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1. danceON: Culturally Responsive Creative Computing

   https://doi.org/10.1145/3411764.3445149  

   Payne, William Christopher; Bergner, Yoav; West, Mary Etta; Charp, Carlie; Shapiro, R. Benjamin; Szafir, Danielle Albers; Taylor, Edd V.; DesPortes, Kayla (May 2021, CHI '21: Proceedings of the 2021 CHI Conference on Human Factors in Computing Systems)

   null (Ed.)

   Dance provides unique opportunities for embodied interdisciplinary learning experiences that can be personally and culturally relevant. danceON is a system that supports learners to leverage their body movement as they engage in artistic practices across data science, computing, and dance. The technology includes a Domain Specific Language (DSL) with declarative syntax and reactive behavior, a media player with pose detection and classification, and a web-based IDE. danceON provides a low-floor allowing users to bind virtual shapes to body positions in under three lines of code, while also enabling complex, dynamic animations that users can design working with conditionals and past position data. We developed danceON to support distance learning and deployed it in two consecutive cohorts of a remote, two-week summer camp for young women of color. We present our findings from an analysis of the experience and the resulting computational performances. The work identifies implications for how design can support learners’ expression across culturally relevant themes and examines challenges from the lens of usability of the computing language and technology. 

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2. Embodying STEM: Learning at the intersection of Dance & STEM

   Solomon, F. (July 2021, International Conference of the Learning Sciences)

   de Vries, E. (Ed.)

   This symposium addresses dance as a site for STEM learning. We present papers from five research projects that each sought to engage youth in embodied STEM learning using dance, exploring the power of creative embodied experiences and the body’s potential as an expressive tool and resource for learning. We show how dance activities expanded access to STEM and supported sense-making; how dancer and dance-making practices were leveraged to support computational thinking, modeling, and inquiry; and how moving bodies in creative ways helped to generate new insights by allowing for new perspectives. Across our work, we seek to understand the multiple, rich learning opportunities that emerge from working across the arts and sciences, dance and STEM. Together our research shows that attending to opportunities for STEM engagement and learning through dance practices can broaden access to learning and engagement in STEM for all. 

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3. Evaluating Audience Engagement of an Immersive Performance on a Virtual Stage

   Kraj, Victoria J.; Maranzatto, Thomas; Geigel, Joe; Bailey, Reynold; Ovesdotter Alm, Cecillia (January 2020, Frameless Labs Symposium)

   In this paper, we describe a methodology for determining audience engagement designed specifically for stage performances in a virtual space. We use a combination of galvanic skin response data (GSR), self-reported emotional feedback using the positive and negative affect schedule (PANAS), and a think aloud methodology to assess user reaction to the virtual reality experience. We describe a case study that uses the process to explore the role of immersive viewing of a performance by comparing users’ engagement while watching a virtual dance performances on a monitor vs. using an immersive head mounted display (HMD). Results from the study indicate significant differences between the viewing experiences. The process can serve as a potential tool in the development of a VR storytelling experience. 

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4. DanceBits 'It tells you to see us': Supporting Dance Practices with an Educational Computing Kit

   https://doi.org/10.1145/3623509.3633350  

   DesPortes, Kayla; McDermott, Kathleen; Bergner, Yoav; Castro, Francisco Enrique; Musharrat, Sauda; Lunia, Aakruti (February 2024, International Conference on Tangible, Embedded, and Embodied Interaction)

   Wearable electronics expand the ways learners can create with computing as they gain proficiency with programming and electronics. Dance is one domain where wearables can support creative, embodied practices in computing education. However, wearable electronics need to be small, durable, and easily integrated into clothing to meet the constraints of dance contexts. These features are challenging to achieve, especially when working with novices. We present DanceBits, a wearable prototyping kit for dance that was co-developed with a justice-oriented, computing and dance education organization. DanceBits’ plug-and-play system uses small PCBs with solderless connectors to support dancers in rapidly designing, building, and performing with electronic costumes. Our user studies exploring the system with dance instructors and youth participants show that DanceBits enabled fast development of wearables, offered users a breadth of expressivity through computational and choreographic choices, and empowered dancers to see wearables as a tool for developing their movement practices. 

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5. “If it didn’t happen, why would I change my decision?”: How Judges Respond to Counterfactual Explanations for the Public Safety Assessment

   https://doi.org/10.1609/hcomp.v10i1.22001  

   Yacoby, Yaniv; Green, Ben; Griffin Jr., Christopher L.; Doshi-Velez, Finale (October 2022, Proceedings of the AAAI Conference on Human Computation and Crowdsourcing)

   Many researchers and policymakers have expressed excitement about algorithmic explanations enabling more fair and responsible decision-making. However, recent experimental studies have found that explanations do not always improve human use of algorithmic advice. In this study, we shed light on how people interpret and respond to counterfactual explanations (CFEs)---explanations that show how a model's output would change with marginal changes to its input(s)---in the context of pretrial risk assessment instruments (PRAIs). We ran think-aloud trials with eight sitting U.S. state court judges, providing them with recommendations from a PRAI that includes CFEs. We found that the CFEs did not alter the judges' decisions. At first, judges misinterpreted the counterfactuals as real---rather than hypothetical---changes to defendants. Once judges understood what the counterfactuals meant, they ignored them, stating their role is only to make decisions regarding the actual defendant in question. The judges also expressed a mix of reasons for ignoring or following the advice of the PRAI without CFEs. These results add to the literature detailing the unexpected ways in which people respond to algorithms and explanations.They also highlight new challenges associated with improving human-algorithm collaborations through explanations. 

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