Projectagami

Tan, Dominique; Kumorek, Maciej; García, Andrés Amaya; Mooney, Adam; Bekoe, Derek

doi:10.1145/2702613.2732801

Cited by 16 publications

(6 citation statements)

References 16 publications

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“…This family has many prototypes such as PaperWindows, Foldable Interactive Displays [25], Corba [40], FoldMe [18], FlexPad [33], ProjectAgami [35] and Bendy [26]. Probably this family is interesting to researchers because the projection technique decouples the hardware and the software, which provides the flexibility to evolve each separately.…”

Section: Foldable Projection Prototypesmentioning

confidence: 99%

Towards Rapid Prototyping of Foldable Graphical User Interfaces with Flecto

Khaddam

Vanderdonckt

Dowaji

et al. 2020

Proc. ACM Hum.-Comput. Interact.

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Whilst new patents and announcements advertise the technical availability of foldable displays, which are capable to be folded to some extent, there is still a lack of fundamental and applied understanding of how to model, to design, and to prototype graphical user interfaces for these devices before actually implementing them. Without waiting for their off-the-shelf availability and without being tied to any physical foldable mechanism, Flecto defines a model, an associated notation, and a supporting software for prototyping graphical user interfaces running on foldable displays, such as foldable smartphone or assemblies of foldable surfaces. For this purpose, we use an extended notation of the Yoshizawa-Randlett diagramming system, used to describe the folds of origami models, to characterize a foldable display and define possible interactive actions based on its folding operations. A guiding method for rapidly prototyping foldable user interfaces is devised and supported by Flecto, a design environment where foldable user interfaces are simulated in 3D environment instead of in physical reality. We report on a case study to demonstrate Flecto in action and we gather the feedback from users on Flecto, using Microsoft Product Reaction Cards. CCS Concepts: • Human-centered computing → Displays and imagers; Interactive systems and tools; Graphical user interfaces; Virtual reality; Ubiquitous and mobile computing design and evaluation methods; • Software and its engineering → Integrated and visual development environments; Rapid application development.

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Section: Foldable Projection Prototypesmentioning

confidence: 99%

Towards Rapid Prototyping of Foldable Graphical User Interfaces with Flecto

Khaddam

Vanderdonckt

Dowaji

et al. 2020

Proc. ACM Hum.-Comput. Interact.

View full text Add to dashboard Cite

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“…a game controller). Paddle [40], Projectagami [51] and Morphees [44] also offers a reconfigurable device. The user can fold the device, similar to manipulating origami.…”

Section: Related Workmentioning

confidence: 99%

PickCells

Goguey

Steer

Lucero

et al. 2019

Proceedings of the 2019 CHI Conference on Human Factors in Computing Systems

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Illustration of the PickCells concept. Using her PickCells device (a) composed of small cubical cells, Eve can: b) snap-off cells to create a remote control while watching her movie; c) reorganise some cells to unlock her device by inputting a physical password; d) shape her device into a controller to comfortably play video games; e) snap-off a cell from her device, set it to control her smart light bulb and leave it in the living room so the whole family can control the bulb; and f) share one of her cell to show her vacation pictures on her friend's device.

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“…Origami has inspired many shape-changing devices. Previous work explores how differently folded states of foldable screens and smartwatches can activate certain viewpoints or functionalities [10][11] [39]. Other work explores how different origami patterns can resemble certain 3D shapes and how to actuate the shape changes by using shape-memory alloys or inflation [30][33][42] [46].…”

Section: Origami-inspired Shape-changing Interfacesmentioning

confidence: 99%

ExpanDial

Kim

Guimarães

Coutrix

et al. 2019

Proceedings of the 2019 on Designing Interactive Systems Conference

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We investigate the design of a shape-changing dial, i.e. a dial that can change its circumference and height to adapt to different contexts of interaction. We first explore how users grasp 3D printed dials of different heights and circumferences in order to inform the form factor of shapechanging dials. We then design a prototype, ExpanDial, inspired from morphing origami. We then use our prototype as a probe within design sessions and use the participants' feedback to devise a set of applications that can benefit from such reconfigurable devices. We also used the design sessions to better understand what kind of interaction and manipulation could be harnessed from such device.

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Projectagami

Cited by 16 publications

References 16 publications

Towards Rapid Prototyping of Foldable Graphical User Interfaces with Flecto

Towards Rapid Prototyping of Foldable Graphical User Interfaces with Flecto

PickCells

ExpanDial

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