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1. 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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2. Bringing LuminAI to Life: Studying Dancers’ Perceptions of a Co-Creative AI in Dance Improvisation Class

   https://doi.org/10.1145/3698061.3726925  

   Kaur, Jasmine; Trajkova, Milka; Knowlton, Andrea; Magerko, Brian (June 2025, ACM)

   Not AvailableThe intersection of dance and artificial intelligence presents fertile ground for exploring human-machine interaction, co-creation, and embodied expression. This paper reports on a seven month four-phase collaboration with fifteen dancers from a university dance department, encompassing a preliminary study, redesign of LuminAI-a co-creative AI dance partner-, a contextual diary study, and a culminating public performance. Thematic analysis of responses revealed LuminAI’s impact on dancers’ perceptions, improvisational practices, and creative exploration. By blending human and AI interactions, LuminAI influenced dancers’ practices by pushing them to explore the unexpected, fostering deeper self-awareness, and enabling novel choreographic pathways. The experience reshaped their creative sub processes, enhancing their spatial awareness, movement vocabulary, and openness to experimentation. Our contributions underscore the potential of AI to not only augment dancers’ immediate improvisational capabilities but also to catalyze broader transformations in their creative processes, paving the way for future systems that inspire and amplify human creativity. 

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3. Towards Expansive and Equitable Modeling: Syncretic Modeling through the Lenses of Dance, Science, and computation

   Vogelstein, L; Wagh, A; Champion, D (June 2025, International Society of the Learning Sciences)

   Modeling is a cornerstone of professional scientific practice, however, there aren’t enough opportunities for youth to leverage their own perspectives when engaging in modeling inquiry. This paper describes three design dimensions—interdisciplinarity, intermodality, & intergenerationality--of a 2-week long summer camp that leveraged theories of syncretism to integrate dance, science and computing in order to support youth contributions in modeling practices. The camp engaged 12 middle school youth, 2 scientists and 3 choreographers in adopting a complex systems lens and engaging in collaborative inquiry around the scientists’ research systems using choreographic and digital NetLogo modeling. Using discourse, video stills, and narrative description of a group that modeled spinal cord injuries, we show how these three dimensions disrupted barriers between disciplines (science & dance), modes of sense- making (movement & computation), and inequitable power dynamics (youth and adults). In the discussion, we draw out contributions to the literature particularly on scientific modeling. 

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4. Chiral edge waves in a dance-based human topological insulator

   https://doi.org/10.1126/sciadv.adh7810  

   Du, Matthew; Pérez-Sánchez, Juan B; Campos-Gonzalez-Angulo, Jorge A; Koner, Arghadip; Mellini, Federico; Pannir-Sivajothi, Sindhana; Poh, Yong Rui; Schwennicke, Kai; Sun, Kunyang; van_den_Wildenberg, Stephan; et al (August 2024, Science Advances)

   Topological insulators are insulators in the bulk but feature chiral energy propagation along the boundary. This property is topological in nature and therefore robust to disorder. Originally discovered in electronic materials, topologically protected boundary transport has since been observed in many other physical systems. Thus, it is natural to ask whether this phenomenon finds relevance in a broader context. We choreograph a dance in which a group of humans, arranged on a square grid, behave as a topological insulator. The dance features unidirectional flow of movement through dancers on the lattice edge. This effect persists when people are removed from the dance floor. Our work extends the applicability of wave physics to dance. 

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5. 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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