Conducting robots &amp;#x2014; Bridging the gap between science, technology and the arts in the undergraduate curriculum

Salgian, Andrea; Nakra, Teresa Marrin; Ault, Christopher; Wang, Yunfeng

doi:10.1109/isecon.2013.6525226

Cited by 5 publications

(1 citation statement)

References 9 publications

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“…Other examples of combining arts and computing include Kim et al [7] where the authors describe the development of the Artbotics curriculum, and Brunvand and Stout [3] that describe a cross-disciplinary course for art and computer science and engineering students. However, as Salgian et al [10] conclude, there are few reported efforts on combining engineering with fundamentally different disciplines such as humanities or social sciences.…”

Section: Introductionmentioning

confidence: 99%

Theater robotics for human technology education

Laamanen

Jormanainen

Sutinen

2015

Proceedings of the 15th Koli Calling Conference on Computing Education Research

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Theater robotics allows its users to learn by transforming a story into a theatrical performance acted out by robots. A preliminary implementation uses affordable robotics kits controlled by a scripting environment that was designed iteratively by observing the users from the viewpoint of a given set of criteria. The end result facilitates a truly interdisciplinary learning experience that combines two types of artifacts: robots built with technology and engineering, and stories founded on humanities. Theater robotics can be applied not only in technology or robotics education, but also in computing education to teach specific skills such as computational thinking or basic concepts of programming with robots.

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Section: Introductionmentioning

confidence: 99%

Theater robotics for human technology education

Laamanen

Jormanainen

Sutinen

2015

Proceedings of the 15th Koli Calling Conference on Computing Education Research

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The Singing Bridge: Sonification of a Stress-Ribbon Footbridge

Torresan

Bernardes

Caetano

et al. 2023

Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering

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Stress-ribbon footbridges are often prone to excessive vibrations induced by environmental phenomena (e.g., wind and rain) and human actions (e.g., walking and jumping) and their liveliness is strongly associated with their slenderness.In earlier studies, multiple dynamic responses of a stress-ribbon footbridge were observed on the campus of the Faculty of Engineering of the University of Porto (FEUP) in Portugal. Although extreme vibrations have never been reported, vertical oscillations are clearly perceptible under pedestrian excitement. While monitoring the bridge, the technology revealed physical phenomena that are invisible to humans. This project aims to adopt sonification techniques as a compositional tool to create a sonic manifestation that shows the dynamic response of the bridge.In this study, two different sonification techniques (audification and parameter mapping) were used to extrapolate the same phenomena using different strategies. For what concerns sound synthesis, the first technique used an FM synthesizer, while the second one used external VSTs and generative approaches to create a compelling musical sonification.In order to evaluate the proposed sonification techniques' reliability, an online listening test was conducted to assess the three main dimensions of a collected dataset: the number of people crossing the bridge, their walking speed, and the steadiness of their pace. Respondents were required to complete both a blind test and one after a short training to assess the intuitiveness and reliability of both methods.According to the results, it is clear that the training significantly improves the participants' accuracy in identifying the correct categories. In fact, almost all values have increased after the short training. Therefore, this suggests that the success of both sonification techniques could improve significantly with deeper training. Additionally, the overall trend shows parameter mapping sonification as a more intuitive and precise technique than audification.

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Theater Meets Robot – Toward Inclusive STEAM Education

Montero

Jormanainen

2017

Educational Robotics in the Makers Era

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Conducting robots — Bridging the gap between science, technology and the arts in the undergraduate curriculum

Cited by 5 publications

References 9 publications

Theater robotics for human technology education

Theater robotics for human technology education

The Singing Bridge: Sonification of a Stress-Ribbon Footbridge

Theater Meets Robot – Toward Inclusive STEAM Education

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