Publications by Ross H. Nehm
(2016). A clicker-based case study that untangles student thinking about the processes in the central dogma. CourseSource. http://doi.org/https://doi.org/10.24918/cs.2016.15
. (2016). A community of enhanced assessment facilitates reformed teaching. In American Association for the Advancement of Science. Washington, DC. Retrieved from http://www.enfusestem.org/projects/a-community-of-enhanced-assessment-facilitates-reformed-teaching/ (Original work published April 2016)
. (2018). A Faculty Professional Development Model That Improves Student Learning, Encourages Active-Learning Instructional Practices, and Works for Faculty at Multiple Institutions. Cbe—Life Sciences Education, 17, es5. http://doi.org/10.1187/cbe.17-12-0260
. (2016). An iterative approach to developing, refining and validating machine-scored constructed response assessments. In American Association for the Advancement of Science. Washington, DC. Retrieved from http://www.enfusestem.org/projects/an-iterative-approach-to-developing-refining-and-validating-machine-scored-constructed-response-assessments/ (Original work published April 2016)
. (2011). Applying Computerized-Scoring Models of Written Biological Explanations across Courses and Colleges: Prospects and Limitations. Cbe Life Sciences Education, 10, 379-393. http://doi.org/10.1187/cbe.11-08-0081
. (2013). Assessing Scientific Practices Using Machine-Learning Methods: How Closely Do They Match Clinical Interview Performance?. Journal Of Science Education And Technology. http://doi.org/DOI 10.1007/s10956-013-9461-9 (Original work published July 2013)
. (2015). Assessment item "Cover Stories", semantic similarity and successful computerized scoring of open-ended text. In NARST. (Original work published April 2015)
. (2017). Assessment of Genetics Understanding: Under What Conditions Do Situational Features Have an Impact on Measures?. Science & Education, 26, 1161–1191. http://doi.org/10.1007/s11191-017-9925-z
. (2015). Automated analysis of constructed responses: What are we modeling?. In Society for the Advancement of Biology Education Research.
. (2019). Chinese pre-service biology teachers evolutionary knowledge, reasoning patterns, and acceptance levels. International Journal Of Science Education, 41, 628–651. http://doi.org/10.1080/09500693.2019.1572936
. (2011). Comparative Efficacy of Two Computer-Assisted Scoring Tools for Evolution Assessment. In National Association of Research in Science Teaching. Orlando, FL. (Original work published April 3-6, 2011)
. (2014). Darwin's Difficulties and Students' Struggles with Trait Loss: Cognitive-Historical Parallelisms in Evolutionary Explanation. Science & Education, 23, 1051-1074. http://doi.org/10.1007/s11191-013-9626-1
. (2019). Do you see what I-SEA? A Rasch analysis of the psychometric properties of the Inventory of Student Evolution Acceptance. Science Education, 103, 287–316. http://doi.org/10.1002/sce.21494
. (2017). Does evolution acceptance differ across biological scales? A Rasch analysis of the Inventory of Student Evolution Acceptance (I-SEA). In Society for the Advacement of Biology Education Research.
. (2014). EvoGrader: An Online Formative Assessment Tool for Automatically Analyzing Students Ideas in Written Evolutionary Explanations. In SABER. (Original work published Minneapolis, MN)
. (2014). EvoGrader: an online formative assessment tool for automatically evaluating written evolutionary explanations. Evolution: Education And Outreach, 7, 15. http://doi.org/10.1186/s12052-014-0015-2 (Original work published August 2014)
. (2019). Evolution assessment: Introduction to the special issue. Evolution: Education And Outreach, 12, 7. http://doi.org/10.1186/s12052-019-0098-x
. (2017). Evolution Education in Indonesia: Pre-service Biology Teachers Evolutionary Knowledge Levels, Reasoning Models, and Acceptance Patterns. In H. Deniz & Borgerding, L. (Eds.), Evolution Education around the Globe. Springer.
. (2016). Examining Gender Differences in Written Assessment Tasks in Biology: A Case Study of Evolutionary Explanations. Cbe—Life Sciences Education, 15(Spring). Retrieved from https://www.lifescied.org/doi/pdf/10.1187/cbe.14-01-0018
. (2016). Expanding a National Network for Automated Analysis of Constructed Response Assessments to Reveal Student Thinking in STEM. In American Association for the Advancement of Science. Washington, DC: American Association for the Advancement of Science. Retrieved from http://www.enfusestem.org/projects/collaborative-research-expanding-a-national-network-for-automated-analysis-of-constructed-response-assessments-to-reveal-student-thinking-in-stem-5/ (Original work published April 2016)
. (2015). Expanding a national network for automated analysis of constructed response assessments to reveal student thinking in STEM. Computers In Education Journal, 6(1), 65-81.
. (2014). Expanding a National Network for Automated Analysis of Constructed Response Assessments to Reveal Student Thinking in STEM. In ASEE. Indianapolis, IN. Retrieved from http://www.asee.org/public/conferences/32/papers/9856/view (Original work published June 2014)
. (2015). Exploring students' evolutionary explanations across natural, sexual, and artificial selection secenarios. In NARST. (Original work published April 2015)
. (2015). Exploring the use of machine translation and machine grading of open-ended assessments in international comparison studies. In European Science Education Research Association Meeting.
. (2015). Faculty Learning Communities as a Focus for Assessment-Driven Instructional Change. In CREATE for STEM Mini Conference. East Lansing, MI.
. (2020). From substitution to redefinition: A framework of machine-learning based science assessment. Journal Of Research In Science Teaching. http://doi.org/10.1002/tea.21658 (Original work published October 2020)
. (2011). Harnessing Technology to Improve Formative Assessment of Student Conceptions in STEM: Forging a National Network. Cbe - Life Sciences Education, 10, 149-155. http://doi.org/10.1187/cbe.11-03-0019 (Original work published Summer)
. (2012). Human vs. Computer Diagnosis of Students Natural Selection. Journal Of Science Education And Technology, 21, 56-73. http://doi.org/10.1007/s10956-011-9282-7
. (2014). Investigating the Impact of Faculty Learning Communities on Biology Instructors. Society for the Advancement of Biology Education Research (SABER). Minneapolis, MN. (Original work published July 2014)
. (2017). Longitudinal Learning Dynamics and the Conceptual Restructuring of Evolutionary Understanding. In NARST.
. (2015). Measuring semantic similarity in written text: Applications to learning and assessment. In NARST. (Original work published April 2015)
. (2016). Predicting the Accuracy of Computer Scoring of Text: Probabilistic, Multi-Model, and Semantic Similarity Approaches. In NARST. Baltimore, MD. (Original work published April 2016)
. (2012). Reasoning About Natural Selection: Diagnosing Contextual Competency Using the ACORNS Instrument. American Biology Teacher, 74, 92-98. Retrieved from http://www.jstor.org/stable/10.1525/abt.2012.74.2.6 (Original work published February 2012)
. (2019). Student reasoning about matter and energy transformation across contexts: Psychometric evaluation of cognitive coherence using Rasch analysis. In Society for the Advancement of Biology Education Research. Minneapolis, MN.
. (2017). Testing the Impact of Situational Features on Measures of Biology Students Genetics Understanding. In NARST.
. (2016). The Impact of Misspelled Words on Automated Computer Scoring: A Case Study of Scientific Explanations. Journal Of Science Education And Technology, 25, 358–374. Retrieved from https://link.springer.com/article/10.1007/s10956-015-9598-9
. (2015). The Long-Term Impacts of Short-Term Professional Development: Science Teachers and Evolution. Evo Edu Outreach, 8(11). http://doi.org/10.1186/s12052-015-0040-9
. (2019). Through the Eyes of Faculty: Using Personas as a Tool for Learner-Centered Professional Development. Cbe - Life Sciences Education, 18. http://doi.org/10.1187/cbe.19-06-0114 (Original work published November 2019)
. (2012). Transforming Biology Assessment with Machine Learning: Automated Scoring of Written Evolutionary Explanations. Journal Of Science Educational Technology, 21. http://doi.org/10.1007/s10956-011-9300-9
. (2014). Using a Constructed-Response Instrument to Explore the Effects of Item Position and Item Features on the Assessment of Students Written Scientific Explanations. Research In Science Education. http://doi.org/10.1007/s11165-014-9435-9 (Original work published October-29-2014)
. (2015). Using faculty learning communities to promote the development of student-centered biology instructors. In SABER.
. (2015). Using student constructed responses to guide the development of instructional activities by cross- institutional faculty learning communities. In Gordon Research Conference on Undergraduate Biology Education Research.
. (2018). What Motivates Biology Instructors to Engage and Persist in Teaching Professional Development?. Cbe—Life Sciences Education, 16(3). http://doi.org/10.1187/cbe.16-08-0241
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