Secchi disk depth: A new theory and mechanistic model for underwater visibility ZP Lee, S Shang, C Hu, K Du, A Weidemann, W Hou, J Lin, G Lin Remote sensing of environment 169, 139-149, 2015 | 327 | 2015 |
High-resolution and fast-response fiber-optic temperature sensor using silicon Fabry-Pérot cavity G Liu, M Han, W Hou Optics express 23 (6), 7237-7247, 2015 | 233 | 2015 |
Automated underwater image restoration and retrieval of related optical properties W Hou, DJ Gray, AD Weidemann, GR Fournier, JL Forand 2007 IEEE international geoscience and remote sensing symposium, 1889-1892, 2007 | 178 | 2007 |
A simple underwater imaging model W Hou Optics letters 34 (17), 2688-2690, 2009 | 173 | 2009 |
Optical turbulence on underwater image degradation in natural environments W Hou, S Woods, E Jarosz, W Goode, A Weidemann Applied optics 51 (14), 2678-2686, 2012 | 137 | 2012 |
Comparison and validation of point spread models for imaging in natural waters W Hou, DJ Gray, AD Weidemann, RA Arnone Optics Express 16 (13), 9958-9965, 2008 | 120 | 2008 |
Why does the Secchi disk disappear? An imaging perspective W Hou, Z Lee, AD Weidemann Optics Express 15 (6), 2791-2802, 2007 | 98 | 2007 |
Fast-response fiber-optic anemometer with temperature self-compensation G Liu, W Hou, W Qiao, M Han Optics express 23 (10), 13562-13570, 2015 | 72 | 2015 |
Quantification of optical turbulence in the ocean and its effects on beam propagation G Nootz, E Jarosz, FR Dalgleish, W Hou Applied optics 55 (31), 8813-8820, 2016 | 67 | 2016 |
Imagery-derived modulation transfer function and its applications for underwater imaging W Hou, AD Weidemann, DJ Gray, GR Fournier Applications of Digital Image Processing XXX 6696, 707-714, 2007 | 55 | 2007 |
Impacts of underwater turbulence on acoustical and optical signals and their linkage W Hou, E Jarosz, S Woods, W Goode, A Weidemann Optics express 21 (4), 4367-4375, 2013 | 52 | 2013 |
Experimental and numerical study of underwater beam propagation in a Rayleigh–Bénard turbulence tank G Nootz, S Matt, A Kanaev, KP Judd, W Hou Applied Optics 56 (22), 6065-6072, 2017 | 51 | 2017 |
Optical fiber vector flow sensor based on a silicon Fabry–Perot interferometer array G Liu, Q Sheng, W Hou, M Han Optics letters 41 (20), 4629-4632, 2016 | 48 | 2016 |
High-resolution, large dynamic range fiber-optic thermometer with cascaded Fabry–Perot cavities G Liu, Q Sheng, W Hou, M Han Optics Letters 41 (21), 5134-5137, 2016 | 45 | 2016 |
Restoration of images degraded by underwater turbulence using structure tensor oriented image quality (STOIQ) metric AV Kanaev, W Hou, SR Restaino, S Matt, S Gładysz Optics express 23 (13), 17077-17090, 2015 | 40 | 2015 |
Restoration of turbulence degraded underwater images AV Kanaev, W Hou, S Woods, LN Smith Optical Engineering 51 (5), 057007-057007, 2012 | 34 | 2012 |
Introducing SiTTE: A controlled laboratory setting to study the impact of turbulent fluctuations on light propagation in the underwater environment S Matt, W Hou, W Goode, S Hellman Optics Express 25 (5), 5662-5683, 2017 | 33 | 2017 |
Objectively assessing underwater image quality for the purpose of automated restoration W Hou, AD Weidemann Visual Information Processing XVI 6575, 171-177, 2007 | 33 | 2007 |
Unambiguous peak recognition for a silicon Fabry–Pérot interferometric temperature sensor G Liu, W Hou, M Han Journal of Lightwave Technology 36 (10), 1970-1978, 2018 | 28 | 2018 |
The Hyperspectral Imager for the Coastal Ocean (HICO): Sensor and data processing overview MD Lewis, RW Gould, RA Arnone, PE Lyon, PM Martinolich, R Vaughan, ... OCEANS 2009, 1-9, 2009 | 28 | 2009 |