
+            <doi>10.5194/amt-3-813-2010</doi>
+            <cYear>2010</cYear>
+            <unstructured_citation>Sayer, A., Thomas, G., &amp;
+Grainger, R. (2010). A sea surface reflectance model for (A)ATSR, and
+application to aerosol retrievals. Atmospheric Measurement Techniques,
+3(4), 813–838.
+https://doi.org/10.5194/amt-3-813-2010</unstructured_citation>
+          </citation>
+          <citation key="poulsen:2012">
+            <article_title>Cloud retrievals from satellite data using
+optimal estimation: Evaluation and application to ATSR</article_title>
+            <author>Poulsen</author>
+            <journal_title>Atmospheric Measurement
+Techniques</journal_title>
+            <issue>8</issue>
+            <volume>5</volume>
+            <doi>10.5194/amt-5-1889-2012</doi>
+            <cYear>2012</cYear>
+            <unstructured_citation>Poulsen, C., Siddans, R., Thomas, G.,
+Sayer, A., Grainger, R., Campmany, E., Dean, S., Arnold, C., &amp;
+Watts, P. (2012). Cloud retrievals from satellite data using optimal
+estimation: Evaluation and application to ATSR. Atmospheric Measurement
+Techniques, 5(8), 1889–1910.
+https://doi.org/10.5194/amt-5-1889-2012</unstructured_citation>
+          </citation>
+          <citation key="orac:2022">
+            <article_title>ORAC: Optimal retrieval of aerosol and
+cloud</article_title>
+            <author>A. C. Povey</author>
+            <journal_title>GitHub repository</journal_title>
+            <cYear>2022</cYear>
+            <unstructured_citation>A. C. Povey, S. R. P., G. McGarragh.
+(2022). ORAC: Optimal retrieval of aerosol and cloud. In GitHub
+repository. GitHub.
+https://github.com/ORAC-CC/orac</unstructured_citation>
+          </citation>
+          <citation key="cox:1954stats">
+            <article_title>Statistics of the sea surface derived from
+sun glitter</article_title>
+            <author>Cox</author>
+            <journal_title>J. mar. Res.</journal_title>
+            <volume>13</volume>
+            <cYear>1954</cYear>
+            <unstructured_citation>Cox, C. (1954). Statistics of the sea
+surface derived from sun glitter. J. Mar. Res., 13,
+198–227.</unstructured_citation>
+          </citation>
+          <citation key="cox:1954meas">
+            <article_title>Measurement of the roughness of the sea
+surface from photographs of the sun’s glitter</article_title>
+            <author>Cox</author>
+            <journal_title>Josa</journal_title>
+            <issue>11</issue>
+            <volume>44</volume>
+            <doi>10.1364/josa.44.000838</doi>
+            <cYear>1954</cYear>
+            <unstructured_citation>Cox, C., &amp; Munk, W. (1954).
+Measurement of the roughness of the sea surface from photographs of the
+sun’s glitter. Josa, 44(11), 838–850.
+https://doi.org/10.1364/josa.44.000838</unstructured_citation>
+          </citation>
+          <citation key="raspaud:2018">
+            <article_title>Pytroll: An open-source, community-driven
+python framework to process earth observation satellite
+data</article_title>
+            <author>Raspaud</author>
+            <journal_title>Bulletin of the American Meteorological
+Society</journal_title>
+            <issue>7</issue>
+            <volume>99</volume>
+            <doi>10.1175/bams-d-17-0277.1</doi>
+            <cYear>2018</cYear>
+            <unstructured_citation>Raspaud, M., Hoese, D., Dybbroe, A.,
+Lahtinen, P., Devasthale, A., Itkin, M., Hamann, U., Rasmussen, L. Ø.,
+Nielsen, E. S., Leppelt, T., &amp; others. (2018). Pytroll: An
+open-source, community-driven python framework to process earth
+observation satellite data. Bulletin of the American Meteorological
+Society, 99(7), 1329–1336.
+https://doi.org/10.1175/bams-d-17-0277.1</unstructured_citation>
+          </citation>
+          <citation key="rocklin:2015">
+            <article_title>Dask: Parallel computation with blocked
+algorithms and task scheduling</article_title>
+            <author>Rocklin</author>
+            <journal_title>Proceedings of the 14th python in science
+conference</journal_title>
+            <doi>10.25080/majora-7b98e3ed-013</doi>
+            <cYear>2015</cYear>
+            <unstructured_citation>Rocklin, M. (2015). Dask: Parallel
+computation with blocked algorithms and task scheduling. Proceedings of
+the 14th Python in Science Conference.
+https://doi.org/10.25080/majora-7b98e3ed-013</unstructured_citation>
+          </citation>
+          <citation key="zhang:2010">
+            <article_title>Evaluation of sun glint models using MODIS
+measurements</article_title>
+            <author>Zhang</author>
+            <journal_title>Journal of Quantitative Spectroscopy and
+Radiative Transfer</journal_title>
+            <issue>3</issue>
+            <volume>111</volume>
+            <doi>10.1016/j.jqsrt.2009.10.001</doi>
+            <cYear>2010</cYear>
+            <unstructured_citation>Zhang, H., &amp; Wang, M. (2010).
+Evaluation of sun glint models using MODIS measurements. Journal of
+Quantitative Spectroscopy and Radiative Transfer, 111(3), 492–506.
+https://doi.org/10.1016/j.jqsrt.2009.10.001</unstructured_citation>
+          </citation>
+          <citation key="lam2015numba">
+            <article_title>Numba: A llvm-based python jit
+compiler</article_title>
+            <author>Lam</author>
+            <journal_title>Proceedings of the second workshop on the
+LLVM compiler infrastructure in HPC</journal_title>
+            <cYear>2015</cYear>
+            <unstructured_citation>Lam, S. K., Pitrou, A., &amp;
+Seibert, S. (2015). Numba: A llvm-based python jit compiler. Proceedings
+of the Second Workshop on the LLVM Compiler Infrastructure in HPC,
+1–6.</unstructured_citation>
+          </citation>
+        </citation_list>
+      </journal_article>
+    </journal>
+  </body>
+</doi_batch>