Araştırma Makalesi
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Design of Hybrid Refractive/Diffractive Lenses for Wearable Reality Displays

Yıl 2019, Cilt: 7 Sayı: 1, 94 - 98, 31.01.2019
https://doi.org/10.17694/bajece.493821

Öz

Wearable reality displays promise revolutionary developments
for a wide range of applications. The key to achieving a high‑quality wearable
reality display system is to design a comfortable‑to‑wear, compact, lightweight
system that can provide high resolution and high contrast. One potential method
for achieving a compact and high‑resolution display system is through designing
a hybrid refractive/diffractive lens. With this approach, a chromatically‑corrected
optical system can be implemented with a single‑element lens. 

Kaynakça

  • L. P. Berg and J. M. Vance, "Industry use of virtual reality in product design and manufacturing: a survey," Virtual Reality, vol. 21, pp. 1-17, 2017.
  • Seth, J. M. Vance and J. H. Oliver, "Virtual reality for assembly methods prototyping: a review," Virtual reality, vol. 15, pp. 5-20, 2011.
  • L. Freina and M. Ott, "A Literature Review on Immersive Virtual Reality in Education: State Of The Art and Perspectives.," eLearning & Software for Education, 2015.
  • N. E. Seymour, A. G. Gallagher, S. A. Roman, M. K. O’brien, V. K. Bansal, D. K. Andersen and R. M. Satava, "Virtual reality training improves operating room performance: results of a randomized, double-blinded study," Annals of surgery, vol. 236, p. 458, 2002.
  • F. E. Sahin, "Open-source optimization algorithms for optical design," Optik, vol. 178, pp. 1016-1022, 2019.
  • L. Livshits and D. C. Dilworth, "Trends in optical design from 1988 to 2018… where to from here?," Advanced Optical Technologies, vol. 7, pp. 335-341, 2018.
  • F. E. Sahin, "Lens design for active alignment of mobile phone cameras," Optical Engineering, vol. 56, p. 065102, 2017.
  • R. Konrad, N. Padmanaban, K. Molner, E. A. Cooper and G. Wetzstein, "Accommodation-invariant Computational Near-eye Displays," ACM Trans. Graph. (SIGGRAPH), no. 36, 2017.
  • F. E. Sahin and R. Laroia, "Light L16 Computational Camera," in Applied Industrial Optics: Spectroscopy, Imaging and Metrology, 2017.
  • Lanman and D. Luebke, "Near-eye light field displays," ACM Transactions on Graphics (TOG), vol. 32, p. 220, 2013.
  • J. P. Rolland, R. L. Holloway and H. Fuchs, "Comparison of optical and video see-through, head-mounted displays," in Telemanipulator and Telepresence Technologies, 1995.
  • F. E. Sahin, B. P. McIntosh, P. J. Nasiatka, J. D. Weiland, M. S. Humayun and A. R. Tanguay, "Eye-tracked extraocular camera for retinal prostheses," in Frontiers in Optics, 2015.
  • Cutolo, P. D. Parchi and V. Ferrari, "Video see through AR head-mounted display for medical procedures," in Mixed and Augmented Reality (ISMAR), 2014 IEEE International Symposium on, 2014.
  • Google Cardboard, https://vr.google.com/cardboard/ (Last accessed: Dec 6, 2018).
  • Oculus VR, https://www.oculus.com/ (Last accessed: Dec 6, 2018).
  • HTC Vive, https://www.vive.com/ (Last accessed: Dec 6, 2018).
  • S.-W. Yang, K.-L. Huang, C.-Y. Chen and R.-S. Chang, "Wide-angle lens design," in Computational Optical Sensing and Imaging, 2014.
  • F. E. Sahin, "Fisheye lens design for sun tracking cameras and photovoltaic energy systems," Journal of Photonics for Energy, vol. 8, p. 035501, 2018.
  • J. Kumler and M. L. Bauer, "Fish-eye lens designs and their relative performance," in Current Developments in Lens Design and Optical Systems Engineering, 2000.
  • N. Sultanova, S. Kasarova and I. Nikolov, "Dispersion properties of optical polymers," Acta Physica Polonica-Series A General Physics, vol. 116, p. 585, 2009.
  • M. Schaub, J. Schwiegerling, E. Fest, R. H. Shepard and A. Symmons, "Molded Optics: Design and Manufacture," CRC Press, 2016, pp. 28-32.
  • Apple iPhone X, https://www.apple.com/iphone-x/ (Last accessed: Sep. 12, 2018)
  • Hecht, "Optics," Pearson Education, 2001, p. 107.
  • Zemax OpticStudio, Zemax LLC, Washington, USA. https://www.zemax.com/
  • S. Thibault, J. Parent, H. Zhang, X. Du and P. Roulet, "Consumer electronic optics: how small can a lens be: the case of panomorph lenses," in Current Developments in Lens Design and Optical Engineering XV, 2014.
  • S. Lee and H. Hua, "A robust camera-based method for optical distortion calibration of head-mounted displays," Journal of Display Technology, vol. 11, pp. 845-853, 2015.
  • F. E. Sahin, P. J. Nasiatka, J. D. Weiland, M. S. Humayun and A. R. Tanguay, "Optimal Design of Miniature Wide-Angle Computational Cameras for Retinal Prostheses and Wearable Visual Aids," in Frontiers in Optics, 2014.
  • F. E. Sahin, P. J. Nasiatka and A. R. Tanguay, "Lateral Chromatic Aberration Optimization in Wide-Field-of-View Computational Cameras," in Frontiers in Optics, 2015.
  • F. E. Sahin and A. R. Tanguay, "Distortion optimization for wide-angle computational cameras," Optics Express, vol. 26, pp. 5478-5487, 2018.
  • Symmons, J. Huddleston and D. Knowles, "Design for manufacturability and optical performance trade-offs using precision glass molded aspheric lenses," in Polymer Optics and Molded Glass Optics: Design, Fabrication, and Materials 2016, 2016.
Yıl 2019, Cilt: 7 Sayı: 1, 94 - 98, 31.01.2019
https://doi.org/10.17694/bajece.493821

Öz

Kaynakça

  • L. P. Berg and J. M. Vance, "Industry use of virtual reality in product design and manufacturing: a survey," Virtual Reality, vol. 21, pp. 1-17, 2017.
  • Seth, J. M. Vance and J. H. Oliver, "Virtual reality for assembly methods prototyping: a review," Virtual reality, vol. 15, pp. 5-20, 2011.
  • L. Freina and M. Ott, "A Literature Review on Immersive Virtual Reality in Education: State Of The Art and Perspectives.," eLearning & Software for Education, 2015.
  • N. E. Seymour, A. G. Gallagher, S. A. Roman, M. K. O’brien, V. K. Bansal, D. K. Andersen and R. M. Satava, "Virtual reality training improves operating room performance: results of a randomized, double-blinded study," Annals of surgery, vol. 236, p. 458, 2002.
  • F. E. Sahin, "Open-source optimization algorithms for optical design," Optik, vol. 178, pp. 1016-1022, 2019.
  • L. Livshits and D. C. Dilworth, "Trends in optical design from 1988 to 2018… where to from here?," Advanced Optical Technologies, vol. 7, pp. 335-341, 2018.
  • F. E. Sahin, "Lens design for active alignment of mobile phone cameras," Optical Engineering, vol. 56, p. 065102, 2017.
  • R. Konrad, N. Padmanaban, K. Molner, E. A. Cooper and G. Wetzstein, "Accommodation-invariant Computational Near-eye Displays," ACM Trans. Graph. (SIGGRAPH), no. 36, 2017.
  • F. E. Sahin and R. Laroia, "Light L16 Computational Camera," in Applied Industrial Optics: Spectroscopy, Imaging and Metrology, 2017.
  • Lanman and D. Luebke, "Near-eye light field displays," ACM Transactions on Graphics (TOG), vol. 32, p. 220, 2013.
  • J. P. Rolland, R. L. Holloway and H. Fuchs, "Comparison of optical and video see-through, head-mounted displays," in Telemanipulator and Telepresence Technologies, 1995.
  • F. E. Sahin, B. P. McIntosh, P. J. Nasiatka, J. D. Weiland, M. S. Humayun and A. R. Tanguay, "Eye-tracked extraocular camera for retinal prostheses," in Frontiers in Optics, 2015.
  • Cutolo, P. D. Parchi and V. Ferrari, "Video see through AR head-mounted display for medical procedures," in Mixed and Augmented Reality (ISMAR), 2014 IEEE International Symposium on, 2014.
  • Google Cardboard, https://vr.google.com/cardboard/ (Last accessed: Dec 6, 2018).
  • Oculus VR, https://www.oculus.com/ (Last accessed: Dec 6, 2018).
  • HTC Vive, https://www.vive.com/ (Last accessed: Dec 6, 2018).
  • S.-W. Yang, K.-L. Huang, C.-Y. Chen and R.-S. Chang, "Wide-angle lens design," in Computational Optical Sensing and Imaging, 2014.
  • F. E. Sahin, "Fisheye lens design for sun tracking cameras and photovoltaic energy systems," Journal of Photonics for Energy, vol. 8, p. 035501, 2018.
  • J. Kumler and M. L. Bauer, "Fish-eye lens designs and their relative performance," in Current Developments in Lens Design and Optical Systems Engineering, 2000.
  • N. Sultanova, S. Kasarova and I. Nikolov, "Dispersion properties of optical polymers," Acta Physica Polonica-Series A General Physics, vol. 116, p. 585, 2009.
  • M. Schaub, J. Schwiegerling, E. Fest, R. H. Shepard and A. Symmons, "Molded Optics: Design and Manufacture," CRC Press, 2016, pp. 28-32.
  • Apple iPhone X, https://www.apple.com/iphone-x/ (Last accessed: Sep. 12, 2018)
  • Hecht, "Optics," Pearson Education, 2001, p. 107.
  • Zemax OpticStudio, Zemax LLC, Washington, USA. https://www.zemax.com/
  • S. Thibault, J. Parent, H. Zhang, X. Du and P. Roulet, "Consumer electronic optics: how small can a lens be: the case of panomorph lenses," in Current Developments in Lens Design and Optical Engineering XV, 2014.
  • S. Lee and H. Hua, "A robust camera-based method for optical distortion calibration of head-mounted displays," Journal of Display Technology, vol. 11, pp. 845-853, 2015.
  • F. E. Sahin, P. J. Nasiatka, J. D. Weiland, M. S. Humayun and A. R. Tanguay, "Optimal Design of Miniature Wide-Angle Computational Cameras for Retinal Prostheses and Wearable Visual Aids," in Frontiers in Optics, 2014.
  • F. E. Sahin, P. J. Nasiatka and A. R. Tanguay, "Lateral Chromatic Aberration Optimization in Wide-Field-of-View Computational Cameras," in Frontiers in Optics, 2015.
  • F. E. Sahin and A. R. Tanguay, "Distortion optimization for wide-angle computational cameras," Optics Express, vol. 26, pp. 5478-5487, 2018.
  • Symmons, J. Huddleston and D. Knowles, "Design for manufacturability and optical performance trade-offs using precision glass molded aspheric lenses," in Polymer Optics and Molded Glass Optics: Design, Fabrication, and Materials 2016, 2016.
Toplam 30 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Furkan E Sahin

Yayımlanma Tarihi 31 Ocak 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 7 Sayı: 1

Kaynak Göster

APA Sahin, F. E. (2019). Design of Hybrid Refractive/Diffractive Lenses for Wearable Reality Displays. Balkan Journal of Electrical and Computer Engineering, 7(1), 94-98. https://doi.org/10.17694/bajece.493821

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