이 특허를 인용한 특허 (105)

1. Josef Bille DE, Aberration-free imaging of the fundus of the human eye.

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2. Bille, Josef, Adaptive optics for compensating for optical aberrations in an imaging process.

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3. Baker, Phillip C., Analysis system for interferometric scanning of donor corneal tissue.

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4. Bille, Josef, Apparatus and method for creating a corneal flap.

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5. Lai, Shui T.; Dreher, Andreas, Apparatus and method for determining objective refraction using wavefront sensing.

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6. Liang Junzhong ; Burkhalter James H., Apparatus and method for measuring vision defects of a human eye.

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7. Rudolph W. Frey ; James H. Burkhalter ; Neil Zepkin ; Edward Poppeliers ; John Alfred Campin, Apparatus and method for objective measurement of optical systems using wavefront analysis.

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8. Maloney Robert K. ; Stewart Jeffrey L., Apparatus for evaluating the visual field of a patient.

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9. Abitol Marc,ILX ; Blum Ariel,ILX ; Halimi Alain,ILX ; Meimoun Elie,ILX, Apparatus for mapping optical elements.

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10. Knopp, Carl F.; Fountain, William D.; Orkiszewski, Jerzy; Persiantsev, Michael; Sklar, H. Alfred; Wysopal, Jan, Automated laser workstation for high precision surgical and industrial interventions.

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11. Knopp, Carl F.; Fountain, William D.; Orkiszewski, Jerzy; Persiantsev, Michael; Sklar, H. Alfred; Wysopal, Jan, Automated laser workstation for high precision surgical and industrial interventions.

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12. Fantone, Stephen D.; Wilk, Stephen R.; Zhang, Jian; Braunstein, Daniel J., Automated optical measurement apparatus and method.

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13. Fantone, Stephen D.; Wilk, Stephen; Zhang, Jian; Braunstein, Daniel J., Automated optical measurement apparatus and method.

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14. Josef Bille DE, Closed loop control for refractive laser surgery (LASIK).

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15. Campbell, Charles E., Combined wavefront and topography systems and methods.

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16. Bille, Josef F., Custom phase plate.

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17. Holliday, Keith; Arnoldussen, Mark E., Customized laser epithelial ablation systems and methods.

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18. Bille, Josef; Loesel, Frieder, Device and method for creating a corneal reference for an eyetracker.

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19. Curatu, Eugene, Dual-path optical system for measurement of ocular aberrations and corneal topometry and associated methods.

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20. Bille Josef F.,DEX, Ellipsometer.

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21. Hotto, Robert, Enhanced efficiency turbine.

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22. Hotto, Robert, Enhanced efficiency turbine.

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23. Dreher, Andreas W., Eyeglass manufacturing method using variable index layer.

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24. Dreher, Andreas W., Eyeglass manufacturing method using variable index layer.

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25. Dreher, Andreas W., Eyeglass manufacturing method using variable index layer.

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26. Dreher, Andreas W., Eyeglass manufacturing method using variable index layer.

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27. Dreher, Andreas W., Eyeglass manufacturing method using variable index layer.

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28. Dreher,Andreas W., Eyeglass manufacturing method using variable index layer.

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29. Dreher,Andreas W., Eyeglass manufacturing method using variable index layer.

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30. Dreher,Andreas W., Eyeglass manufacturing method using variable index layer.

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31. Frey, Rudolph W.; Burkhalter, James H.; Gray, Gary P.; Zepkin, Neil; Downes, Jr., George Richard; McWhirter, John E., Flying spot laser ablation method.

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32. Dreher, Andreas W., Improving vision in macular degeneration patients.

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33. Shimmick,John K., Integrated scanning and ocular tomography system and method.

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34. Shimmick,John K., Integrated scanning and ocular tomography system and method.

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35. Frey, Rudolph W.; Burkhalter, James H.; Gray, Gary P.; Zepkin, Neil; Downes, Jr., George Richard; McWhirter, John E., Laser beam delivery system.

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36. Bille, Josef, Laser beam delivery system with multiple focal points.

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37. John O'Connor ; Qiang Fu, Laser delivery system and method for photolithographic mask repair.

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38. Bille Josef F.,DEX, Method and apparatus for determining optical characteristics of a cornea.

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39. David R. Williams ; Junzhong Liang, Method and apparatus for improving vision and the resolution of retinal images.

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40. Williams David R. ; Liang Junzhong, Method and apparatus for improving vision and the resolution of retinal images.

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41. Williams, David R.; Liang, Junzhong, Method and apparatus for improving vision and the resolution of retinal images.

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42. Williams,David R.; Liang,Junzhong, Method and apparatus for improving vision and the resolution of retinal images.

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43. Bille,Josef, Method and apparatus for intrastromal refractive surgery.

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44. Lai,Shui T., Method and apparatus for laser surgery of the cornea.

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45. Allred, Lloyd G., Method and apparatus for making and processing aberration measurements.

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46. Bille Josef,DEX ; Loesel Frieder,DEX, Method and apparatus for measurement of the refractive properties of the human eye.

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47. Maloney Robert K. ; Stewart Jeffrey L., Method and apparatus for measuring properties of the eye using a virtual image.

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48. Davis, Brett A.; Collins, Michael J.; Iskander, Daoud R.; Roffman, Jeffrey H.; Ross, III, Denwood F., Method and apparatus for measuring wavefront aberrations.

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49. Bille Josef,DEX ; Loesel Frieder,DEX, Method and apparatus for precompensating the refractive properties of the human eye with adaptive optical feedback control.

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50. Dick, Manfred; Schroeder, Eckhard; Fiedler, Joachim, Method and device for performing online aberrometrie in refractive eye correction indices.

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51. Dick, Manfred; Schroeder, Eckhard; Fiedler, Joachim, Method and device for performing online aberrometry in refractive eye correction.

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52. Dick, Manfred; Schroeder, Eckhard; Fiedler, Joachim, Method and device for performing online aberrometry in refractive eye correction.

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53. Wegmann,Ulrich, Method and system for measuring the imaging quality of an optical imaging system.

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54. Wegmann,Ulrich, Method and system for measuring the imaging quality of an optical imaging system.

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55. Gerard Mourou ; Detao Du ; Subrata K. Dutta ; Victor Elner ; Ron Kurtz ; Paul R. Lichter ; Xinbing Liu ; Peter P. Pronko ; Jeffrey A. Squier, Method for controlling configuration of laser induced breakdown and ablation.

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56. Lai,Shui T.; Dreher,Andreas W., Method for determining objective refraction using wavefront sensing.

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57. Bille Josef,DEX, Method for programming an active mirror to mimic a wavefront.

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58. Josef Bille DE, Method for separating lamellae.

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59. Frey, Rudolph W.; Burkhalter, James H.; Gray, Gary P.; Zepkin, Neil; Downes, Jr., George Richard; McWhirter, John E., Method of ablating a moving eye.

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60. Frey, Rudolph W.; Burkhalter, James H.; Gray, Gary P.; Zepkin, Neil; Downes, Jr., George Richard; McWhirter, John E., Method of correcting vision.

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61. Farrer, Stephen W.; Raymond, Thomas D.; Xiong, Wei; Dixson, John; Neal, Daniel R., Method of locating valid light spots for optical measurement and optical measurement instrument employing method of locating valid light spots.

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62. Raymond, Thomas D.; Dixson, John G.; Farrer, Stephen W.; Xiong, Wei; Neal, Daniel R., Method of qualifying light spots for optical measurements and measurement instrument employing method of qualifying light spots.

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63. Frey, Rudolph W.; Burkhalter, James H.; Gray, Gary P.; Zepkin, Neil; Downes, Jr., George Richard; McWhirter, John E., Method of redirecting an ablating laser beam.

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64. Levine, Bruce Martin, Method of treating the human eye with a wavefront sensor-based ophthalmic instrument.

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65. Lai Shui T., Method of, and apparatus for, surgery of the cornea.

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66. Chernyak,Dimitri, Methods and devices for registering optical measurement datasets of an optical system.

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67. Chernyak, Dimitri, Methods and systems for tracking a torsional orientation and position of an eye.

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68. Chernyak, Dimitri, Methods and systems for tracking a torsional orientation and position of an eye.

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69. Chernyak, Dimitri A., Methods and systems for tracking a torsional orientation and position of an eye.

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70. Chernyak,Dimitri, Methods and systems for tracking a torsional orientation and position of an eye.

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71. Levine, Bruce M.; Wirth, Allan; Knowles, C. Harry, OPHTHALMIC INSTRUMENT WITH ADAPTIVE OPTIC SUBSYSTEM THAT MEASURES ABERRATIONS (INCLUDING HIGHER ORDER ABERRATIONS) OF A HUMAN EYE AND THAT PROVIDES A VIEW OF COMPENSATION OF SUCH ABERRATIONS TO THE H.

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72. Frey Rudolph W. ; Burkhalter James H. ; Zepkin Neil ; Poppeliers Edward ; Campin John A., Objective measurement and correction of optical systems using wavefront analysis.

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73. Frey Rudolph W. ; Burkhalter James H. ; Zepkin Neil ; Poppeliers Edward ; Campin John A., Objective measurement and correction of optical systems using wavefront analysis.

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74. Levine, Bruce M., Ophthalmic instrument having adaptive optic subsystem with multiple stage phase compensator.

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75. Levine, Bruce Martin, Ophthalmic instrument having an integral wavefront sensor and display device that displays a graphical representation of high order aberrations of the human eye measured by the wavefront sensor.

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76. Wirth, Allan, Ophthalmic instrument having hartmann wavefront sensor deriving location of spots with spot fitting techniques.

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77. Wirth, Allan, Ophthalmic instrument having wavefront sensor with multiple imaging devices that simultaneously capture multiple images of an array of spots produced by a lenslet array.

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78. Nevyas, Herbert J.; Nevyas Wallace, Anita, Ophthalmic operative keratometer with movable fixation/centration device.

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79. Ross, Denwood F.; Bille, Josef; Schottner, Michael; Mueller, Frank, Ophthalmic wavefront measuring devices.

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80. Mihashi Toshifumi,JPX ; Fukuma Yasufumi,JPX, Optical characteristic measuring apparatus.

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81. Mihashi, Toshifumi; Fukuma, Yasufumi, Optical characteristic measuring apparatus.

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82. Gross, Erik; Campbell, Charles, Optical surface shape determination by mapping a lenslet array spot pattern to a spatial frequency space.

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83. Gross, Erik; Campbell, Charles, Optical surface shape determination by mapping a lenslet array spot pattern to spatial frequency space.

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84. Allred, Lloyd G.; McBeth, Jeffrey B.; Eagan, Barry, Power-adjusted aberrometer.

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85. Williams David R. ; Vaughn William J. ; Singer Benjamin D. ; Hofer Heidi ; Yoon Geun-Young, Rapid, automatic measurement of the eye's wave aberration.

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86. Williams David R. ; Vaughn William J. ; Singer Benjamin D. ; Hofer Heidi ; Yoon Geun-Young ; Artal Pablo,ESX ; Aragon Juan Luis,ESX ; Prieto Pedro,ESX ; Vargas Fernando,ESX, Rapid, automatic measurement of the eye's wave aberration.

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87. Gross, Erik; Campbell, Charles, Spatial frequency wavefront sensor system and method.

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88. Ross, Denwood F.; Bille, Josef; Schottner, Michael; Mueller, Frank, Subjective refinement of wavefront measurements.

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89. Bille, Josef F., System and method for assessing risk of glaucoma onset.

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90. Bille, Josef F., System and method for assessing risk of glaucoma onset.

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91. Farrer, Stephen W.; Powers, W. Shea; Neal, Daniel R.; Voss, Larry B., System and method for corneal topography with flat panel display.

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92. Farrer, Stephen W.; Powers, W. Shea; Neal, Daniel R.; Voss, Larry B., System and method for corneal topography with flat panel display.

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93. Campbell, Charles E.; Farrer, Stephen W.; Neal, Daniel R.; Powers, William S.; Raymond, Thomas D., System and method for measuring corneal topography.

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94. Horwitz, Larry S., System and method for wavefront measurement.

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95. Roffman Jeffrey H. ; Collins Michael J.,AUX ; Davis Brett A.,AUX ; Ross ; III Denwood F., System and method of integrating corneal topographic data and ocular wavefront data with primary ametropia measurements to create a soft contact lens design.

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96. Horwitz,Larry S., System and methods for wavefront measurement.

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97. Blum, Ronald D.; Duston, Dwight P.; Katzman, Dan, System, apparatus and method for correcting vision with an adaptive optic.

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98. Blum, Ronald D.; Duston, Dwight P.; Katzman, Dan, System, apparatus and method for correcting vision with an adaptive optic.

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99. Blum, Ronald D.; Duston, Dwight P.; Katzman, Dan, System, apparatus and method for correcting vision with an adaptive optic.

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100. Campbell, Charles E.; Farrer, Stephen W.; Neal, Daniel R.; Powers, William S.; Raymond, Thomas D.; Copland, James, Systems and methods for measuring the shape and location of an object.

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101. Kuhn,Tobias; von Pape,Ulrich, Systems and methods for shaping wavefronts in polychromatic light using phase shifting elements.

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102. Horwitz,Larry S., Systems and methods for wavefront measurement.

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103. Neal, Daniel R.; Copland, Richard J., Tomographic wavefont analysis system and method of mapping an optical system.

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104. Levine,Bruce Martin, Wavefront sensing apparatus with adaptive optics.

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105. Pettit, George H., Wavefront sensor for objective measurement of an optical system and associated methods.

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