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- Member of: James Turrell’s Roden Crater Student Projects
- Member of: Metis Center for Infrastructure and Sustainable Engineering
Spring 2019 Course: Art and Sensory Acuity (taught by Christine Lee)
For the course Art and Sensory Acuity, we looked at how our perception and ability to experience a range of sensation can inform the creation of artistic and design based work. We explored perception through the lens of artist James Turrell’s Roden Crater, under which specific materials, environment, and conditions present, shaped our sensory experience. Concurrently we expanded our sensory acuity through engagement with guest speakers ASU Assoc. Professor Patrick Young and Assist. Professor Christy Spackman, Ed Krupp Director of Griffith Observatory, and writer Lawrence Weschler, to develop a deeper sensibility across media, time and space. The resulting sculptural forms/prototypes, performance, and installations were designed and constructed in response to the collective experience.
Mixed media.
Spring 2019 Course: Indigenous Stories and Sky Science (taught by Wanda Dalla Costa)
Roden Crater is situated in the territorial homelands of at least eight Arizona tribes. To honor local history and the continued practice of Indigenous sky science in the southwest, the field lab Indigenous Stories and Sky Science will view the Crater through the lens of Indigeneity. The students, who went on a five-day journey to Navajo Nation and the Hopi Tribe, meeting locals, interacting with place and touring sites of sky observation, shared their experience using the four knowledges of community resilience: empirical, traditional, revealed and contemporary (From Johnson, et al. (2015). Weaving Indigenous and sustainability sciences to diversify our methods).
Mixed media.
Spring 2019 Course: Indigenous Stories and Sky Science (taught by Wanda Dalla Costa)
Roden Crater is situated in the territorial homelands of at least eight Arizona tribes. To honor local history and the continued practice of Indigenous sky science in the southwest, the field lab Indigenous Stories and Sky Science will view the Crater through the lens of Indigeneity. The students, who went on a five-day journey to Navajo Nation and the Hopi Tribe, meeting locals, interacting with place and touring sites of sky observation, shared their experience using the four knowledges of community resilience: empirical, traditional, revealed and contemporary (From Johnson, et al. (2015). Weaving Indigenous and sustainability sciences to diversify our methods).
Collected fallen palo verde blossoms.
Spring 2019 Course: Art and Sensory Acuity (taught by Christine Lee)
For the course Art and Sensory Acuity, we looked at how our perception and ability to experience a range of sensation can inform the creation of artistic and design based work. We explored perception through the lens of artist James Turrell’s Roden Crater, under which specific materials, environment, and conditions present, shaped our sensory experience. Concurrently we expanded our sensory acuity through engagement with guest speakers ASU Assoc. Professor Patrick Young and Assist. Professor Christy Spackman, Ed Krupp Director of Griffith Observatory, and writer Lawrence Weschler, to develop a deeper sensibility across media, time and space. The resulting sculptural forms/prototypes, performance, and installations were designed and constructed in response to the collective experience.
Students and faculty participate in a panel discussion at the student showcase on April 29, 2019 in Marston Theater at Arizona State University.
Spring 2019 Course: Indigenous Stories and Sky Science (taught by Wanda Dalla Costa)
Roden Crater is situated in the territorial homelands of at least eight Arizona tribes. To honor local history and the continued practice of Indigenous sky science in the southwest, the field lab Indigenous Stories and Sky Science will view the Crater through the lens of Indigeneity. The students, who went on a five-day journey to Navajo Nation and the Hopi Tribe, meeting locals, interacting with place and touring sites of sky observation, shared their experience using the four knowledges of community resilience: empirical, traditional, revealed and contemporary (From Johnson, et al. (2015). Weaving Indigenous and sustainability sciences to diversify our methods).
To address the dearth of knowledge about person-based and trip-level exposure, we developed the Icarus model. Icarus uses mesoscale traffic model—activity-based model—to analyze the heat exposure of regions of interest at an individual level. The goal with Icarus was to design accurate, granular models of population and temperature behavior for a target region, which could be transformed into a heat exposure model by means of simulation and spatial-temporal joining. By combining and implementing the most robust software and data available, Icarus was able to capture person-based exposure with unparalleled detail. Here we describe the model methodology. We use the metropolitan region of Phoenix, Arizona, USA to carry out a case study using Icarus.
