Personal Fabrication

Baudisch, Patrick; Mueller, Stefanie

doi:10.1561/1100000055

Cited by 113 publications

(65 citation statements)

References 77 publications

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“…Further, with the advent of personal fabrication technologies [71], related inventions of new physical materials also emerged that can be utilized for creating new forms of interaction (e.g., shape-changing material [72], materials as sensors [73] or utilizing fabrication technology for new hybrid game approaches [74,75]).…”

Section: Tracking Technology To Enable Bodily Signals-designing For Nmentioning

confidence: 99%

Dislocated Boardgames: Design Potentials for Remote Tangible Play

Maurer

Fuchsberger

2019

MTI

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Conventional digital and remote forms of play lack the physicality associated with analog play. Research on the materiality of boardgames has highlighted the inherent material aspects to this analog form of play and how these are relevant for the design of digital play. In this work, we analyze the inherent material qualities and related experiences of boardgames, and speculate how these might shift in remote manifestations. Based on that, we depict three lenses of designing for remote tangible play: physicality, agency, and time. These lenses present leverage points for future designs and illustrate how the digital and the physical can complement each other following alternative notions of hybrid digital–physical play. Based on that, we illustrate the related design space and discuss how boardgame qualities can be translated to the remote space, as well as how their characteristics might change. Thereby, we shed light on related design challenges and reflect on how designing for shared physicality can enrich dislocated play by applying these lenses.

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Section: Tracking Technology To Enable Bodily Signals-designing For Nmentioning

confidence: 99%

Dislocated Boardgames: Design Potentials for Remote Tangible Play

Maurer

Fuchsberger

2019

MTI

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“…Early on in the development of 3D printing, researchers realized that building objects bottom-up, layer-by-layer comes with an inherent issue: some geometries would have nothing underneath them to hold them up. To solve this issue, researchers developed support structures to keep overhangs upright [1,9]. Early 3D printers that had only a single extruder used one material for both the model geometry and the support structures.…”

Section: Introductionmentioning

confidence: 99%

“…Our contributions include: (1) an exploration of alternative use cases of 3D printable support material in two categories: those that require controlled dissolving behavior for timing and sequencing events and those that do not need precise control and only require the support material to dissolve eventually; (2) a design interface in the form of a 3D editor plugin that facilitates designing with dissolvable support material; (3) a simulation integrated in the design interface that visualizes how the support material dissolves over time; and (4) a step-by-step procedure to characterize the simulation parameters for different environments.…”

Section: Introductionmentioning

confidence: 99%

Sequential Support

Nisser

Zhu

Chen

et al. 2019

Proceedings of the Thirteenth International Conference on Tangible, Embedded, and Embodied Interaction

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In this paper, we propose a different perspective on the use of support material: rather than printing support structures for overhangs, our idea is to make use of its transient nature, i.e. the fact that it can be dissolved when placed in a solvent, such as water. This enables a range of new use cases, such as quickly dissolving and replacing parts of a prototype during design iteration, printing temporary assembly labels directly on the object that leave no marks when dissolved, and creating time-dependent mechanisms, such as fading in parts of an image in a shadow art piece or releasing relaxing scents from a 3D printed structure sequentially overnight. Since we use regular support material (PVA), our approach works on consumer 3D printers without any modifications. To facilitate the design of objects that leverage dissolvable support, we built a custom 3D editor plugin that includes a simulation showing how support material dissolves over time. In our evaluation, our simulation predicted geometries that are statistically similar to the example shapes within 10% error across all samples.

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“…The Arduino open-source platform [17] stands as a great example of a system that integrates a physical sensing/actuating device with a simple and intuitive development environment, designed to introduce novice makers to electronic prototyping. Personal fabrication [18] projects such as RoMA [19] demonstrate the potential of robot integration in ad hoc design-whilemaking systems. Robotic fabrication in architecture has also seen a tremendous development in the last decade, with many architecture schools incorporating robotics as part of their curricula, and dedicated conferences promoting research in the field [20][21][22][23].…”

Section: Introductionmentioning

confidence: 99%

Machina.NET: A Library for Programming and Real-Time Control of Industrial Robots

López

2019

JORS

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Machina is a .NET library for programming and control of industrial robots. It is designed to build applications that interface with robotic devices in real time. The library features a high-level API of simple, deviceagnostic action verbs to issue motion requests to robots, and translates them to device-specific instructions using low-level communication protocols and managing priority queues. It also features a set of executionrelated events to notify users of changes in the asynchronous state of the robot, fostering programming styles that are reactive rather than prescriptive. These features promote an enactive approach to robotics, and provide an immediate and intuitive entry point to real-time robot control, making Machina particularly suitable for controlling systems that require concurrent responsiveness to sensory or user input. While Machina currently supports mostly six-axis industrial robotic arms, it can be easily extended to any actuable device that moves in three-dimensional space, such as 3D printers, CNC machines, drones, robotic toys, etc. Machina is geared towards users in the creative fields, like designers, artists, makers and creative coders, and promotes features such as interactivity, intuitiveness, feedback, concurrency and cross-platform compatibility, over performance or feature-fullness. We hope this framework will help ease access for novice users to the field of robotics.

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Personal Fabrication

Cited by 113 publications

References 77 publications

Dislocated Boardgames: Design Potentials for Remote Tangible Play

Dislocated Boardgames: Design Potentials for Remote Tangible Play

Sequential Support

Machina.NET: A Library for Programming and Real-Time Control of Industrial Robots

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