References
- Shaomin, W. and Ronchi, L., “Principles and design of optical arrays”. Progress in Optics, E. Wolf, vol XXV, 279-348, North-Holland, Amsterdam, 1988.
- Stauffer, N. and Wilwerding, D., “Electronic focus for cameras”, Scientific Honey-weller, 3(1), 1-13 (1982).
- Daly, D., Stevens, R. F., Hutley, M. C. and Davies, N., “The manufacture of microlenses by melting photoresist”, Mens. Sci. Technol., 1, 759-766 (1990).
- Ives, F., “Parallax stereogram and process of making same”. US patent, 725,567 (1903).
- Hess, W., “Improved manufacture of stereoscopic pictures”. UK patent, 13 034 (1912).
- Kanolt, C. W., “Photographic method and apparatus”. US patent 1260682 (1918).
- British J. Photogr., 81(3868), 367-384 (1934).
- Dudley, L. P., Stereoptics. MacDonald and Co. Ltd., London (1951).
- Courtney-Pratt, J. S., “Image dissection in high speed photography”. Proc. Int. Conf. on the Science of Photography, Cologne (1956).
- Dubovik, A., The Photographic Recording of High-speed Processes. Wiley, New York.
- Bonnet, M., “Device for recording and reproducing stereoscopic pictures”. US pa¬tent, 3675554 (1972).
- Curr, T. N., Dearnley, D. J. and Warren, R., “Application of photographic techniques to briquetting research”. Photography in Engineering, paper 11, Inst. Mech Engineers, 1969.
- Rudge, W. E., Harding, W. E. and Mutter, W. E., “Fly’s-eye lens technique for generating semiconductor device fabrication masks”. IBM Journal, 146-150, April 1963.
- Newman, P. A. and Rible, V. E., “Pinhole array camera for integrated circuits”. Appl. Opt., 5(7), 1225-1228 (1966).
- Hooke, R., Preface to Micrographia. The Royal Society of London (1665).
- Allen, R. M., The History of the Microscope, Chapt. 1, “The Microscope”, D Van Nostrand Co. Inc., New York.
- Popovic, Z. D., Sprague, R. A. and Neville Connell, G. A., “Technique for monolithic fabrication of microlens arrays”, Appl. Opt., 27(7), 1281-1284 (1988).
- Kawazu, M. and Ugura, Y., “Application of gradient-index fiber arrays to copying machines”, Appl. Opt., 19(7), 1105-1112 (1980).
- Rees, J. D., “Office applications of gradient-index rods”, SPIE, vol. 935 “Gradient Index Optics and Miniature Optics”, 27-51 (1988).
- Borrelli, N. F., Morse, D. L., Bellman, R. H. and Morgan, W. L., “Photolytic technique for producing microlenses in photosensitive glass”, Appl. Opt., 24(6), 2520-2525 (1985).
- Anderson, R. H., “Close-up imaging of documents and displays with lens arrays,”, Appl. Opt., 18(4), 477-484 (1979).
- Gabor, D., “Improvements in or relating to optical systems composed of lenticules”, UK patent, 541753 (1941).
- de Lassus Saint Genies, A. H. J., “Improvements in or relating to photography in relief”. UK patent, 506540 (1939).
- Lippmann, G., J. de Physique, 3, 97 (1894).
- Lippmann, G., “Epreuves reversibles. Photographies integrales”, Comptes Rendus, 146, 446-451 (1908).
- Lippmann, G., “Epreuves reversibles donnant la sensation du relief”, J. de Physique. Theoriquee et Appliquee, 7, 821-825 (1908).
- Estanave, E., “Contribution a la realisation de la photographie integrale”, Comptes Rendus, 180, 1255-1257 (1925).
- de Montebello, R. L., “Wide-angle photography—the Integram system”, Three-dimensional imaging, SPIE, 120, 73-91 (1977).
- Burckhardt, C. B., “Optimum parameters and resolution limitation of integral photography”, J. Opt. Soc. Am., 58(1), 71-76 (1968).
- Okoshi, T., “Optimum design and depthresolution of lens-sheet and projection type three-dimensional displays”, Appi. Opt., 10(10), 2284-2291 (1971).
- Ives, H., “Optical properties of a Lippmann lenticulated sheet”, J. Opt. Soc. Am., 21, 171-176 (1931).
- Burckhardt, C. B., Collier, R. J. and Doherty, E. T., “Formation and inversion of pseudoscopic images”, Appi. Opt., 7(3), 627-631 (1968).
- Young, M., “Single step process for obtaining virtual, orthoscopic images by integral photography”, Physics Letts., 28A(5), 355 (1968).
- Dudinkov, Y. A., “Elimination of image pseudoscopy in integral photography”, Sov. J. Opt. Techn., 38(3), 140-143 (1971).
- Davies, N., McCormick, M. and Li Yang, “Three-dimensional imaging systems: a new development”, Appi. Opt., 27(21), 4520-4528 (1988).
- Collier, R. J., “Holography and integral photography”, Physics Today, pt 7, 54-63 (1968).
- Gabor, D., “Microscopy by reconstructed wave-fronts”, Proc. Roy. Soc. A, 197, 454-487 (1949).
- Chutjian, A. and Collier, R. H., “Recording and reconstructing three-dimensional images of computer-generated subjects by Lippmann integral photography”, Appi. Opt., 7(1), 99-103 (1968).
- Marraud, A., Bonnet, M. and Rambourg, A., “Lenticular sheet 3-D pictures and 3-D projections”, SPIE, voi. 212, “Optics and photonics applied to three-dimensional im agery” (1979).
- Rozhkov, B. K., “Compensation of longitudinal distortions in lens-array photography”, Sov. J. Opt. Technol., 46(6), 368-369 (1979).
- Dudnikov, Y. A., “Effect of three-dimensional moiré in integral photography”, Sov. J. Opt. Techn., 41(5), 260-262 (1974).
- Ives, H., “Reflecting screens for relief picture projection”, J. Opt. Soc. Am., 21, 109-118 (1931)
- Okoshi, T., Yano, A. and Fukumori, Y., “Curved triple-mirror screen for projection-type three-dimensional display”, Appi. Opt., 10(3), 482-489 (1971).
- Palmer, D. A., “Retroreflective materials and optical imaging”, Appi. Opt., 24(10), 1413-1414 (1985).
- Jacobs, S., “Experiments with retrodirective arrays”, Opt. Eng., 21(2), 281-283 (1982).
- Moorhusen, R. W., “Lens strip optical scanning system”, US Patent 3,544,190 (1970).
- Dultz, W., “The cycloramic display, a 360° display using the moiré-enlargement of periodic picture arrays”, Optik, 80(1), 9-19 (1988).
- Cowan, J. J., “Holographic honeycomb microlens”, Opt. Eng., 24(5), 796-802 (1985).
- Dudnikov, V. A. and Rozhkov, B. K., “On the possibility of using the integral photography method for stereophotogrammetry of objects at close range”, Sov. J. Opt. Techn., 43(11), 646-648 (1976).
- Pole, R. V., “3-D Imagery and holograms of objects illuminated in white light”, Appl. Phys. Letts., 10(1), 20-22 (1967).
- Kakichashvili, S. D., “Focussed integrated-image holography of long objects”, Sov. J. Opt. Techn., 37(10), 641-643 (1970).
- Stevens, R. F., “Improved resolution from retroreflective screens by spectral smearing”, J. Photogr. Sci., 39, 193-198 (1991).