149 citations as recorded by crossref.

1. Monitoring Depth of Shallow Atmospheric Boundary Layer to Complement LiDAR Measurements Affected by Partial Overlap S. Pal
2. Integrated System for Atmospheric Boundary Layer Height Estimation (ISABLE) using a ceilometer and microwave radiometer J. Min et al.
3. Aerosol backscatter profiles from ceilometers: validation of water vapor correction in the framework of CeiLinEx2015 M. Wiegner et al.
4. Estimating the urban atmospheric boundary layer height from remote sensing applying machine learning techniques G. de Arruda Moreira et al.
5. On the Summertime Planetary Boundary Layer with Different Thermodynamic Stability in China: A Radiosonde Perspective W. Zhang et al.
6. Atmospheric Aerosol Characterization Over Naples During 2000–2003 EARLINET Project: Planetary Boundary-Layer Evolution and Layering A. Boselli et al.
7. A new method to retrieve the diurnal variability of planetary boundary layer height from lidar under different thermodynamic stability conditions T. Su et al.
8. Biomass Burning Aerosols Observed in Northern Finland during the 2010 Wildfires in Russia T. Mielonen et al.
9. A New Algorithm of Atmospheric Boundary Layer Height Determined from Polarization Lidar B. Han et al.
10. The Gaussian Plume Model Equation for Atmospheric Dispersion Corrected for Multiple Reflections at Parallel Boundaries: A Mathematical Rewriting of the Model and Some Numerical Testing A. Micallef & C. Micallef
11. Marine boundary layer aerosol in the eastern North Atlantic: seasonal variations and key controlling processes G. Zheng et al.
12. Ceilometer Retrieval of the Boundary Layer Vertical Aerosol Extinction Structure K. Markowicz et al.
13. Vertical and horizontal distribution of submicron aerosol chemical composition and physical characteristics across northern India during pre-monsoon and monsoon seasons J. Brooks et al.
14. Assessing CALIOP-Derived Planetary Boundary Layer Height Using Ground-Based Lidar M. Kim et al.
15. Vertical distribution of volatile organic compounds conducted by tethered balloon in the Beijing-Tianjin-Hebei region of China C. Geng et al.
16. A comprehensive evaluation of planetary boundary layer height retrieval techniques using lidar data under different pollution scenarios F. Wang et al.
17. Detection of Upper and Lower Planetary-Boundary Layer Curves and Estimation of Their Heights from Ceilometer Observations under All-Weather Conditions: Case of Athens, Greece H. Kambezidis et al.
18. A Novel Machine Learning Algorithm for Planetary Boundary Layer Height Estimation Using AERI Measurement Data J. Ye et al.
19. Intercomparison of Planetary Boundary Layer Heights Using Remote Sensing Retrievals and ERA5 Reanalysis over Central Amazonia C. Dias-Júnior et al.
20. Pathfinder: applying graph theory to consistent tracking of daytime mixed layer height with backscatter lidar M. de Bruine et al.
21. Atmospheric boundary‐layer characteristics from ceilometer measurements. Part 1: A new method to track mixed layer height and classify clouds S. Kotthaus & C. Grimmond
22. Tethered balloon-based black carbon profiles within the lower troposphere of Shanghai in the 2013 East China smog J. Li et al.
23. Mixing-layer height retrieval with ceilometer and Doppler lidar: from case studies to long-term assessment J. Schween et al.
24. Study of the planetary boundary layer height in an urban environment using a combination of microwave radiometer and ceilometer G. Moreira et al.
25. Evolution of urban heat island circulation for the flat city Y. Wang et al.
26. An Assessment of Pseudo-Operational Ground-Based Light Detection and Ranging Sensors to Determine the Boundary-Layer Structure in the Coastal Atmosphere C. Milroy et al.
27. Observation of vertical variability of black carbon concentration in lower troposphere on campaigns in Poland M. Chilinski et al.
28. Vertical distribution of hydrocarbons in the low troposphere below and above the mixing height: Tethered balloon measurements in Milan, Italy G. Sangiorgi et al.
29. An Automated Common Algorithm for Planetary Boundary Layer Retrievals Using Aerosol Lidars in Support of the U.S. EPA Photochemical Assessment Monitoring Stations Program V. Caicedo et al.
30. Nocturnal boundary layer characteristics and land breeze development in Houston, Texas during TexAQS II B. Day et al.
31. Ceilometer-Based Analysis of Shanghai’s Boundary Layer Height (under Rain- and Fog-Free Conditions) J. Peng et al.
32. Characterization of the atmospheric boundary layer from radiosonde observations along eastern end of monsoon trough of India S. Chandra et al.
33. Vertically-resolved sources and secondary formation of fine particles: A high resolution tethered mega-balloon study over Shanghai Y. Shi et al.
34. An Overview of the Urban Boundary Layer Atmosphere Network in Helsinki C. Wood et al.
35. Vertical mixing in atmospheric tracer transport models: error characterization and propagation C. Gerbig et al.
36. Characteristics of atmospheric boundary layer and its relation with PM2.5 during winter in Shihezi, an Oasis city in Northwest China S. Li et al.
37. Cloud vertical structure over a tropical station obtained using long-term high-resolution radiosonde measurements N. Narendra Reddy et al.
38. Variability of the Mixed-Layer Height Over Mexico City J. García-Franco et al.
39. High-resolution vertical profiling and source apportionment of CO2 using coherent differential absorption lidar in coastal urban atmosphere Y. Hu et al.
40. Driving Factors of Aerosol Properties Over the Foothills of Central Himalayas Based on 8.5 Years Continuous Measurements R. Hooda et al.
41. Research Progress on Estimation of the Atmospheric Boundary Layer Height H. Zhang et al.
42. Comparing mixing-length models of the diabatic wind profile over homogeneous terrain A. Peña et al.
43. Motivating a Synergistic Mixing-Layer Height Retrieval Method Using Backscatter Lidar Returns and Microwave-Radiometer Temperature Observations M. Araujo da Silva et al.
44. Mixing layer height and its implications for air pollution over Beijing, China G. Tang et al.
45. Observing continental boundary-layer structure and evolution over the South African savannah using a ceilometer R. Gierens et al.
46. Investigation of Atmospheric Boundary Layer Dynamics Over the Himalayan Foothill Region: Insights from Ground-Based LiDAR Observations and WRF Model S. Srivastava et al.
47. Impact of optimized mixing heights on simulated regional atmospheric transport of CO2 R. Kretschmer et al.
48. Mixing layer height on the North China Plain and meteorological evidence of serious air pollution in southern Hebei X. Zhu et al.
49. Quantifying the contribution of Middle Eastern dust sources to PM10 levels in Ahvaz, Southwest Iran H. Salmabadi et al.
50. Evaluation of the boundary layer dynamics of the TM5 model over Europe E. Koffi et al.
51. Mixing-Height Time Series from Operational Ceilometer Aerosol-Layer Heights C. Lotteraner & M. Piringer
52. The impacts of the atmospheric boundary layer on regional haze in North China Q. Li et al.
53. Vertically-resolved particle size distribution within and above the mixing layer over the Milan metropolitan area L. Ferrero et al.
54. A Multiscale Numerical Modeling Study of Smoke Dispersion and the Ventilation Index in Southwestern Colorado M. Kiefer et al.
55. An ensemble method for improving the estimation of planetary boundary layer height from radiosonde data X. Chen et al.
56. Comparing the cloud vertical structure derived from several methods based on radiosonde profiles and ground-based remote sensing measurements M. Costa-Surós et al.
57. Setup of tools and dataset selection for MBL investigation over a coastal Mediterranean site – preliminary results L. Velea et al.
58. Climatology of the planetary boundary layer height over China and its characteristics during periods of extremely temperature Y. Wang et al.
59. Comparison of tethered balloon vertical profiles of particulate matter size distributions with lidar ceilometer backscatter in the nocturnal urban boundary layer D. Kamp & I. McKendry
60. Exploring a geophysical process‐based attribution technique for the determination of the atmospheric boundary layer depth using aerosol lidar and near‐surface meteorological measurements S. Pal et al.
61. Adaptive Estimation of the Stable Boundary Layer Height Using Combined Lidar and Microwave Radiometer Observations U. Saeed et al.
62. Atmospheric boundary layer height estimation from aerosol lidar: a new approach based on morphological image processing techniques G. Vivone et al.
63. Observed aerosol‐layer depth at Station Nord in the high Arctic S. Gryning et al.
64. Integrating continuous atmospheric boundary layer and tower-based flux measurements to advance understanding of land-atmosphere interactions M. Helbig et al.
65. Planetary boundary layer heights over a sharp vegetation-contrast area during the DECODE field campaign L. Bai et al.
66. Spatially resolved measurements of nitrogen dioxide in an urban environment using concurrent multi-axis differential optical absorption spectroscopy R. Leigh et al.
67. A Comparison of Wintertime Atmospheric Boundary Layer Heights Determined by Tethered Balloon Soundings and Lidar at the Site of SACOL M. Zhang et al.
68. The impact of the summer monsoon on the convective boundary layer height in different regions of the Tibetan Plateau C. Wang et al.
69. Daytime Mixed Layer over the Santiago Basin: Description of Two Years of Observations with a Lidar Ceilometer R. Muñoz & A. Undurraga
70. The relation between columnar and surface aerosol optical properties in a background environment D. Szczepanik & K. Markowicz
71. Assessing the regional surface influence through Backward Lagrangian Dispersion Models for aircraft CO2 vertical profiles observations in NE Spain A. Font et al.
72. Application of Convective Condensation Level Limiter in Convective Boundary Layer Height Retrieval Based on Lidar Data H. Li et al.
73. Conditions for transition from a plume to a dome above a heated horizontal area Y. Fan et al.
74. Comparison of aerosol lidar retrieval methods for boundary layer height detection using ceilometer aerosol backscatter data V. Caicedo et al.
75. High-resolution urban observation network for user-specific meteorological information service in the Seoul Metropolitan Area, South Korea M. Park et al.
76. Climatological characteristics of planetary boundary layer height over Japan Y. Zhang & S. Li
77. Variability of the Boundary Layer Over an Urban Continental Site Based on 10 Years of Active Remote Sensing Observations in Warsaw D. Wang et al.
78. Surface and Aerodynamic Parameters Estimation for Urban and Rural Areas R. Sozzi et al.
79. A Comparison Between Modelled and Measured Mixing-Layer Height Over Munich A. Dandou et al.
80. An inclusive view of Saharan dust advections to Italy and the Central Mediterranean G. Gobbi et al.
81. Vertical profiles of aerosol absorption coefficient from micro-Aethalometer data and Mie calculation over Milan L. Ferrero et al.
82. Quantifying the relationship between PM2.5 concentration, visibility and planetary boundary layer height for long-lasting haze and fog–haze mixed events in Beijing T. Luan et al.
83. Study of the Vertical Structure of the Coastal Boundary Layer Integrating Surface Measurements and Ground-Based Remote Sensing T. Lo Feudo et al.
84. A method for quantifying near range point source induced O3 titration events using Co-located Lidar and Pandora measurements G. Gronoff et al.
85. Planetary Boundary-Layer Structure at an Inland Urban Site under Sea Breeze Penetration Y. Lee et al.
86. Mixing height determination by tethered balloon-based particle soundings and modeling simulations L. Ferrero et al.
87. Modelling and Observation of Mineral Dust Optical Properties over Central Europe M. Chilinski et al.
88. Mixing layer height and meteorological measurements in Hefei China during the total solar eclipse of 22 July, 2009 Z. Chen et al.
89. Homogenized Variability of Radiosonde-Derived Atmospheric Boundary Layer Height over the Global Land Surface from 1973 to 2014 X. Wang & K. Wang
90. An Improved Iterative Fitting Method to Estimate Nocturnal Residual Layer Height W. Wang et al.
91. Investigation of the mixing layer height derived from ceilometer measurements in the Kathmandu Valley and implications for local air quality A. Mues et al.
92. The vertical distribution of PM2.5 and boundary-layer structure during summer haze in Beijing Y. Sun et al.
93. LiDAR‐based characterization of mid‐altitude wind conditions for airborne wind energy systems M. Sommerfeld et al.
94. Characterization of the atmospheric boundary layer in a narrow tropical valley using remote‐sensing and radiosonde observations and the WRF model: the Aburrá Valley case‐study L. Herrera‐Mejía & C. Hoyos
95. Ceilometer Monitoring of Boundary-Layer Height and Its Application in Evaluating the Dilution Effect on Air Pollution J. Lee et al.
96. A novel method to retrieve the nocturnal boundary layer structure based on CCD laser aerosol detection system measurements Y. Bian et al.
97. Sensitivity analysis of WRF model PBL schemes in simulating boundary-layer variables in southern Italy: An experimental campaign E. Avolio et al.
98. Retrieval of the planetary boundary layer height from lidar measurements by a deep-learning method based on the wavelet covariance transform L. Mei et al.
99. Climatological study of the Boundary-layer air Stagnation Index for China and its relationship with air pollution Q. Huang et al.
100. The role of surface energy fluxes in determining mixing layer heights E. Beamesderfer et al.
101. Blowing snow detection from ground-based ceilometers: application to East Antarctica A. Gossart et al.
102. Meteorological and geological controls on dust devil activity: Initial results from a field study at Smith Creek Valley, Nevada, USA L. Fenton et al.
103. Estimation of the nocturnal boundary layer height over the Central Amazon forest using turbulence measurements A. Mendonça et al.
104. Airborne observation of mixing across the entrainment zone during PARADE 2011 F. Berkes et al.
105. Fog/low clouds detection over the Delhi Earth Station using the Ceilometer and the INSAT-3D/3DR satellite data S. Arun et al.
106. Diurnal and Seasonal Trends in Convective Mixed-Layer Heights Estimated from Two Years of Continuous Ceilometer Observations in Vancouver, BC D. van der Kamp & I. McKendry
107. Seasonal Variability in the Diurnal Evolution of the Boundary Layer in a Near-Coastal Urban Environment C. Haman et al.
108. Climatology of Planetary Boundary Layer Height over Jiangsu, China, Based on ERA5 Reanalysis Data X. Li et al.
109. Evaluation of retrieval methods for planetary boundary layer height based on radiosonde data H. Li et al.
110. Identification of the atmospheric boundary layer structure through vertical distribution of PM2.5 obtained by unmanned aerial vehicle measurements Y. Jiang et al.
111. Comparison of four different types of planetary boundary layer heights during a haze episode in Beijing Y. Shi et al.
112. The climatology of planetary boundary layer height in China derived from radiosonde and reanalysis data J. Guo et al.
113. Atmospheric boundary layer height from ground-based remote sensing: a review of capabilities and limitations S. Kotthaus et al.
114. Near-Surface Atmospheric Behavior over Complex Tropical Topography in Puerto Rico Dominated by Seasonal Patterns Despite Frequent Environmental Changes A. Van Beusekom & G. González
115. Comparison of Planetary Boundary Layer Height Derived from Lidar in AD-Net and ECMWFs Reanalysis Data over East Asia Z. Zhang et al.
116. Correction of water vapor absorption for aerosol remote sensing with ceilometers M. Wiegner & J. Gasteiger
117. Impacts of atmospheric circulation patterns and cloud inhibition on aerosol radiative effect and boundary layer structure during winter air pollution in Sichuan Basin, China H. Lu et al.
118. Lidar ceilometer observations and modeling of a fireworks plume in Vancouver, British Columbia D. van der Kamp et al.
119. Random Sample Fitting Method to Determine the Planetary Boundary Layer Height Using Satellite-Based Lidar Backscatter Profiles L. Du et al.
120. Properties of the mixing layer height retrieved from ceilometer measurements in Slovakia and its relationship to the air pollutant concentrations D. Nguyen et al.
121. A Robust Threshold Method of Mixed Layer Height Based on Lidar Turbulence Data Under Different Thermal Convection Conditions L. Wang et al.
122. Characterization of Aerosol Composition, Concentration, and Sources in Bukhansan National Park, Korea S. Kang et al.
123. A Study on Development of Small Sensor Observation System Based on IoT Using Drone Y. Ahn et al.
124. Study of the planetary boundary layer by microwave radiometer, elastic lidar and Doppler lidar estimations in Southern Iberian Peninsula G. de Arruda Moreira et al.
125. Dynamics of Mixing Layer Height and Homogeneity from Ceilometer-Measured Aerosol Profiles and Correlation to Ground Level PM2.5 in New York City D. Li et al.
126. Mixing layer height as an indicator for urban air quality? A. Geiß et al.
127. 基于多普勒激光雷达的青岛地区大气物质边界层高度反演与分析 王. Wang Junbo et al.
128. Evaluation of Mixing-Height Retrievals from Automatic Profiling Lidars and Ceilometers in View of Future Integrated Networks in Europe M. Haeffelin et al.
129. Study of vertical structure of aerosol optical properties with sun photometers and ceilometer during the MACRON campaign in 2007 K. Markowicz et al.
130. An analysis of the vertical structure of the atmosphere and the upper‐level meteorology and their impact on surface ozone levels in Houston, Texas B. Rappenglück et al.
131. Pollutant Concentration Changes During the COVID-19 Lockdown in Barcelona and Surrounding Regions: Modification of Diurnal Cycles and Limited Role of Meteorological Conditions M. García-Dalmau et al.
132. Ceilometer observations of the boundary layer over Warsaw, Poland I. Stachlewska et al.
133. Improved mixing height monitoring through a combination of lidar and radon measurements A. Griffiths et al.
134. Detection of Precipitation and Fog Using Machine Learning on Backscatter Data from Lidar Ceilometer Y. Kim et al.
135. Local-Scale Urban Meteorological Parameterization Scheme (LUMPS): Longwave Radiation Parameterization and Seasonality-Related Developments T. Loridan et al.
136. Inter-comparison of lidar and ceilometer retrievals for aerosol and Planetary Boundary Layer profiling over Athens, Greece G. Tsaknakis et al.
137. Ceilometers as planetary boundary layer height detectors and a corrective tool for COSMO and IFS models L. Uzan et al.
138. Ground-based lidar processing and simulator framework for comparing models and observations (ALCF 1.0) P. Kuma et al.
139. Simultaneous observations of boundary-layer aerosol layers with CL31 ceilometer and 1064/532 nm lidar I. McKendry et al.
140. A Three-Step Method for Estimating the Mixing Height Using Ceilometer Data from the Helsinki Testbed N. Eresmaa et al.
141. Assessment of the atmospheric mixing layer height and its effects on pollutant dispersion M. Yassin et al.
142. Evaluation of the boundary layer mixing height and air pollution in Arak, Iran M. Karampoor et al.
143. Analysis of Atmospheric Boundary Layer Characteristics on Different Underlying Surfaces of the Eastern Tibetan Plateau in Summer X. Wen et al.
144. Diurnal Climatology of Planetary Boundary Layer Height Over the Contiguous United States Derived From AMDAR and Reanalysis Data Y. Zhang et al.
145. Study of atmospheric aerosols and mixing layer by LIDAR F. Angelini et al.
146. A Comparative Study and Evaluation of Mixing-Height Estimation Based on Sodar-RASS, Ceilometer Data and Numerical Model Simulations C. Helmis et al.
147. High-resolution modeling study of an isolated convective storm over Seoul Metropolitan area Y. Lee & K. Min
148. Climatology of the Boundary Layer Height and of the Wind Field over Greece N. Bakas et al.
149. Estimation of planetary boundary layer height from radiosonde profiles over West Africa during the AMMA field campaign: Intercomparison of different methods J. Aryee et al.