Merge pull request #3065 from openjournals/joss.03967

Merging automatically
openjournals · Mar 16, 2022 · e065067 · e065067
2 parents 89800e9 + 90392e3
commit e065067
Show file tree

Hide file tree

Showing 3 changed files with 617 additions and 0 deletions.
diff --git a/joss.03967/10.21105.joss.03967.crossref.xml b/joss.03967/10.21105.joss.03967.crossref.xml
@@ -0,0 +1,231 @@
+<?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>20220316T190205-a32c615adf9a736a58f257d1adc27d7797a51e27</doi_batch_id>
+    <timestamp>20220316190205</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>03</month>
+          <year>2022</year>
+        </publication_date>
+        <journal_volume>
+          <volume>7</volume>
+        </journal_volume>
+        <issue>71</issue>
+      </journal_issue>
+      <journal_article publication_type="full_text">
+        <titles>
+          <title>TriP: A Python package for the kinematic modeling of
+serial-parallel hybrid robots</title>
+        </titles>
+        <contributors>
+          <person_name sequence="first" contributor_role="author">
+            <given_name>Jan</given_name>
+            <surname>Baumgärtner</surname>
+            <ORCID>https://orcid.org/0000-0002-7825-3476</ORCID>
+          </person_name>
+          <person_name sequence="additional"
+                       contributor_role="author">
+            <given_name>Torben</given_name>
+            <surname>Miller</surname>
+          </person_name>
+        </contributors>
+        <publication_date>
+          <month>03</month>
+          <day>16</day>
+          <year>2022</year>
+        </publication_date>
+        <pages>
+          <first_page>3967</first_page>
+        </pages>
+        <publisher_item>
+          <identifier id_type="doi">10.21105/joss.03967</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.6360087</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/3967</rel:inter_work_relation>
+          </rel:related_item>
+        </rel:program>
+        <doi_data>
+          <doi>10.21105/joss.03967</doi>
+          <resource>https://joss.theoj.org/papers/10.21105/joss.03967</resource>
+          <collection property="text-mining">
+            <item>
+              <resource mime_type="application/pdf">https://joss.theoj.org/papers/10.21105/joss.03967.pdf</resource>
+            </item>
+          </collection>
+        </doi_data>
+        <citation_list>
+          <citation key="Klampt">
+            <article_title>Kris’ locomotion and manipulation planning
+toolbox - Klamp’t</article_title>
+            <author>Hauser</author>
+            <cYear>2021</cYear>
+            <unstructured_citation>Hauser, K. (2021). Kris’ locomotion
+and manipulation planning toolbox - Klamp’t.
+https://github.com/krishauser/Klampt</unstructured_citation>
+          </citation>
+          <citation key="ikpy">
+            <article_title>IKPy - an inverse kinematics library aiming
+performance and modularity</article_title>
+            <author>Manceron</author>
+            <cYear>2021</cYear>
+            <unstructured_citation>Manceron, P. (2021). IKPy - an
+inverse kinematics library aiming performance and modularity.
+https://github.com/Phylliade/ikpy</unstructured_citation>
+          </citation>
+          <citation key="survey">
+            <article_title>A survey on modularity and distributivity in
+series-parallel hybrid robots</article_title>
+            <author>Kumar</author>
+            <journal_title>Mechatronics</journal_title>
+            <volume>68</volume>
+            <doi>10.1016/j.mechatronics.2020.102367</doi>
+            <cYear>2020</cYear>
+            <unstructured_citation>Kumar, S., Woehrle, H., Fernández,
+J., Mueller, A., &amp; Kirchner, F. (2020). A survey on modularity and
+distributivity in series-parallel hybrid robots. Mechatronics, 68.
+https://doi.org/10.1016/j.mechatronics.2020.102367</unstructured_citation>
+          </citation>
+          <citation key="casadi">
+            <article_title>CasADi – A software framework for nonlinear
+optimization and optimal control</article_title>
+            <author>Andersson</author>
+            <journal_title>Mathematical Programming
+Computation</journal_title>
+            <issue>1</issue>
+            <volume>11</volume>
+            <doi>10.1007/s12532-018-0139-4</doi>
+            <cYear>2019</cYear>
+            <unstructured_citation>Andersson, J. A. E., Gillis, J.,
+Horn, G., Rawlings, J. B., &amp; Diehl, M. (2019). CasADi – A software
+framework for nonlinear optimization and optimal control. Mathematical
+Programming Computation, 11(1), 1–36.
+https://doi.org/10.1007/s12532-018-0139-4</unstructured_citation>
+          </citation>
+          <citation key="berkley">
+            <article_title>Biomechanical design of the Berkeley lower
+extremity exoskeleton (BLEEX)</article_title>
+            <author>Zoss</author>
+            <journal_title>IEEE/ASME Transactions on
+Mechatronics</journal_title>
+            <volume>11</volume>
+            <doi>10.1109/TMECH.2006.871087</doi>
+            <cYear>2006</cYear>
+            <unstructured_citation>Zoss, A. B., Kazerooni, H., &amp;
+Chu, A. (2006). Biomechanical design of the Berkeley lower extremity
+exoskeleton (BLEEX). IEEE/ASME Transactions on Mechatronics, 11,
+128–138.
+https://doi.org/10.1109/TMECH.2006.871087</unstructured_citation>
+          </citation>
+          <citation key="verne">
+            <article_title>Kinematic analysis of a serial–parallel
+machine tool: The VERNE machine</article_title>
+            <author>Kanaan</author>
+            <journal_title>Mechanism and Machine Theory</journal_title>
+            <issue>2</issue>
+            <volume>44</volume>
+            <doi>10.1016/j.mechmachtheory.2008.03.002</doi>
+            <issn>0094-114X</issn>
+            <cYear>2009</cYear>
+            <unstructured_citation>Kanaan, D., Wenger, P., &amp;
+Chablat, D. (2009). Kinematic analysis of a serial–parallel machine
+tool: The VERNE machine. Mechanism and Machine Theory, 44(2), 487–498.
+https://doi.org/10.1016/j.mechmachtheory.2008.03.002</unstructured_citation>
+          </citation>
+          <citation key="PISLA">
+            <article_title>Kinematics and workspace modeling of a new
+hybrid robot used in minimally invasive surgery</article_title>
+            <author>Pisla</author>
+            <journal_title>Robotics and Computer-Integrated
+Manufacturing</journal_title>
+            <issue>2</issue>
+            <volume>29</volume>
+            <doi>10.1016/j.rcim.2012.09.016</doi>
+            <issn>0736-5845</issn>
+            <cYear>2013</cYear>
+            <unstructured_citation>Pisla, D., Szilaghyi, A., Vaida, C.,
+&amp; Plitea, N. (2013). Kinematics and workspace modeling of a new
+hybrid robot used in minimally invasive surgery. Robotics and
+Computer-Integrated Manufacturing, 29(2), 463–474.
+https://doi.org/10.1016/j.rcim.2012.09.016</unstructured_citation>
+          </citation>
+          <citation key="openrave">
+            <article_title>OpenRAVE: A planning architecture for
+autonomous robotics</article_title>
+            <author>Diankov</author>
+            <cYear>2008</cYear>
+            <unstructured_citation>Diankov, R., &amp; Kuffner, J. J.
+(2008). OpenRAVE: A planning architecture for autonomous
+robotics.</unstructured_citation>
+          </citation>
+          <citation key="matlabrobot">
+            <volume_title>Robotics, vision &amp; control: Fundamental
+algorithms in MATLAB</volume_title>
+            <author>Corke</author>
+            <cYear>2017</cYear>
+            <unstructured_citation>Corke, P. I. (2017). Robotics, vision
+&amp; control: Fundamental algorithms in MATLAB (Second).
+Springer.</unstructured_citation>
+          </citation>
+          <citation key="kumar">
+            <article_title>Modular and analytical methods for solving
+kinematics and dynamics of series-parallel hybrid robots</article_title>
+            <author>Kumar</author>
+            <cYear>2019</cYear>
+            <unstructured_citation>Kumar, S. (2019). Modular and
+analytical methods for solving kinematics and dynamics of
+series-parallel hybrid robots [PhD thesis]. Universität
+Bremen.</unstructured_citation>
+          </citation>
+          <citation key="moveit">
+            <article_title>Moveit! [ROS topics]</article_title>
+            <author>Chitta</author>
+            <journal_title>IEEE Robotics &amp; Automation
+Magazine</journal_title>
+            <issue>1</issue>
+            <volume>19</volume>
+            <doi>10.1109/MRA.2011.2181749</doi>
+            <cYear>2012</cYear>
+            <unstructured_citation>Chitta, S., Sucan, I., &amp; Cousins,
+S. (2012). Moveit! [ROS topics]. IEEE Robotics &amp; Automation
+Magazine, 19(1), 18–19.
+https://doi.org/10.1109/MRA.2011.2181749</unstructured_citation>
+          </citation>
+        </citation_list>
+      </journal_article>
+    </journal>
+  </body>
+</doi_batch>