108 results on '"AUGMENTED reality"'
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2. P‐44: Low Resistance Optical Transparent Electrode for Augmented Reality Near‐Eye Display and Eye Tracking Module
3. 31‐2: Distinguished Student Paper: Aberration‐Free Pupil Steering Maxwellian Display for Augmented Reality
4. 41‐1: Invited Paper: Dynamic Holography for Automotive Augmented‐Reality Head‐Up Displays (AR‐HUD)
5. 31‐1: Invited Paper: Eyeglasses‐Style Maxwellian‐View Near‐eye Display with Lens‐Array‐Based Holographic Optical Element
6. P‐27: ML‐Based Eye Tracking for Augmented Reality Heads‐Up Displays (AR HUDs)
7. 53‐3: Dynamic Crosstalk Measurement for Augmented Reality 3D Head‐Up Display (AR 3D HUD) with Eye Tracking
8. P‐50: Reflective Augmented Reality 3D Display System Based on Lens‐Type Integral Imaging
9. 6: Simultaneous Tracking, Tagging and Mapping for Augmented Reality
10. 49.4: Long Viewing Distance and Large Depth of Field Augmented Reality (AR) 3D Display Based on MEMS Laser Projection Array
11. 56.5: Pupil Swim Suppression in Augmented Reality (AR) Waveguide Combiner
12. 40‐1: Invited Paper: New Liquid Crystal and Reactive Mesogens Mixtures for Passive and Active Photonic Components
13. 30‐2: High Refractive Index Glass Wafers for Augmented Reality: Boundary Conditions for an Excellent Optical Performance
14. P‐25: Effects of Image Distance on Cognitive Tunneling with Augmented Reality Head Up Displays
15. 26‐4: Late‐News Paper: Super‐Light Smart Glasses Using a Thin Plastic Light Guide Plate
16. 67‐4: Visual Simultaneous Localization and Mapping with Deep Neural Network Based Loop Detection for Augmented Reality
17. 19‐2: Vergence‐Accommodation Conflicts in Augmented Reality: Impacts on Perceived Image Quality
18. 40‐2: Demonstration of a Novel Single‐Layer Double‐Pass Optical Architecture for a Pupil‐Matched Occlusion‐Capable Optical See‐Through Head‐Mounted Display
19. 18‐1: Invited Paper: Holographic Optical Elements for Automotive Windshield Displays
20. 50‐4: Standardizing Fundamental Criteria for Near Eye Display Optical Measurements: Determining the Eye‐box
21. 46.2: Invited Paper: The Development of Grating Waveguide Technology for Near‐Eye Display in Augmented Reality
22. 56‐1: A Multiplane Holographic HUD Using Light Selectivity of Bragg Grating
23. 24‐2: Latency Compensation for Optical See‐Through Head‐Mounted with Scanned Display
24. P‐92: A Lensless Retinal Scanning Display for Augmented Reality
25. 10‐3: High Refractive Index Glass Wafers for Augmented Reality Devices using Waveguide Technology: Recent Advances in Control of Quality Parameters and their Correlation with Device Properties
26. P‐45: Position Correction against Vehicle Vibration for Augmented Reality on Head‐up Display
27. 73‐2: Wearable Display System Combined Directional Scattering Holographic Waveguide with Goggle
28. 66‐2: High transmittance and fast response FFS LCD for AR and VR displays
29. 73‐1: Directly See‐through AR HMD Based on Light Field Technology with LC MLA
30. 3‐3: The effect of larger field‐of‐view on visual search times for world‐locked augmented reality objects
31. 31‐2: Measuring Interocular Geometric Distortion of Near‐Eye Displays
32. 59‐4: Fast‐response polarization volume gratings for AR/VR displays
33. 49.1: Invited Paper: Opportunities of Liquid Crystal Polarization Holograms in Augmented and Virtual Reality Optics & Display Systems
34. P-95: Study of AR Optical Design with Lightweight Optical Waveguide
35. 17-1: A Flat-panel Holographic-optical-element System for Holographic Augmented Reality Display with a Beam Expander
36. 44-4: New Liquid Crystals Enabling High-Frame-Rate LCoS for Augmented Reality Displays
37. 72-2: Standardizing Fundamental Criteria for Near Eye Display Optical Measurements: Determining Eye Point Position
38. 3-5: RGB Superluminescent Diodes for AR Micro-Displays
39. 17-4: DigiLens AR HUD Waveguide Technology
40. 63-4: Q-View Technology - Approach to Achieving High Resolution and Low Power in Small Pixel Micro-Display
41. P-205: Late-News Poster: Augmented Reality Display Based on Polymer-Stabilized Blue Phase Liquid Crystal Combiner
42. 30-4: Semantic Simultaneous Localization and Mapping for Augmented Reality
43. 17-3: Distinguished Paper: A Plastic Holographic Waveguide Combiner for Light-weight and Highly-transparent Augmented Reality Glasses
44. 79-1: Invited Paper: Accommodative AR HMD Using Birefringent Crystal
45. 65-5: Invited Paper: Resolving the Vergence Accommodation Conflict in VR and AR via Tunable Liquid Crystal Lenses
46. 55-2: Invited Paper: Volume Optimized and Mirror-less Holographic Waveguide Augmented Reality Head-up Display
47. 79-4: A Plastic Electrochromic Dimming Device for Augmented Reality Glasses
48. 21-2: Towards Direct-View Accommodative Light Field Displays
49. P-201: Late-News Poster: Design of Full-color Multi-plane Augmented Reality Display with PSLC Scattering Shutters†
50. 46.1: Design of Full-color Multi-plane Augmented Reality Display with PSLC Scattering Shutters
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