Landsat-8: Science and product vision for terrestrial global change research DP Roy, MA Wulder, TR Loveland, CE Woodcock, RG Allen, ... Remote sensing of Environment 145, 154-172, 2014 | 2389 | 2014 |
Object-based cloud and cloud shadow detection in Landsat imagery Z Zhu, CE Woodcock Remote sensing of environment 118, 83-94, 2012 | 2216 | 2012 |
Continuous change detection and classification of land cover using all available Landsat data Z Zhu, CE Woodcock Remote sensing of Environment 144, 152-171, 2014 | 1489 | 2014 |
Improvement and expansion of the Fmask algorithm: Cloud, cloud shadow, and snow detection for Landsats 4–7, 8, and Sentinel 2 images Z Zhu, S Wang, CE Woodcock Remote sensing of Environment 159, 269-277, 2015 | 1463 | 2015 |
Cloud detection algorithm comparison and validation for operational Landsat data products S Foga, PL Scaramuzza, S Guo, Z Zhu, RD Dilley Jr, T Beckmann, ... Remote sensing of environment 194, 379-390, 2017 | 973 | 2017 |
Current status of Landsat program, science, and applications MA Wulder, TR Loveland, DP Roy, CJ Crawford, JG Masek, ... Remote Sensing of Environment, 2019 | 839 | 2019 |
Change detection using landsat time series: A review of frequencies, preprocessing, algorithms, and applications Z Zhu ISPRS Journal of Photogrammetry and Remote Sensing 130, 370-384, 2017 | 771 | 2017 |
Continuous monitoring of forest disturbance using all available Landsat imagery Z Zhu, CE Woodcock, P Olofsson Remote sensing of environment 122, 75-91, 2012 | 528 | 2012 |
Automated cloud, cloud shadow, and snow detection in multitemporal Landsat data: An algorithm designed specifically for monitoring land cover change Z Zhu, CE Woodcock Remote Sensing of Environment 152, 217–234, 2014 | 494 | 2014 |
Benefits of the free and open Landsat data policy Z Zhu, MA Wulder, DP Roy, CE Woodcock, MC Hansen, VC Radeloff, ... Remote Sensing of Environment 224, 382-385, 2019 | 420 | 2019 |
Bringing an ecological view of change to Landsat‐based remote sensing RE Kennedy, S Andréfouët, WB Cohen, C Gómez, P Griffiths, M Hais, ... Frontiers in Ecology and the Environment 12 (6), 339-346, 2014 | 407 | 2014 |
Detecting interannual variation in deciduous broadleaf forest phenology using Landsat TM/ETM+ data EK Melaas, MA Friedl, Z Zhu Remote Sensing of Environment 132, 176-185, 2013 | 380 | 2013 |
Fmask 4.0: Improved cloud and cloud shadow detection in Landsats 4–8 and Sentinel-2 imagery S Qiu, Z Zhu, B He Remote Sensing of Environment 231, 111205, 2019 | 364 | 2019 |
Understanding an urbanizing planet: Strategic directions for remote sensing Z Zhu, Y Zhou, KC Seto, EC Stokes, C Deng, STA Pickett, H Taubenböck Remote Sensing of Environment 228, 164-182, 2019 | 306 | 2019 |
Assessment of spectral, polarimetric, temporal, and spatial dimensions for urban and peri-urban land cover classification using Landsat and SAR data Z Zhu, CE Woodcock, J Rogan, J Kellndorfer Remote Sensing of Environment 117, 72-82, 2012 | 302 | 2012 |
Overall Methodology Design for the United States National Land Cover Database 2016 Products S Jin, C Homer, L Yang, P Danielson, J Dewitz, C Li, Z Zhu, G Xian, ... Remote Sensing 11 (24), 2971, 2019 | 280 | 2019 |
Including land cover change in analysis of greenness trends using all available Landsat 5, 7, and 8 images: A case study from Guangzhou, China (2000–2014) Z Zhu, Y Fu, CE Woodcock, P Olofsson, JE Vogelmann, C Holden, ... Remote Sensing of Environment 185, 243-257, 2016 | 268 | 2016 |
Generating synthetic Landsat images based on all available Landsat data: Predicting Landsat surface reflectance at any given time Z Zhu, CE Woodcock, C Holden, Z Yang Remote Sensing of Environment 162, 67-83, 2015 | 267 | 2015 |
Mapping forest change using stacked generalization: An ensemble approach SP Healey, WB Cohen, Z Yang, CK Brewer, EB Brooks, N Gorelick, ... Remote Sensing of Environment 204, 717-728, 2018 | 248 | 2018 |
Fifty years of Landsat science and impacts MA Wulder, DP Roy, VC Radeloff, TR Loveland, MC Anderson, ... Remote Sensing of Environment 280, 113195, 2022 | 236 | 2022 |