Optimal presentation of imagery with focus cues on multi-plane displays

Narain, Rahul; Albert, Rachel; Bulbul, Abdullah; Ward, Greg; Banks, Martin S.; O’Brien, James F.

doi:10.1145/2766909

Cited by 92 publications

(107 citation statements)

References 67 publications

(59 reference statements)

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“…Early on, Akeley et al [11] demonstrate the benefits of fixed-viewpoint volumetric desktop displays using multiple display planes and generate near-correct focus cues without tracking eye position. Recently such displays were revisited with improved scene decomposition, and gaze-contingent varifocal multi plane capabilities [12], [13]. However, these displays have large power and computational demands with a complex hardware that doesn't lead to a wearable form factor.…”

Section: Related Workmentioning

confidence: 99%

10‐1: Towards Varifocal Augmented Reality Displays using Deformable Beamsplitter Membranes

Dunn

Chakravarthula

Dong

et al. 2018

Symp Digest of Tech Papers

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Growing evidence in recent literature suggests gaze contingent varifocal Near Eye Displays (NEDs) are mitigating visual discomfort caused by the vergence-accommodation conflict (VAC). Such displays promise improved task performance in Virtual Reality (VR) and Augmented Reality (AR) applications and demand less compute and power than light field and holographic display alternatives. In the context of this paper, we further extend the evaluation of our gaze contingent wide field of view varifocal AR NED layout [1] by evaluating optical characteristics of resolution, brightness, and eye-box. Our most recent prototype dramatically reduces form-factor, while improving maximum depth switching time to under 200 ms.

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Section: Related Workmentioning

confidence: 99%

10‐1: Towards Varifocal Augmented Reality Displays using Deformable Beamsplitter Membranes

Dunn

Chakravarthula

Dong

et al. 2018

Symp Digest of Tech Papers

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“…Therefore, the compressive light filed algorithm is adopted to proposed systems. Both of the proposed systems use the additive type compressive light field algorithm to interpolate the information of the two layers formed in space, and it has already been studied that accommodation of the mid-range between two layers is induced [11][12][13]. Therefore, both systems float two images with 0.3 diopter distance difference and it is generally known that mid-range depth can be expressed when two multilayer displays have a distance of about 0.3 diopter.…”

Section: Additive Type Compressive Light Field Algorithmmentioning

confidence: 99%

79‐1: Invited Paper: Accommodative AR HMD Using Birefringent Crystal

Lee

Hong

Moon

et al. 2018

Symp Digest of Tech Papers

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The near-eye display for augmented display using a birefringent crystal has been proposed for providing the accommodation. Since the birefringent crystal has unique optical property that the refractive index is modulated according to the polarization state, it can be used for accommodative head-mounted display for augmented reality by making multiple image planes. We describe the two near-eye display systems using birefringent crystal and analyze the interpolation method between multiple image planes.

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“…A common approach to present depth cues is by displaying virtual content on multiple transparent planes [18][19][20]. Although MacKenzie et al [21] showed that five focal planes are enough to produce an acceptable range of real-time accommodative cues, multiple focal planes lead to a bulkier HMD design.…”

Section: Displays For Refocusable Ar Contentmentioning

confidence: 99%

EyeAR: Refocusable Augmented Reality Content through Eye Measurements

Rompapas

Rovira

Plopski

et al. 2017

MTI

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Augmented Reality (AR) superimposes computer graphics (CG) onto a user's view of the real world. A key quality problem in this field is to achieve coherence between reality and CG when the user's eyes refocus or change pupil size. We designed and evaluated a display that improves coherence by measuring the user's eye state and continuously adapting CG accordingly. Our tabletop prototype emulates an Optical See-Through Head-Mounted Display, a common AR display device. In our evaluation, participants observed three pillars at different depths. We then challenged them to identify a virtual pillar among the three while freely refocusing their eyes. Results show that our design significantly improved realism. Compared to Light Field Displays, our design aims to simplify display-optics while providing similar quality. We could only partially achieve this goal. We discuss the lessons we learned and how we plan to overcome the remaining challenges. The experimental protocol from our evaluation is useful for display developers as it can be used to measure the coherence of a display.

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Optimal presentation of imagery with focus cues on multi-plane displays

Cited by 92 publications

References 67 publications

10‐1: Towards Varifocal Augmented Reality Displays using Deformable Beamsplitter Membranes

10‐1: Towards Varifocal Augmented Reality Displays using Deformable Beamsplitter Membranes

79‐1: Invited Paper: Accommodative AR HMD Using Birefringent Crystal

EyeAR: Refocusable Augmented Reality Content through Eye Measurements

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