SCiP Awards
Castellan Prize
SCiP’s primary annual award is the The John Castellan Student Paper Award for the most outstanding student paper. Student papers on the application of computational or computerized methods to any area of psychology (theoretical, experimental, applied) are welcome. Eligibility is open to work done by a student currently enrolled in undergraduate or graduate courses, or work done as part of a course, thesis, or other student research by a person who graduated within the past year. The student must be the primary author and the presenter of the paper to be considered. The award is presented at the conference.
History of Winners
Year | Name | University | Paper Title |
|---|---|---|---|
2023 | John Hollander | University of Memphis | The spatial role of verbs in embodied language processing |
2022 | Molly Apsel | Indiana University - Bloomington | forager: A Python Framework for Modeling Mental Search |
2021 | No Award | ||
2020 | Moein Razavi | Texas A&M University | Multimodal-Multisensory Experiments: Design and Implementation |
2019 | Henry Dong | University of California, Berkeley | |
2018 | Mitchell Dandignac | Miami University | Writing for Coh-Metrix: A systematic approach to revising texts to foster gist inferences |
2017 | Matt Cook | University of Manitoba | A computational cognitively-inspired technology for clinical diagnosis |
2016 | Pascal Kieslich | University of Mannheim | Mousetrap: An integrated, open-source mouse-tracking package |
2015 | Felix Henninger | University of Koblenz-Landau, Max Planck Institute for Research on Collective Goods, University of Mannheim | A flexible, cross-platform, open framework for interactive experiments |
2014 | Erica Snow | Arizona State University | Does agency matter? Path analysis within a game-based system |
2013 | Haiying Li | University of Memphis | A comparative study on measures of text formality |
2012 | Alexandra Paxton | University of California - Merced | Linguistic alignment in debate |
2011 | Brent Kievit-Kylar | Indiana University | Word2Word: A visualization tool for high-dimensional semantic data |
2010 | Jun Xie | University of Memphis | Analyzing Directed Data by using MPT Models of Source Monitoring |
2009 | Brendan Johns | Indiana University | Using automated semantic measures to test the assumptions of memory models: Do random representations reflect the organization of semantic memory? |
2008 | Gabriel Recchia | Indiana University | More data trumps smarter algorithms: Training computational models of semantics on very large corpora |
2007 | Richard Landers | University of Minnesota | TREND: A tool for rapid online research literature analysis and quantification |
2006 | Jessica Ray | University of Central Florida | Train-to-code: An adaptive expert system for training systematic observation and coding skills |
2005 | Cyrus Shaoul | University of Alberta | Toward a more psychologically relevant high-dimensional model of lexical semantics |
2004 | Christopher Myers | The Air Force Research Laboratory's Human Effectiveness Directorate | Computational cognitive modeling of adaptive choice behavior in a dynamic decision paradigm |
2003 | Michael Jones | Queen's University | Tracking attention with the focus-window technique: The information filter must be calibrated |
2002 | Andrew Edmonds | Clemson University | Uzilla: A new tool for web usability testing |
2001 | Matthew Pastizzo | State University of New York | Multi-dimensional data visualization |
2000 | Wai-Tat Fu | George Mason University | ACT-PRO action protocol analyzer: A tool for analyzing discrete action protocols |
1999 | Patrick Conley | University of California - Riverside | A computational approach to modeling population differences |
1998 | Ricard Downing | University of Missouri | The missouri developmental disability resource center: A web site responding to a critical need for information of parents with a child with a disability |
1997 | Katja Wiemer-Hastings | University of Memphis | Abstract noun classification: using a neural network to match word context and word meaning |
1994 | Ed Colet | New York University | Visualization of multivariate data: Human factors considerations |
1991 | Hilary Broadbent | Brown University | Analysis of periodic data using walsh functions |
1987 | Steven Greene | Yale University and Northwestern University | A flexible programming language for generating stimulus lists for cognitive psychology experiments |
1984 | Michael Granaas | University of Kansas | Simple, applied text parsing |
1983 | Timothy Post | University of Pittsburgh | |
1982 | Winford A Gordon | University of North Carolina | |
1980 | Mark Alan Johnson | Washington University | |
1977 | Timothy Post | Syracuse University | Software control of reaction time studies |
FABBS Early Career Impact Award
The Federation of Associations in Behavioral & Brain Sciences (FABBS) represents a coalition of scientific societies with a common goal of advancing our understanding of mind, brain and behavior. SCiP has been a member society of FABBS for several years. FABBS educates federal representatives and Congress on sciences of the mind, advocates for legislation and policy that enhance scientific training and research, and more. Because we are a FABBS society, members of SCiP get free access to Policy Insights from the Behavioral and Brain Sciences (PIBBS).
FABBS organizes the Early Career Impact Award, and each of its member societies, every few years, chooses a recipient whose research has already made a big impact at an early stage of professional development.
2021: Dr. Brendan Johns, McGill University
Dr. Brendan Johns is an Assistant Professor in the Department of Psychology at McGill University. The goal of his research is to redefine the field of computational cognitive science through trailblazing cognitive model development grounded in machine learning and big data methodologies. Dr. Johns’ research capitalizes on today’s incredible technology to collect human behavior at scale. The range and types of data that can now be assembled is unprecedented, from controlled crowdsourcing to data mining social media. Big data analytics and machine learning offers new opportunities to provide insights across psychology, and the research undertaken by Dr. Johns is an example of the power and promise of this research area.
Dr. Johns conducts cutting-edge theoretical and applied research. The goal of the theoretical research prong is to understand the statistical underpinnings of the natural language environment and to determine how humans learn from this information. The applied research prong uses the resulting knowledge-based intelligence systems to generate cognitive technologies that can be widely deployed, such as the development of new automated clinical and educational computational tools. The ultimate aim of his research is to understand the computational underpinnings of human cognition and to use this knowledge to integrate cognitive computations into disruptive technology development.
This research has resulted in 47 published articles, many in top journals in his field, including Psychological Review, Cognitive Psychology, Psychonomic Bulletin & Review, and Behavior Research Methods, among others. His research is funded from a 5-year Discovery Grant from the Natural Sciences and Engineering Research Council of Canada, among other funding sources. Dr. Johns received numerous research awards during his time as a graduate student, such as the Marr prize from the Cognitive Science Society for best student paper. After receiving his Ph.D. he continued receiving research awards, as he won the article of the year award in the Canadian Journal of Experimental Psychology in 2015 from the the Canadian Psychological association, as well as a member-select speaker award from the Psychonomic Society in 2017.
Dr. Johns has also provided service to his field. He is currently an associate editor for the journal Behavior Research Methods and is on the editorial board at Canadian Journal of Experimental Psychology. He is currently on the steering committee of the Society for Computation in Psychology and was also a previous member from 2016-2019.
Update: Dr. Johns also won the Early Career Award from the Psychonomic Society!
2019: Dr. Laura Allen, University of New Hampshire
A prominent aim of Dr. Allen’s research is to investigate the higher-level cognitive skills that are required for successful text comprehension and production, as well as the ways in which performance in these domains can be enhanced through strategy instruction and training. She has conducted a number of studies to understand how individual differences in cognitive skills and knowledge relate to performance on reading comprehension and writing assessments. This research has revealed a number of characteristics of successful readers and writers, such as their ability to generate inferences, their knowledge of vocabulary, and their ability to flexibly adapt their language across multiple tasks. Dr. Allen has drawn upon the findings from these studies to examine the impact of manipulating task instructions on task performance and to explore how educational technologies can be leveraged to facilitate learning. Laura has published approximately 80 peer reviewed publications, including 29 as first author, since 2013 – a short and impressively productive career to date!
Dr. Allen additionally received (as Co-PI) two four-year grants from the Institute of Education Sciences (IES) totaling approximately $1.4 million each. The purpose of these grants is to investigate how students process complex information in todays technology-driven society and to develop educational tools that provide students, teachers, and researchers with writing analytics and feedback.
2016: Dr. Rick Dale, UCLA
Dr. Rick Dale is an internationally recognized authority on experimental and computational analyses of language, human interaction, language evolution, cognitive dynamics, and big data. He uses computational modeling, analysis of naturalistic behavior, and human experimentation to investigate a range of linguistic behaviors related to conversation, thinking, sentence processing, word categorization, and deception.
Dr. Dale is particularly well known for inventing technologies to measure subtle supportive nonlinguistic gestures that people make during conversation (e.g., eye and arm movements) and for his sophisticated application of numeric methods including dynamical systems theory to make sense of how those gestures impact and influence peoples’ comprehension and interaction. He is also known for his efforts to step outside of a limited analysis of linguistic behavior to build a comprehensive analysis of how people use and understand language in naturalistic settings and without the imposition of too-artificial constraints.
2012: Dr. Michael Jones, Indiana University
Michael Jones’ research focuses on language learning, comprehension, and knowledge representation in humans and machines. Jones combines computational and experimental techniques to examine large-scale statistical structure of certain environments with the goal of understanding how this structure could be learned and represented with the mathematical capabilities of human learning and memory. Jones also studies associative and recognition memory, categorization, decision-making, and the role of attention in reading and perception. He is particularly interested in the temporal dynamics of learning in all these domains, and how to model the time course of knowledge acquisition. His secondary interests involve the application of these models to practical problems in text mining, intelligent search algorithms, and automated comprehension and scoring algorithms.
The National Science Foundation additionally awarded Jones a CAREER grant to investigate computational mechanisms for integrating linguistic and perceptual information in semantic representation. This project includes a very large scale “Semantic Pictionary” crowdsourcing project that includes several online games aimed at collecting massive amounts of perceptual data describing tens of thousands of words and explores mechanisms humans use to integrate the perceptual and linguistic information into a unified and embodied semantic representation.
