E. H. Stupp, M. S. Brennesholtz, Projection Displays (Wiley, 1999).
R. Patterson, private
Martins, Head-mounted display by integration
of phase-conjugate material U.S. Patent 6 999 239 (2006).
Vaissie, head mounted display with eyetracking
capability U.S. 6 433 760 (2002).
J. Rolland, H. Hua, Encyclopedia
of Optical Engineering (Marcel
C. Curatu, "Projection-based head-mounted
display with eye tracking capabilities," Proc.
SPIE Novel Optical Systems Design and Optimization VIII (2005) pp. 141-149.
Furness. Virtual Retinal
Display U.S. Patent 5 467 104 (1995).
D. M. Green, J. A. Swets, Signal Detection Theory and Psychophysics (Wiley, 1966).
H. Urey, Encyclopedia of Optical Engineering pp. 2445-2457.
H. Urey, D. Wine, J. Lewis, "Scanner design and resolution tradeoffs for miniature scanning
desplays," Flat Panel Display Technology and
Display Metrology, Proc. SPIE pp. 60-68.
H. C. Self, Optical tolerances for alignment
and image differences for binocular helmet-mounted displays Armstrong Aerospace Medical Research Lab.DaytonOH (1986) AAMRL-TR-86-019.
Design Issues for Rotary-Wing Aircraft C. Rash, U.S. Army Aeromedical Research
LabFort RuckerAL (2000).
S. T. Wu, Reflective Liquid Crystal Displays (Wiley, 2001).
F. P. Shvartsman, Diffractive and Miniatuzrized
Optics (SPIE Critical Reviews of Optical Science and Technology, 1993).
A. Becker, Miniature video display system U.S. Patent 4 934 773 (1990).
G. Smith, D. A. Atchison, The Eye and Visual Optical Instruments (Cambridge Univ. Press, 1997).
A. Sisodia, A. Riser, J. R. Rogers, "Design of an advanced helmet mounted display
(AHMD)," Proc. SPIE (2005) pp. 304-315.
K. P. Thompson, Aberration fields in tilted and
decentered optical systems Ph.D. Univ.
C. Pinhanez, "The everywhere displays projector:
A device to create ubiquitous graphical interfaces," Proc.
3rd Int. Conf. on Ubiquitous Computing (2001) pp. 315-331.
G. C. de Wit, private
Manhart, "Augeye: A compact, solid, schmidt
optical relay for helmet mounted applications," Proc.
IEEE VRAIS '93 pp. 234-245.
R. Kojima, T. Ojika, "Transition between virtual environment and
workstation environment with projective head-mounted display," Proc. VRAIS '97 pp. 130-137.
O. Bimber, R. Raskar, Spatial Augmented Reality (Peters, 2005).
J. Rogers, private
State, "Simulation-based design and rapid prototyping
of a parallax-free, orthoscopic video see-through head-mounted display," Proc. Int. Symp. on Mixed and Augmented Reality (ISMAR) (2005) pp. 28-31.
I. E. Sutherland, "A head-mounted three-dimensional display," AFIPS Proc. Fall Joint Computer Conf. (1968) pp. 757-764.
K. Kiyokawa, M. Billinghurst, B. Campbell, E. Woods, "An occlusion-capable optical see-through
head mount display for supporting co-located collaboration," Proc. Int. Symp. on Mixed and Augmented Reality (ISMAR) (2003) pp. 133-141.
S. R. Ellis, U. J. Bucher, "Distance perception of stereoscopically
presented virtual objects optically superimposed on physical objects in a
head-mounted see-through displays," Proc. Human
Factors and Ergonomic Soc. (1994).
M. Shenker, "Image quality considerations
for head-mounted displays," Int. Optical Design
G. C. de Wit, A retinal scanning
display for virtual reality Ph.D. Techn.
Univ. DelftDelftThe Netherlands (1997).
G. De Vos, G. Brandt, "Use of holographic optical
elements in HMDs," Proc. SPIE (1990).
J. A. Cox, T. A. Fritz, T. Werner, "Application and demonstration
of diffractive optics for head-mounted displays," Proc.
P. Twardowski, P. Meyrueis, "Design of an optimal single reflective holographic
helmet display element," Proc. SPIE Large Screen
Projection, Avionic, and Helmet-Mounted Displays (1991).
Welch, "Diffractive optics for head-mounted
displays," Proc. SPIE (1995) pp. 209-210.
J. R. Rogers, "Aberrations of optical systems with large
tilts and decentrations," Proc. SPIE (1983).
M. J. Hayford, "Optical
system design using holographic optical elements," Proc.
P. J. Rogers, "Biocular magnifiers—A review," Proc. SPIE 1985 Int. Lens Design Conf. (1985).
D. Faklis, M. J. Hoppe, "Effects of diffraction on the
performance of diffractive realy optics," Proc.
SPIE (1994) pp. 32-40.
M. L. Thomas, "Fiber
optic development for use on the fiber optic helmet mounted display," Proc. SPIE (1989) pp. 89-95.
D. F. Kocian, Armstrong
Aerospace Medical Res. Lab., Visual Display Sytems Branch, Wright-Patterson
Air Force BaseDaytonOH“Design considerations
for virtual panoramic display (VPD) helmet systems”, (1988).
Scidmore, Flanagan, Wide angle eyepiece with large
eye relief U.S. Patent
3 384 434 (1968).
Wide Angle Eyepiece with Minimal Aberrations U.S. Patent 4 720 183 (1988).
M. Kidger, Fundamentals of Optical Design (SPIE, 2001) pp. 26-27.
R. G. Collier, Optical Holography (Academic, 1971).
G. A. Fry, Applied Optics and Optical Engineering (Academic, 1965) pp. 2-26.
V. Mahajan, Optical Imaging and Aberrations (SPIE Press, 2001).
R. Draper, M. Wood, B. Radmard, K. Mahmud, P. Schuler, G. A. Sotzing, V. Seshadri, W. Mino, J. Padilla, T. F. Otero, "Electrochromic
variable transmission optical combiner," Proc.
SPIE (2005) pp. 268-277.
D. Williamson, "The
eye in optical systems," Proc. SPIE (1985) pp. 136-147.
W. N. Charman, Handbook of Optics (McGraw-Hill, 1995).
J. E. Melzer, "Overcoming
the field of view: Resolution invariant in head mounted displays," Proc. SPIE (1998).
Fundamentals of Wearable Computers and Augmented Reality (Lawrance
Tabata, Display Apparatus to be Mounted on the Head
or Face o fan Individual U.S .
Patent 5 726 670 (1998).
U.S. Dep. of DefenseWashingtonDCMilitary
Handbook 141, “Optical design,” (1962).
K. Moffit, Designing HMDs for Viewing Comfort (McGraw-Hill, 1997) pp. 117-142.
W. J. Smith, Modern Lens Design (McGraw-Hill, 2005).
W. Mandler, "Design of double Gauss lenses," SPIE (1980) pp. 222.
T. Gold, "Visual
disparity tolerances for head-up displays," Electro-Optical
System Design Conf. (1971) pp. 399-406.
T. Gold, A. Hyman, “Visual requirements for head-up displays,”
Final Rep. Speery-Rand Corp., prepared for the
Office of Naval Research (1970) Phase
1. JANAIR report 680712.
H. T. E. Hertzberg, G. S. Daniels, E. Churchill, Antropometry of Flying Personnel Wright Air Development Center, Wright-Patterson Air Force BaseOH WADC TR-52-321.
M. Velger, Helmet-Mounted Displays and Sights (Artech
O. Cakmakci, Y. Ha, J. Rolland, "A compact optical see-through head-worn
display with occlusion support," Proc. Int.
Symp. on Mixed and Augmented Reality (ISMAR) (2005).
D. F. Ormerod, "Use of a see-through head-worn display of
patient monitoring data to engance anesthesiologists'response to abnormal
clinical events," Proc. Int. Symp. on Wearable
Computers (ISWC) (2002) pp. 131.
A. D. Cheok, "Game-city: A ubiquitous large
area multi-interface mixed reality game space for wearable computers," Proc. Int. Symp. on Wearable Computers (ISWC) (2002) pp. 156.
J. Cross, "Layered annotations of digital images for data collection
in the field," Proc. Int. Symp. on Wearable
Computers (ISWC) (2003) pp. 154.
R. A. Buchroeder, G. W. Seeley, D. Vukobratovich, “Design of a catadioptric vcass helmet-mounted
display,” Final Report Optical Sciences Center,
University of Arizona, under contract to U.S. Air Force Armstrong Aerospace
Medical Res. Lab., Wright-Patterson Air Force BaseDaytonOH AFAMRL-TR-81-133.
A. Takagi, S. Yamazaki, Y. Saito, N. Taniguchi, "Development
of a stereo video see-through HMD for AT systems," Int.
Symp. on Augmented Reality (2000).
E. R. Kandel, J. H. Schwartz, T. M. Jessell, Essentials
of Neural Science and Behavior (McGraw-Hill, 1997).
B. Rhodes, "The wearable remembrance agent: A system
for augmented memory," Proc. Int. Symp. on Wearable
Computers (ISWC) (1997) pp. 123.
C. Thompson, "Factory automation support
technology (FAST)," Proc. Int. Symp. on Wearable
Computers (ISWC) (1997) pp. 31.
Daude, "Mobile approach support system for future
machine tools," Proc. Int. Symp. on Wearable
Computers (ISWC) (1997) pp. 24.
M. Billinghurst, "Wearable computers for three
dimensional CSCW," Proc. Int. Symp. on Wearable
Computers (ISWC) (1997) pp. 39.
S. Mann, "An historical account of 'WearComp'
and 'Wearcam' inventions developed for applications in 'Personal Imaging'," Proc. Int. Symp. on Wearable Computers (ISWC) (1997) pp. 66.
A. P. Pentland, "The digital doctor: An experiment in wearable telemedicine," Proc. Int. Symp. on Wearable Computers (ISWC) (1997) pp. 173.
S. Feiner, "A touring machine: Prototyping 3D mobile augmented reality
systems for exploring the urban environment," Proc.
Int. Symp. on Wearable Computers (ISWC) (1997) pp. 74.
M. Bauer, "A collaborative wearable system
with remote sensing," Proc. Int. Symp. on Wearable
Computers (ISWC) (1998) pp. 10.
B. Thomas, "ARQuake: An outdoor/indoor
augmented reality first person application," Proc.
Int. Symp. on Wearable Computers (ISWC) (2000) pp. 139.
Y. Ohta, H. Tamura, Mixed Reality: Merging Real and
Virtual Worlds (Springer-Verlag, 1999).
V. Vlahakis, "Personalized augmented reality touring of
acheological sites with wearable and mobile computers," Proc.
Int. Symp. on Wearable Computers (ISWC) (2002) pp. 15.
C. Carr, "A wearable computer for support
of astronaut extravehicular activity," Proc.
Int. Symp. on Wearable Computers (ISWC) (2002) pp. 23.
T. Kawamura, "Wearable interfaces for a video
diary," Proc. Int. Symp. on Wearable Computers
(ISWC) (2002) pp. 3.
R. E. Jacobson, Applied Optics and Optical Engineering (Academic, 1965).
R. B. Huxford, "Wide FOV head mounted display using hybrid
optics," Proc. Optical Design and Engineering (2004).
T. M. Aye, "Compact HMD optics based on multiplexed
aberration compensated holographic optical elements," Proc.
SPIE Helmet- and Head-Mounted Display VI (2001).
J. E. Melzer, "Design
evolution of a wide field of view head-mounted display for aircraft training
and simulation," Proc. SPIE Helmet- and Head-Mounted
Display VI (2001).
F. J. Ferrin, "An update on optical systems for military
head mounted displays," Proc. SPIE Helmet- and
Head-Mounted Display IV (1999) pp. 178-185.
Ando, "Head mounted display using
holographic optical element," Proc. SPIE (1998) pp. 183-189.
K. Keller, D. Colucci, "Perception in HMDs: What is
it in head mounted displays (HMDs) that really make them all so terrible?," Proc. SPIE Helmet- and Head-Mounted Display III (1998).
Hoshi, "Off-axial HMD optical system
consisting of aspherical surfaces without rotational symmetru," Proc. SPIE (1996) pp. 234-242.
D. Colucci, V. Chi, "Computer glasses: A compact,
light weight and cost effective display for monocular and tiled wide field
of view systems," Proc. SPIE pp. 61-70.
J. S. Kollin, M. Tidwell, "Optical engineering challenges
of the virtual retinal display," Proc .SPIE pp. 48-60.
Bauer, "Optical coatings on polymers.
Advancements in polymer optics design, fabrication and materials," Proc. SPIE .
G. Kelly, M. Shenker, P. Weissman, "Helmet-mounted area of interest," Proc. SPIE (1992) pp. 58-63.
R. A. Buchroeder, "Distortion correction for oblique projection
onto a curved screen," Proc. SPIE (1995) pp. 96-104.
J. E. Melzer, "Integrated headgear for the future force
warrior and beyond," Proc. SPIE (2005) pp. 173-178.
Y. Ha, V. Smirnov, L. Glebov, J. Rolland, "Optical
modeling of a holographic single-element head-mounted display," Proc. SPIE (2004) pp. 254-260.
V. Shaoulov, R. Martins, J. Rolland, C. E. Rash, C. E. Reese, “Magnifying
miniature displays with microlenslet arrays”in Helmet-
and Head-Mounted Displays IX: Technologies and Applications. (2004).
K. M. Robinette, "Anthropometry for HMD design," Proc. SPIE Aerosense (1992) pp. 138-145.
Lippert, "Fundamental monocular/binocular HMD human factors," Proc. SPIE (1990) pp. 185-191.
Howlett, "Wide angle orthostereo," Proc. SPIE (1990) pp. 210-223.
D. Faklis, G. M. Morris, "Diffractive optics technology for display applications," Proc. SPIE (1995) pp. 57-61.
Y. Wang, L. Li, Q. Xin, "Optical design and fabrication in China," Int. Optical Design Conf. (2002).
P. J. Rogers, "The
optics/vision interface," Proc. Critical Rev. (1992).
P. Mouroulis, K. Lyons, G. Zhao, "Aberrration balancing in the
design of visually coupled lens systems," Proc.
R. R. Willey, M. E. Durham, "Ways
that designers and fabricators can help each other," Proc.
SPIE 1990 Int. Lens Design Conf. (1991).
D. Armitage, I. Underwood, S. T. Wu, Introduction to Microdisplays (Wiley, 2005).
M. Hoppe, J. Melzer, "Optical tiling for wide field-of-view
head-mounted displays," Proc. SPIE Conf. on
Current Developments in Optical Design and Optical Engineering VIII (1999).
A. Yoshida, J. P. Rolland, J. H. Reif, "Design and applications of
a high-resolution insert head-mounted display," Proc.
1995 Virtual Reality Annual Int. Symp. (1995) pp. 84-93.
D. Hasenauer, J. Kunick, "Full field mapping and analysis
of veiling glare sources for helmet mounted display systems," Proc. SPIE Conf. on Current Developments in Optical Design and
Optical Eng. VIII (1999).
Rodgers, Thompson, "Benefits of freeform mirror
surfaces in optical design," Proc. Amer. Soc.
for Precision Eng. (2004).
K. Garrard, T. Bruegge, J. Hoffman, T. Dow, A. Sohn, "Design tools for freeform optics," Proc. SPIE Current Developments in Lens Design and Optical Engineering
J. A. La Russa, Image forming
apparatus U.S. Patent 3 940 203 (1976).
A. L. Berman, J. E. Melzer, Optical
collimating apparatus U.S. Patent
4 859 031 (1989).
M. A. Karim, Electro-Optical Displays (Marcel Dekker, 1992).