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Items: 1 to 20 of 98

1.

Advanced signal processing methods for pulsed laser vibrometry.

Totems J, Jolivet V, Ovarlez JP, Martin N.

Appl Opt. 2010 Jul 10;49(20):3967-79. doi: 10.1364/AO.49.003967.

PMID:
20648175
2.

Fiber-based 1.5 microm lidar vibrometer in pulsed and continuous modes.

Hill CA, Harris M, Ridley KD.

Appl Opt. 2007 Jul 10;46(20):4376-85.

PMID:
17579692
3.

Building blocks for a two-frequency laser lidar-radar: a preliminary study.

Morvan L, Lai ND, Dolfi D, Huignard JP, Brunel M, Bretenaker F, Le Floch A.

Appl Opt. 2002 Sep 20;41(27):5702-12.

PMID:
12269571
4.

Numerical simulation of speckle noise in laser vibrometry.

Rothberg S.

Appl Opt. 2006 Jul 1;45(19):4523-33.

PMID:
16799660
5.

Lidar frequency modulation vibrometry in the presence of speckle.

Hill CA, Harris M, Ridley KD, Jakeman E, Lutzmann P.

Appl Opt. 2003 Feb 20;42(6):1091-100.

PMID:
12617227
6.
7.

Multipoint laser Doppler vibrometry with single detector: principles, implementations, and signal analyses.

Fu Y, Guo M, Phua PB.

Appl Opt. 2011 Apr 1;50(10):1280-8. doi: 10.1364/AO.50.001280.

PMID:
21460890
8.

Comparison of IPDA lidar receiver sensitivity for coherent detection and for direct detection using sine-wave and pulsed modulation.

Sun X, Abshire JB.

Opt Express. 2012 Sep 10;20(19):21291-304. doi: 10.1364/OE.20.021291.

PMID:
23037252
9.

All-Fiber Multifunction Continuous-Wave Coherent Laser Radar at 1.55 num for Range, Speed, Vibration, and Wind Measurements.

Karlsson CJ, Olsson FA, Letalick D, Harris M.

Appl Opt. 2000 Jul 20;39(21):3716-26.

PMID:
18349947
10.

High-resolution Doppler-velocity estimation techniques for processing of coherent heterodyne pulsed lidar data.

Gurdev LL, Dreischuh TN, Stoyanov DV.

J Opt Soc Am A Opt Image Sci Vis. 2001 Jan;18(1):134-42.

PMID:
11151990
11.

Measuring vibrational motion from a moving platform using speckle field detection.

Redding B, Davis A.

Appl Opt. 2017 Mar 20;56(9):2542-2547. doi: 10.1364/AO.56.002542.

PMID:
28375365
12.

SAR image filtering based on the heavy-tailed Rayleigh model.

Achim A, Kuruoğlu EE, Zerubia J.

IEEE Trans Image Process. 2006 Sep;15(9):2686-93.

PMID:
16948313
13.

Highly depth-resolved chirped pulse photothermal radar for bone diagnostics.

Kaiplavil S, Mandelis A.

Rev Sci Instrum. 2011 Jul;82(7):074906. doi: 10.1063/1.3616140.

PMID:
21806220
14.

Microcontroller based resonance tracking unit for time resolved continuous wave cavity-ringdown spectroscopy measurements.

Votava O, Mašát M, Parker AE, Jain C, Fittschen C.

Rev Sci Instrum. 2012 Apr;83(4):043110. doi: 10.1063/1.3698061.

PMID:
22559518
15.

Speckle noise in bar-code scanning systems--power spectral density and SNR.

Marom E, Kresić-Jurić S, Bergstein L.

Appl Opt. 2003 Jan 10;42(2):161-74.

PMID:
12546496
16.

Performance analysis of a maximum-likelihood speckle motion estimator.

Duncan D, Kirkpatrick S.

Opt Express. 2002 Sep 9;10(18):927-41.

PMID:
19451947
17.

Comparison of four digital maximum frequency estimators for Doppler ultrasound.

Mo LY, Yun LC, Cobbold RS.

Ultrasound Med Biol. 1988;14(5):355-63.

PMID:
3051610
18.
19.

Analysis of motion tracking in echocardiographic image sequences: influence of system geometry and point-spread function.

Touil B, Basarab A, Delachartre P, Bernard O, Friboulet D.

Ultrasonics. 2010 Mar;50(3):373-86. doi: 10.1016/j.ultras.2009.09.001. Epub 2009 Sep 19.

PMID:
19837445
20.

Laser vibrometry from a moving ground vehicle.

Jiang LA, Albota MA, Haupt RW, Chen JG, Marino RM.

Appl Opt. 2011 May 20;50(15):2263-73. doi: 10.1364/AO.50.002263.

PMID:
21614121

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