This paper reports on a fully inclusive co-design process of an informal VR science game intended to be accessible to a broad range of learners. The co-design embraces the `nothing about us without' us movement by ensuring that stakeholder voices have a prominent role throughout the design process. In the project described in this paper, professional designers and researchers work with a team of neurodiverse stakeholders as peer members of the design team. The design process is described, and the findings based on feedback from all co-design participants is reported. Recommendations for others in the field are provided to help guide those interested in implementing an effective and inclusive co-design process.
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Catabot: Autonomous Surface Vehicle with an Optimized Design for Environmental Monitoring
This paper presents an optimized design of research-oriented ASVs and a systematic design evaluation methodology for reliable in-water sensing. The objective is to minimize the interference on sensor readings by any ASV maneuver. The design space includes motors and sensors locations. In addition, this paper analyzes modularity - i.e., the effects of new sensor's installation. All prototype designs are thoroughly tested using hydrostatic analyses, Computational Fluid Dynamics (CFD) simulations, and real-world field testings. Quantitative metrics, including trim, pitch, velocity magnitude of flow, and turbulence, are used to compare different configurations. Our experiments show that a motor configuration at the back part of the straights hulls is the most optimal design, resulting in high-quality data collection.
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- NSF-PAR ID:
- 10224436
- Date Published:
- Journal Name:
- Ocean
- ISSN:
- 0197-7385
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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