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Publication List:  Michael C. Roggemann

 

Book

 

M. C. Roggemann, and B. M. Welsh, Imaging Through Turbulence, CRC Press, Boca Raton, FL, 1996.  Reviewed in Optical Engineering, vol. 35, p3361, 1996.

 

Short Course

 

M. C. Roggemann, and B. M. Welsh, "Imaging Through Turbulence", SPIE short course taught yearly from 1991 to 1999.

 

Refereed Archival Technical Journal Articles

 

1.  Weidong Yang, Michael C. Roggemann, Kyle Cooper, William Buller, Nikola Subotic, Christopher Middlebrook, Glenn D. Boreman, “The IR antenna pair coupled sensor element and its potential application in wavefront sensing”, submitted to Infrared Physics & Technology, June 13, 2007.

 

2.  Christopher Middlebrook, Michael Roggemann, Glenn Boreman, Nikola Subotic, Kyle Cooper, William Buller, Weidong Yang, Javier Alda, “Measurement of the mutual coherence function of an incoherent infrared field with a gold nano-wire dipole antenna array”, accepted for publication in the International Journal of Infrared and Millimeter Waves, October 10, 2007.

 

3.  Mathieu Aubailly and Michael C. Roggemann, “An approach for reconstructing anisoplanatic adaptive optics images”, Appl. Opt., vol. 46, p6055-6063, 2007.

 

4.  P. Piatrou and M. Roggemann, "Beaconless stochastic parallel gradient descent laser beam control: numerical experiments," Appl. Opt., vol 46, p6831-6842, 2007.

 

5.  Hart, N; M. C. Roggemann, A. Sergeyev, and T. J. Schulz, “Characterizing static aberrations in liquid crystal spatial light modulators using phase retrieval”, Opt. Eng., vol. 46(08), p086601, 1 August 2007.

 

6.  P. Piatrou and M. C. Roggemann, “Performance Study of Kalman Filter Controller for Multi Conjugate Adaptive Optics”, Appl. Opt., vol. 46, p1446-1455, 2007.

 

7.  M-A. Cauquy, M. C. Roggemann, and T. J. Schulz, “Distance-based and neural-net-based approaches for classifying satellites using spectral measurements”, Opt. Eng., vol. 45, p036201-1 - 036201-7, 2006.

 

8.  B. Calef, E. Therkildsen, and M. C. Roggemann, “Wave front sensor-based frame selection”, Opt. Eng., vol. 44, p 116003-1 – 116003-8, 2006.

 

9.  J. T. Beyer, M. C. Roggemann, L. J. Otten, T. J. Schulz, T. C. Havens, and W. W. Brown, “Experimental Estimation of the Spatial Statistics of Turbulence-Induced Index of Refraction Fluctuations in the Upper Atmosphere”, Applied Optics, vol. 42, p908-921, 2003.

 

10.  T. C. Havens, M. C. Roggemann, T. J. Schulz, W. W. Brown, J. T. Beyer, and L. J. Otten, “A measurement and data processing approach for detecting anisotropic spatial statistics of the turbulence-induced index of refraction fluctuations in the upper atmosphere”, Applied Optics, vol. 41, p2800-2808, 2002.

 

11.  M. C. Roggemann and J. G. Williams, “Use of atomic force microscope to measure surface deformations in poymeric systems”,  Journal of Adhesion Science and Technology, Vol. 16, p905-920, 2002.

 

12.  M. C. Roggemann, and W. R. Reynolds, “A block matching algorithm for mitigating aliasing effects in undersampled image sequences”, Opt. Eng., vol. 41, p359-369, 2002.

 

13.  J. B. Burl, M. C. Roggemann, and B. M. Welsh, “Tilt estimation in moderate to strong scintillation”, Appl. Opt.,, vol. 40, p2966-2972, 2001.

 

14.  B. L. Evans, J. B. Martin, L. W. Burggraf, and M. C. Roggemann, “Demonstration of energy-coded Compton scatter tomography with fan beams for one-sided inspection”, accepted for publication in Nuclear Instruments and Methods, March 2001.

 

15.  W. W. Brown, M. C. Roggemann, T. J. Schulz, T. C. Havens, J. T. Beyer, and L. J. Otten, “A measurement and data processing approach for estimating the spatial statistics of turbulence-induced index of refraction fluctuations in the upper atmosphere”, Applied Optics, vol 40, p1863-1871, 2001.

 

16.  M. C. Roggemann, and A. C. Koivunen, “Wave front sensing and deformable mirror control in strong scintillation”, J. Opt. Soc. Am. A, vol. 17, p911-919, 2000.

 

17.  M. C. Roggemann, and A. C. Koivunen, “Branch point reconstruction in laser beam projection through turbulence with finite degree of freedom phase only wave front correction”, J. Opt. Soc. Am. A, vol. 17, p53-62, 2000.

 

18.  W. D. Cowan, M. K. Lee, B. M. Welsh, V. M. Bright, and M. C. Roggemann, “Surface micromachined segmented mirrors for adaptive optics”, IEEE Journal of Selected Topics in Quantum Electronics, vol. 5, p90-101, 1999.

 

19.  B. L. Evans, J. B. Martin, and M. C. Roggemann, “Deconvolution of shift-variant broadening for Compton scatter imaging”, Nuclear Instruments and Methods in Physics Research A, vol. 422, p661-666, 1999.

 

20.  D. J. Lee, M. C. Roggemann, and B. M. Welsh, “Cramer-Rao analysis of phase-diverse wave front sensing”, J. Opt. Soc. Am. A, vol. 16, p1005-1015, 1999.

 

21.  M. C. Roggemann, T. J. Schulz, C. W. Ngai, and J. T. Kraft, “Joint processing of Hartmann sensor and conventional image measurements to estimate large aberrations:  theory and experimental results”, Applied Optics, vol. 38, p2249 - 2255, 1999.

 

22.  S. D. Ford, B. M. Welsh, and M. C. Roggemann, “Reconstruction of turbulence-degraded images using the vector Wiener filter”, Optical Engineering, vol. 37, p2491-2500, 1998.

 

23.  W. D. Cowan, M. K. Lee, B. M. Welsh, V. M. Bright, and M. C. Roggemann, “Optical Phase Modulation Using a Refractive Lenslet Array and Micro-Electro-Mechanical Deformable Mirror”,  Opt. Eng., vol. 37, p3237-3247, 1998.

 

24.  M. C. Roggemann, V. M. Bright, B. M. Welsh, W. D. Cowan, and M. Lee, “Micro-electro-mechancial deformable mirrors for aberration control in optical systems”, Quantum and Optical Electronics, vol. 31, p451-468, 1999.

 

25.  M. K. Lee, W. D. Cowan, B. M. Welsh, V. M. Bright, and M. C. Roggemann, “Aberration correction results from a segmented microelectromechanical deformable mirror and a refractive lenslet array”, Optics Letters, vol. 23, p645-647, 1998.

 

26.  M. C. Roggemann, and T. J. Schulz, “Algorithm to increase the largest aberration which can be reconstructed from Hartmann sensor measurements”, Appl. Opt.,.vol. 37, p4321-4329, 1998.

 

27.  B. L. Evans, J. B. Martin, L. W. Burggraf, and M. C. Roggemann, “Nondestructive inspection using Compton scatter tomography”, IEEE Transactions on Nuclear Science, vol. 45, p950-956, 1998.

 

28.  W. W. Arrasmith, M. C. Roggemann, and B. M Welsh, “Optimal wave front reconstruction for a coherent diffracted field”, Applied Optics, vol. 37, p4457-4467, 1998.

 

29.  M. R. Whiteley, B. M. Welsh, and M. C. Roggemann, “Limitations of Gaussian assumptions for the irradiance distribution in digital imagery:  nonstationary image ensemble considerations”, J. Opt. Soc. Am. A, vol. 15, p802-810,  1998.

 

30.  M. R. Whiteley, M. C. Roggemann, and B. M. Welsh, “Temporal properties of the Zernike expansion coefficients of turbulence-induced phase aberrations for aperture and source motion”, J. Opt. Soc. Am. A, vol. 15, p993-1005, 1998.

 

31.  M. C. Roggemann, and D. J. Lee, “Two deformable mirror concept for correcting scintillation effects in laser beam propagation through the turbulent atmosphere”, Appl. Opt., vol. 37, p4577-4585, 1998.

 

32.  M. C. Roggemann, V. M. Bright, B. M. Welsh, S. R. Hick, P. C. Roberts, W. D. Cowan, and J. H. Comtois, “Use of micro-electro-mechanical mirrors to control aberrations in optical systems:  theoretical and experimental results”, Optical Engineering, vol. 36, p1326-1338, 1997.

 

33.  M. C. Roggemann, and D. W. Tyler, “Model-based image reconstruction by means of a constrained least squares solution”, Appl. Opt., vol 36, p2360-2369, 1997.

 

34.  M. C. Roggemann, B. M. Welsh, and R. Q. Fugate, “Improving the resolution of ground-based telescopes”, Reviews of Modern Physics, vol. 69, p437-505, 1997.

 

35.  M. C. Roggemann, C. A. Hyde, and B. M. Welsh, “Comparison of Fourier phase spectrum estimation using deconvolution from wave front sensing and bispectrum reconstruction”, Optics Communications, vol. 133, p381-392, 1997.

 

36.  D. J. Lee, M. C. Roggemann, and B. M. Welsh, “Evaluation of the least-squares phase diversity technique for space telescope wave front sensing”, Appl. Opt., vol. 36, p9186-9197, 1997.

 

37.  R. T. Brigantic, M. C. Roggemann, K. W. Bauer, and B. M. Welsh, “Image quality metrics for characterizing adaptive optics system performance”, Appl. Opt., vol. 36, p6583-6593, 1997.

 

38. P. J. Gardner, M. C. Roggemann, B. M. Welsh, R. D. Bowersox, and T. E. Luke, “Comparison of measured and computed Strehl ratios for light propagated through a channel flow of a He/N2 mixing layer at high Reynolds number”, Applied Optics, vol. 36, 2559-2567, 1997.

 

39.  R. T. Brigantic, M. C. Roggemann, B. M. Welsh, and K. W. Bauer, “Optimization of adaptive optics systems closed loop bandwidth to maximize imaging system performance”, Applied Optics, vol. 37, p848-855, 1998.

 

40.  S. D. Ford, B. M. Welsh, M. C. Roggemann, and D. J. Lee, “Reconstruction of low light limages using the vector Wiener filter”, J. Opt. Soc. Am. A, vol. 14, p2678-2691, 1997.

 

41.  D. J. Lee, B. M. Welsh, M. C. Roggemann, and B. L. Ellerbroek, “Diagnosing unknown aberrations in an adaptive optics system using phase diversity”, Optics Letters, vol. 22, p952-954, 1997.

 

42.  D. A. Montera, B. M. Welsh, and M. C. Roggemann, “Prediction of wave front sensor slope measurements using artificial neural networks”, Appl. Opt., vol. 36, p675-681, 1997.

 

43.  E. E. Silbaugh, B. M. Welsh, and M. C. Roggemann, “Characterization of atmospheric turbulence phase statistics using wave front slope measurements”, J. Opt. Soc. Am. A, vol. 13, p2453-2460, 1997.

 

44.  S. A. Sallberg, B. M. Welsh, and M. C. Roggemann, “Maximum a posteriori estimation of wave front slopes using a Shack-Hartmann wave front sensor”, J. Opt. Soc. Am. A, vol. 14, p1347-1354, 1997.

 

45.  M. C. Roggemann, P. J. Gardner, B. M. Welsh, R. D. W. Bowersox, and D. W. Jewell, “Gas flow visualization by means of sheared beam interferometry:  sensitivity, dynamic range, and integrated density estimation”, Measurement, vol. 17, p251-265, 1996.

 

46.  M. C. Roggemann, “Photon noise limits to the detection of closure phase in optical interferometry”, Appl. Opt., vol. 35, p1809-1815, 1996.

 

47.  S. D. Ford, M. C. Roggemann, and B. M. Welsh, “Frame selection performance limits for statistical image reconstruction of adaptive optics compensated images”, Optical Engineering, vol 35, p1025-1034, 1996.

 

48.  P. J. Gardner, M. C. Roggemann, B. M. Welsh, R. D. Bowersox, and T. E. Luke, “Statistical anisotropy in free turbulence for mixing layers at high Reynolds numbers”, Applied Optics, vol. 35, p4879-4889, 1996.

 

49.  M. R. Whiteley, M. C. Roggemann, R. O. Johnson, and S. K. Rogers, “Detection of military vehicles using infrared spectral radiometric signatures”, Optical Engineering, vol. 35, p3531-3548, 1996.

 

50.  D. A. Montera, B. M. Welsh, M. C. Roggemann, and D. W. Ruck, “Processing wavefront slope sensor measurements using artificial neural nets”, Appl. Opt., vol. 35, p4238-4251, 1996.

 

51.  D. A. Montera, B. M. Welsh, and M. C. Roggemann, “Use of artificial neural networks for Hartmann sensor lenslet centroid estimation”, Appl. Opt., vol. 35, p5747-5757, 1996.

 

52.  M. C. Roggemann, B. M. Welsh, R. L. Johnson, and B. L. Pedersen, "Turbulence sensing by means of optical wavefront sensor measurements and tomographic reconstruction", Opt. Eng., vol. 34, p1374-1384, 1995.

 

53.  M. C. Roggemann, B. M. Welsh, D. Montera, and T. A. Rhoadarmer, "Method for simulating atmospheric turbulence phase effects for multiple time slices and anisoplanatic conditions", Appl. Opt., vol. 34, p4037-4051, 1995.

 

54.  M. C. Roggemann, B. L. Ellerbroek, and Troy A. Rhoadarmer, "Widening the effective field-of-view of adaptive optics telescopes using deconvolution from wavefront sensing:  average and signal-to-noise ratio behavior", Appl. Opt., vol. 34, p1432-1444, 1995.

 

55.  C. L. Matson, and M. C. Roggemann, "Noise reduction in adaptive optics imagery with the use of support constraints", Appl. Opt., vol. 34, p767-780, 1995.

 

56.  B. M. Welsh, and M. C. Roggemann, "Signal-to-noise comparison of deconvolution from wavefront sensing with traditional linear and speckle image reconstruction", Appl. Opt., vol. 34, p2111-2119, 1995.

 

57.  S. D. Ford, B. M. Welsh, and M. C. Roggemann, “Constrained least-squares estimation in deconvolution from wave front sensing”, Optics Communications, vol. 151, p93-100, 1998.

 

58.  B. M. Welsh, B. L. Ellerbroek, M. C. Roggemann, and T. L. Pennington, “Fundamental performance comparison of a Hartmann and a shearing interferometer wave front sensor”, Appl. Opt., vol. 34, p4186-4195, 1995.

 

59.  S. E. Troxel, B. M. Welsh, and M. C. Roggemann, "Anisoplanatism effects on signal-to-noise ratio performance of adaptive optics systems", J. Opt. Soc. Am.-A, vol. 12, p570-577, 1995.

 

60.  M. C. Roggemann and B. M. Welsh, "Signal-to-noise ratio for astronomical imaging by deconvolution from wavefront sensing", Appl. Opt., vol 33, p5400-5414, 1994.

 

61.  M. C. Roggemann, B. M. Welsh, and J. Devey, "Biased estimators and object-spectrum estimation in the method of deconvolution from wavefront sensing", Appl. Opt., vol. 33, p5754-5763, 1994.

 

62.  M. C. Roggemann, C. A. Stoudt, and B. M. Welsh, "Image spectrum signal-to-noise ratio improvements by statistical frame selection for adaptive optics imaging through atmospheric turbulence", Opt. Eng., vol. 33, p3254-3264, 1994.

 

63.  M. C. Roggemann, E. L. Caudill, D. W. Tyler, M. J. Fox, M. A. Von Bokern, and C. L. Matson, "Compensated speckle imaging:  theory and experimental results", Appl. Opt., vol. 33, p3099-3110, 1994.

 

64.  S. E. Troxel, B. M. Welsh, and M. C. Roggemann, "Off-axis optical transfer function calculations in an adaptive-optics system by means of a diffraction calculation for weak index fluctuations", J. Opt. Soc. Am. A, vol. 11, p2100-2111, 1994.

 

65.  M. C. Roggemann, and J. A. Meinhardt, "Image reconstruction by means of wavefront sensor measurements in closed loop adaptive optics systems", J. Opt. Soc. Am.-A, vol. 10, p1996-2007, 1993.

 

66.  M. C. Roggemann and C. L. Matson, "Power spectrum and Fourier phase spectrum estimation by using fully and partially compensating adaptive optics and bispectrum post-processing", J. Opt. Soc. Am.-A, vol. 9, p1525-1535, 1992.

 

67.  M. C. Roggemann, D. W. Tyler, and M. F. Bilmont, "Linear reconstruction of compensated images:  theory and experimental results", Appl. Opt., vol. 31, p749-7441, 1992.

 

68.  M. C. Roggemann, "Optical performance of fully and partially compensated adaptive optics systems using least-squares and minimum variance reconstruction", Comp. & Elec. Eng., vol. 18, p451-466, 1992.

 

69.  M. C. Roggemann, "Limited degree-of-freedom adaptive optics and image reconstruction", Appl. Opt., vol. 30, p4227-4233, 1991.

 

70.  M. C. Roggemann, J. P. Mills, S. K. Rogers, and M. Kabrisky, "Segmentation of noisy range images using the small-scale planarity of man-made vehicles", Opt. Eng., vol. 30, p408-414, 1991.

 

Book Chapter

 

B. M. Welsh, and M. C. Roggemann, "Evaluating the performance of adaptive optical telescopes", in NATO Advanced Study Institute, Adaptive Optics for Astronomy (D. Alloin and J. M. Mariotti, eds.), Kluwer Academic Publishers, 1993.

 

Conference Papers, Unrefereed Papers, and Presentations

 

1.  M. C. Roggemann, P. Billings, and J. Houchard, “The effects of Gray Scale Quantization and Saturation on MFBD and Bispectrum SSA Image Reconstructions”, Proc of the AMOS Technical Conference, Sept, 2007.

 

2.  G. H. Soehnel, M. C. Roggemann, and G. A. Archer, “Compensating Atmospheric Turbulence Effects at High Zenith Angles with Adaptive Optics Using Advanced Phase Reconstructors, and Post-detection Image Reconstruction”, Proc of the AMOS Technical Conference, Sept, 2007.

 

3.  M. C. Roggemann, P. Billings, and J. Houchard, “Numerical studies of the value of including pupil intensity information in multi-frame blind deconvolution calculations for data measured in the presence of scintillation” Proc of the AMOS Technical Conference, Sept, 2007.

 

4.  M. C. Roggemann, G. Soehnel, G. E. Archer, and T. J. Schulz, “Wave front control and image resonstruction techniques for imaging space objects at large zenith angles”, Proc of the AMOS Technical Conference, Sept, 2006.

 

5.  Aleksandr V. Sergeyev, Michael C. Roggemann, Timothy J. Shulz, “Bootstrap Beacon Creation for Dynamic Wavefront Compensation”, Proc. SPIE, vol. 6306, paper #6306-30, San Diego, CA, 2006.

 

6.  T. J. Schulz, M. C. Roggemann, and B. Liu, “Eigen-focus beam control for target-in-the-loop”, Proc. SPIE, vol. 5895, paper #5895-20, San Diego, 2005.

 

7.  P. Piatrou and M. C. Roggemann, “Performance analysis of Kalman filter and minimum variance controllers for multi conjugate adaptive optics”, Proc. SPIE, vol. 5894, paper #5894-33, Sand Diego, CA, 2005.

 

8.  M. C. Roggemann, T. J. Schulz, A. Sergeyev, and G. Soehnel, “Beacon creation and characterization for beam control in strong turbulence”, Proc. SPIE, vol. 5895, paper #5895-06, San Diego, CA, 2005.

 

9.  M. Aubailly and M. C. Roggemann, Block-processing method for post-detection correction of anisoplanatic image detects in astronomical adaptive optics images”, Proc. of the AMOS Technical Conference, Sept, 2005, p131-137.

 

10.  M. C. Roggemann, “Fundamental considerations for wavefront sensing with extended random beacons”, Proc. SPIE, vol. 5552, p189-199, 2004.

 

11.  Marie-Astrid A. Cauquy, Michael C. Roggemann, Timothy J. Schulz, “Approaches for Processing Spectral Measurements of Reflected Sunlight for Space Situational Awareness”, Proceedings of the SPIE Conference on Signal and Data Processing of Small Targets, vol. 5428, p48-57, 2004.

 

12.  Marie-Astrid A. Cauquy, Michael C. Roggemann, Timothy J. Schulz, “Spectral Unmixing to Estimate Materials on Satellite Surface”, Proceedings of the 36th Southeastern Symposium on System Theory (Atlanta), IEEE Press, p11-15, 2004.

 

13.  Ronald Kizito, Michael. C. Roggemann, Timothy J. Schulz and Yanchai Zhang, “Image sharpness metric-based deformable mirror control for beam projection systems operating in strong scintillation”, in SPIE Proceedings on Free-Space Laser Communication and Active Laser Illumination III, David G. Voelz and Jennifer C. Ricklin, Proc. SPIE 5160, August 2003, San Diego.
 
14.  Y. Zhang, M. C. Roggemann, T. J. Schulz, and R. Kizito, “Compensation of Laser Beam Projection through Turbulence in Multi-mirror Adaptive Optics System with Phase Retrieval Method”, in SPIE Proceedings on Free-Space Laser Communication and Active Laser Illumination III, David G. Voelz and Jennifer C. Ricklin,
Proc. SPIE 5160, August 2003, San Diego, p98-106.

 

15.  E. P. Magee, M. C. Roggemann, and A. S. Kondrath, “Noise limited resolution for space-based earth observing telescopes”, Proceedings of the SPIE on Airborne Reconnaissance XXVI, vol. 4824, paper # 26, Seattle, WA, July, 2002.

 

16.  L. J. Otten, A. Jones, D. Black, J. Lane, R. Hugo, M. C. Roggemann, and J. T. Beyer, “Precision Tropopause Turbulence Measurements’’, Proc. SPIE on Propagation and Imaging through the Atmosphere, vol. 4125 ,M. C. Roggemann, ed., p33-40, 2000.

 

17.  M. C. Roggemann, “Adaptive Optics - Past, Present, and Future”, invited paper presented at the Annual Meeting of the Optical Society of America, Providence, Rhode Island, October, 2000.

 

18.  M. C. Roggemann, B. M. Welsh, and T. L. Klein, “Algorithm to reduce anisoplanatism effects on infrared images”, Proceedings of the SPIE on Wave Propagation and Imaging Through the Atmosphere IV, vol. 4125, p140-149, July 2000.

 

19.  B. R. Stone, B. M. Welsh, and M. C. Roggemann, “Far field shaping and steering using phase retrieval-based wave front control”, Proceedings of the SPIE on High Resolution Wavefront Control, SPIE paper number 4124-24, San Diego, July, 2000.

 

20.  B. M. Welsh, M. C. Roggemann, and A. Schepler, “Tracking and higher order correction tradeoffs for beam correction through strong turbulence”, Proceedings of the SPIE on Wave Propagation and Imaging Through the Atmosphere, SPIE paper number 4125-9, San Diego, July 2000.

 

21.  T. J. Schulz, Wei Sun, and M. C. Roggemann, “Cramer-Rao bounds for estimation of turbulence-induced wave front aberrations”, SPIE paper number 3763-03, Denver, July, 1999.

 

22.  M. C. Roggemann, T. J. Schulz, C. W. Ngai, and J. T. Kraft, “Joint processing of Hartmann sensor and conventional image measurements to estimate large aberrations”, SPIE paper number 3815-21, Denver, July, 1999.

 

23.  M. C. Roggemann, and S. Deng, “Scintillation compensation for laser beam projection using segmented deformable mirrors”, SPIE paper number 3763-04, Denver, 1999.

 

24.  B. Wang, A. C. Koivunen, and M. C. Roggemann, “Comparison of branch point, two dimensional phase unwrapping, and least squares reconstructors for laser beam transmission through the atmosphere”, SPIE paper number 3763-05, Denver, 1999.

 

25.  M. C. Roggemann and L. J. Otten, “Design of an anemometer array for measurement of  and turbulence spatial power spectrum”, paper #99-3620, 13th AIAA Lighter-Than Air Systems Technology Conference, 28 June – 1 July, 1999, Norfolk, VA.

 

26.  M. C. Roggemann, V. P. Lukin, and V. E. Zuev, “Adaptive optics:  introduction to the feature issue”, Appl. Opt., vol 37, p4523-4524, 1998.

 

27.  M. R. Whiteley, B. M. Welsh, and M. C. Roggemann, “Tilt compensation performance enhancement using off-axis higher-order modal wave front measurements”, Proc. SPIE on Propagation and Imaging Through the Atmosphere, vol. 3433, 1998.

 

28.  M. C. Roggemann, T. J. Schulz, B. M. Welsh, C. W. Ngai, and J. T. Kraft, “Joint processing of image plane and wave front sensor information to measure large aberrations in optical systems”, Proc. SPIE on Novel Optical Systems and Large Aperture Imaging, vol. 3430, 1998.

 

29.  T. B. Van Caster, B. M. Welsh, and M. C. Roggemann, “Evaluation of a maximum a posteriori slope estimator for a Hartmann wave front sensor”, Proc. SPIE on Propagation and Imaging Through the Atmosphere, vol. 3433, 1998.

 

30.  M. C. Roggemann, and D. J. Lee, “A two deformable mirror concept for correcting scintillation effects in laser beam propagation”, Proc. SPIE on Airborne Laser Advanced Technology, vol. 3381, 1998.

 

31.  M. C. Roggemann, V. M. Bright, B. M. Welsh, S. R. Hick, P. C. Roberts, W.D. Cowan, and J. H. Comtois, “Experimental demonstration of using microelectromechanical deformable mirrors to control optical aberrations”, Proc. SPIE on Adaptive Optics and Applications, vol. 3126, p173-184, 1997.

 

32.  R. T. Brigantic, M. C. Roggemann, B. M. Welsh, and K. W. Bauer, “Closed-loop bandwidth optimization to maximize adaptive optics system performance”, Proc. SPIE on Adaptive Optics and Applications, vol. 3126, p151-163, 1997.

 

33.  R. T. Brigantic, M. C. Roggemann, B. M. Welsh, and K. W. Bauer, “Clustering of wave front sensor subapertures to improve adaptive optics system performance”, Proc. SPIE on Adaptive Optics and Applications, vol. 3126, p551-560, 1997.

 

34.  M. C. Roggemann, and D. W. Tyler,  "Iterative model-based image reconstruction using a constrained least squares technique", Proc. SPIE on Digital Image Recovery and Synthesis III, vol. 2827, p170-181, 1996.

 

35.  M. C. Roggemann, and M. R. Whiteley, "Photon noise-induced limits to the detection of closure phase for interferometric imaging of Earth orbiting satellites", Proc. SPIE on Digital Image Recovery and Synthesis III, vol. 2827, p49-59, 1996.

 

36.  M. C. Roggemann, C. A. Hyde, and B. M. Welsh, "Fourier phase spectrum estimation using deconvolution from wave front sensing and bispectrum reconstruction", invited talk presented at the Optical Society of America Topical Meeting on Adaptive Optics, Wailea, Maui, HI, July, 1996.

 

37.  D. Lee, M. C. Roggemann, and B. M. Welsh, "Improving the resolution of telescopes with small aberrations using wave front aberration information and image post processing", Proc. SPIE on Digital Image Recovery and Synthesis III, vol. 2827, p, 1996.

 

38.  P. J. Gardner, M. C. Roggemann, and B. M. Welsh, "Quantification of frozen flow properties for a turbulence mixing layer of Helium and Nitrogen gas", Proc. SPIE on Image Propagation Through the Atmosphere, vol. 2828, p, 1996.

 

39.  E. E. Silbaugh, B. M. Welsh, and M. C. Roggemann, "Characterization of atmospheric turbulence over long horizontal paths using optical slope measurements", Proc. SPIE on Image Propagation Through the Atmosphere, vol. 2828, p, 1996.

 

40.  S. A. Sallberg, B. M. Welsh, and M. C. Roggemann, "Maximum a priori estimation of wave front slopes using a Hartmann-type sensor", Proc. SPIE on Digital Image Recovery and Synthesis III, vol. 2827, p68-78, 1996.

 

41.  W. A. Bernard, B. M. Welsh, M. C. Roggemann ,and R. J. Feldmann, Characterization of atmospheric turbulence effects on laser communications for a long horizontal path", Proc. SPIE on Image Propagation Through the Atmosphere, vol. 2828, p, 1996.

 

42.  D. A. Montera, B. M. Welsh, M. C. Roggemann, and D. W. Ruck, "Use of artificial neural networks for Hartmann sensor lenslet centroid estimation", presented at the Optical Society of America Topical Meeting on Adaptive Optics, Wailea, Maui, HI, July, 1996.

 

43.  D. A. Montera, B. M. Welsh, M. C. Roggemann, and D. W. Ruck, "Prediction of wave front sensor slope measurements using artificial neural networks", presented at the Optical Society of America Topical Meeting on Adaptive Optics, Wailea, Maui, HI, July, 1996.

 

44.  E. L. Caudill, M. C. Roggemann, B. M. Welsh, and S. K. Rogers, "Satellite surface material composition from synthetic spectra", Proc. SPIE, vol. 2569, p342-353, 1995.

 

45.  P. J. Gardner, M. C. Roggemann, and B. M. Welsh, "Statistical assessment of optical phase fluctuation through turbulent mixing layers", Proc. SPIE on Optical Techniques in Fluid, Thermal, and Combustion Flows, vol. 2546, p174-188, 1995.

 

46.  S. D. Ford, M. C. Roggemann, and B. M. Welsh, "Frame selection performance limits for statistical image reconstruction of adaptive optics compensated images", Proc. SPIE on Adaptive Optical Systems and Applications, vol. 2534, p235-246, 1995.

 

47.  M. C. Roggemann, B. M. Welsh, and C. A. Hyde, "Atmospheric turbulence-induced phase screen generator for simulating the effects of finite outer scale, time delays, and anisoplanatism", Proc. SPIE on Adaptive Optical Systems and Applications, vol. 2534, p298-309, 1995.

 

48.  D. A. Montera, B. M. Welsh, M. C. Roggemann, and D. W. Ruck, "Noise reduction and key atmospheric parameter estimation using artificial neural networks", Proc. SPIE on Adaptive Optical Systems and Applications, vol. 2534, p357-370, 1995.

 

49.  B. M. Welsh, B. L. Ellerbroek, M. C. Roggemann, and T. L. Pennington, "Shot noise performance of Hartmann and shearing interferometer wave front sensors", Proc. SPIE on Adaptive Optical Systems and Applications, vol. 2534, p277-288, 1995.

 

50.  B. E. Stribling, B. M. Welsh, and M. C. Roggemann, "Optical propagation in non-Kolmogorov atmospheric turbulence", Proc. SPIE on Atmospheric Propagation and Remote Sensing, vol. 2471, p181-196, 1995.

 

51.  M. C. Roggemann, B. M. Welsh, S. D. Ford, and C. A. Stoudt, "Frame selection for adaptive optics imaging through atmospheric turbulence", Proc. SPIE on Image Reconstruction and Restoration, vol. 2302, p42-53, 1994.

 

52.  M. C. Roggemann, B. M. Welsh, R. L. Johnson, and B. L. Pedersen, "Sensing the spatial structure of turbulence using optical wavefront sensor measurements and tomographic reconstruction", American Institute of Aeronautics and Astronautics, paper #AIAA 94-2546, 1994.

 

53.  M. C. Roggemann, B. L. Ellerbroek, and Troy A. Rhoadarmer, "Widening the effective field-of-view of adaptive optics telescopes using deconvolution from wavefront sensing", Proc. SPIE on Instrumentation in Astronomy VII, vol. 2198, p423-437, March, 1994, Kona, HI.

 

54.  B. M. Welsh and M. C. Roggemann, "Signal-to-noise comparison of deconvolution from wave front sensing with traditional linear and speckle image reconstruction", SPIE Proc. on Digital Image Recovery and Synthesis II, vol. 2302, p281-292, 1994.

 

55.  T. L. Pennington, B. M. Welsh, and M. C. Roggemann, "Performance comparison of the shearing interferometer and Hartmann wavefront sensors", Proc. SPIE on Adaptive Optics in Astronomy, vol. 2201, p508-518, 1994.

 

56.  S. E. Troxel, B. M. Welsh, and M. C. Roggemann, "Adaptive imaging through far field turbulence", Proc. SPIE on Digital Image Recovery and Synthesis II, vol. 2029, p369-379, 1993.

 

57.  M. C. Roggemann, "Use of wavefront sensor measurements to reconstruct images in partially compensated systems with finite bandwidth", Proc. SPIE on Digital Image Recovery and Synthesis II, vol. 2029, p299-310, 1993.

 

58.  M. C. Roggemann and D. W. Tyler, "Unconventional astronomical imaging", Optics and Photonics News, vol. 3, p16-21, 1992.

 

59.  M. C. Roggemann, "Closure phase accuracy considerations for long baseline interferometric imaging of earth-orbiting objects", Laser Digest - Summer, 1991, PL-TR-92-1003, USAF Phillips Laboratory, Kirtland AFB, NM, 1992.

 

60.  D. W. Tyler and M. C. Roggemann, "The effect of wavefront undersampling on signal-to-noise ratio in adaptive optics systems", Proc. SPIE on Atmospheric Propagation and Remote Sensing, vol. 1688, p561-571, 1992.

 

61.  M. F. Bilmont, M. C. Roggemann, D. W. Tyler, M. A. Von Bokern, and D. G. Voelz, "Effects of predetection atmospheric compensation and post-detection image processing on imagery collected at a ground-based telescope", Proc. SPIE on Atmospheric Propagation and Remote Sensing, vol. 1688, p489-500, 1992.

 

62.  R. A. Carreras and M. C. Roggemann, "Image restoration using nonlinear optimization techniques for partially compensated imaging systems", Proc. SPIE on Inverse Scattering and Imaging, vol. 1767, p307-317, 1992.

 

63.  M. C. Roggemann and C. L. Matson, "Partially compensated speckle imaging:  Fourier phase spectrum estimation", Proc. SPIE on Active and Adaptive Optical Systems, vol. 1542, p477-487, 1991.

 

64.  M. C. Roggemann, J. P. Mills, S. K. Rogers, M. Kabrisky, and J. A. Tatman, "An approach to multiple sensor target detection", Proc. SPIE on Sensor Fusion II, vol. 1100, p42-51, 1989.

 

65.  M. C. Roggemann, J. P. Mills, S. K. Rogers, and M. Kabrisky, "Multiple sensor information fusion for target detection and classification", Proc. SPIE on Sensor Fusion, vol. 931, p8-13, 1988.

 

 

 

Submitted and in review.

Modified: January 16, 2008


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