MPLNET V3 Cloud and Planetary Boundary Layer Detection

Planetary Boundary Layer (PBL) monitoring by means of two Laser radar systems: experimental results and comparison.

Bellecci, C
Gaudio, P
Gelfusa, M
Lupelli, I
Malizia, A
Moretti, A
Richetta, M
Serafini, C
Ventura, P

January 2010

The PBL is the lower layer of the atmosphere that is sensitive to the effect of the Earth’s surface,...

Evaluation of Current Planetary Boundary Layer Retrieval Capabilities from Space

Schaefer, Alexander J.
Yorks, John
Santanello, Joseph A., Jr.
Blaisdell, John

August 2016

The PBL over land remains a significant gap in our water and energy cycle understanding from space. ...

Tailored Algorithms for the Detection of the Atmospheric Boundary Layer Height from Common Automatic Lidars and Ceilometers (ALC)

Kotthaus, Simone
Haeffelin, Martial
Drouin, Marc-Antoine
Dupont, Jean-Charles
Grimmond, Sue
Haefele, Alexander
Hervo, Maxime
Poltera, Yann
Wiegner, Matthias

October 2020

A detailed understanding of atmospheric boundary layer (ABL) processes is key to improve forecasting...

MPLNET V3 Cloud and Planetary Boundary Layer Detection

Jasper R. Lewis
Ellsworth J. Welton
James R. Campbell
Phillip C. Haftings

June 2016

The NASA Micropulse Lidar Network Version 3 algorithms for planetary boundary layer and cloud detect...

Operational Cloud Boundary Detection and Analysis from Micropulse Lidar Data

J. R. Campbell
D. L. Hlavka
J. D. Spinhirne
D. D. Turner
C. J. Flynn

October 2015

The micropulse lidar (MPL) was developed at the National Aeronautics and Space Administration’s (NAS...

Overview of the new version 3 NASA micro-pulse lidar network (MPLNET) automatic precipitation detection algorithm

Lolli S.
Vivone G.
Lewis J. R.
Sicard M.
Welton E. J.
Campbell J. R.
Comeron A.
D'Adderio L. P.
Tokay A.
Giunta A.
Pappalardo G.

January 2020

Precipitation modifies atmospheric column thermodynamics through the process of evaporation and serv...

An Overview of the Micro Pulse Lidar Network (MPLNET)

Welton, Ellsworth

September 2010

The NASA Micro Pulse Lidar Network (MPLNET) is a federated network of Micro Pulse Lidar (MPL) system...

Overview of the wew version 3 NASA Micro-Pulse Lidar Network (MPLNET) automatic precipitation detection algorithm

Lolli, S.
Vivone, Gemine
Lewis, Jasper R.
Sicard, Michaël
Welton, E.J.
Campbell, James R.
Comerón Tejero, Adolfo
D'Adderio, L.P.
Tokay, A.
Giunta, Aldo
Pappalardo, Gelsomina

January 2020

Precipitation modifies atmospheric column thermodynamics through the process of evaporation and serv...

An automatic light rain detection algorithm on NASA MPLNET lidar observations in the frame of WMO GALION project

Lolli S.
Sicard M.
Vivone G.
Lewis J. R.
Welton E. J.
Comeron A.

January 2019

The water cycle strongly influences life on Earth. In particular, the precipitation modifies the atm...

Planetary boundary layer height (PBLH) over the SGP

TIANNING SU

January 2022

Given the rapid change in clouds over land, radiosonde observations have limitations when it comes t...

Satellite to Ground-based LIDAR Comparisons using MPLNET Data Products

Welton, E. J.
Belcher, L.
Spinhirne, J.
Berkoff, T.A.
Campbell, J.

The Micro-Pulse Lidar Network (MPLNET) is a network of ground-based lidar systems that provide conti...

Improved Boundary Layer Depth Retrievals from MPLNET

Lewis, Jasper R.
Welton, Ellsworth J.
Molod, Andrea M.
Joseph, Everette

May 2013

Continuous lidar observations of the planetary boundary layer (PBL) depth have been made at the Micr...

Status of the NASA Micro Pulse Lidar Network (MPLNET): overview of the network and future plans, new version 3 data products, and the polarized MPL

Ellsworth J. Welton
Sebastian A. Stewart
Jasper R. Lewis
Larry R. Belcher
James R. Campbell
Simone Lolli

April 2018

The NASA Micro Pulse Lidar Network (MPLNET) is a global federated network of Micro-Pulse Lidars (MPL...

Novel lidar algorithms for atmospheric slantrange visibility, planetary boundary layer height, meteorogical phenomena and atmospheric layering measurements

Pantazis Alexandros
Papayannis Alexandros
Georgoussis Georgios

January 2018

In this paper we present a development of novel algorithms and techniques implemented within the Las...

Autonomous, Full-Time Cloud Profiling at Arm Sites with Micro Pulse Lidar

Scott, V. Stanley
Flynn, Connor J.
Spinhirne, James D.
Campbell, James R.
Hlavka, Dennis L.

Since the early 1990's technology advances permit ground based lidar to operate full time and profil...

Planetary Boundary Layer (PBL) monitoring by means of two Laser radar systems: experimental results and comparison.

Bellecci, C
Gaudio, P
Gelfusa, M
Lupelli, I
Malizia, A
Moretti, A
Richetta, M
Serafini, C
Ventura, P

January 2010

The PBL is the lower layer of the atmosphere that is sensitive to the effect of the Earth’s surface,...

Evaluation of Current Planetary Boundary Layer Retrieval Capabilities from Space

Schaefer, Alexander J.
Yorks, John
Santanello, Joseph A., Jr.
Blaisdell, John

August 2016

The PBL over land remains a significant gap in our water and energy cycle understanding from space. ...

Tailored Algorithms for the Detection of the Atmospheric Boundary Layer Height from Common Automatic Lidars and Ceilometers (ALC)

Kotthaus, Simone
Haeffelin, Martial
Drouin, Marc-Antoine
Dupont, Jean-Charles
Grimmond, Sue
Haefele, Alexander
Hervo, Maxime
Poltera, Yann
Wiegner, Matthias

October 2020

A detailed understanding of atmospheric boundary layer (ABL) processes is key to improve forecasting...

MPLNET V3 Cloud and Planetary Boundary Layer Detection

Jasper R. Lewis
Ellsworth J. Welton
James R. Campbell
Phillip C. Haftings

June 2016

The NASA Micropulse Lidar Network Version 3 algorithms for planetary boundary layer and cloud detect...

Operational Cloud Boundary Detection and Analysis from Micropulse Lidar Data

J. R. Campbell
D. L. Hlavka
J. D. Spinhirne
D. D. Turner
C. J. Flynn

October 2015

The micropulse lidar (MPL) was developed at the National Aeronautics and Space Administration’s (NAS...

Overview of the new version 3 NASA micro-pulse lidar network (MPLNET) automatic precipitation detection algorithm

Lolli S.
Vivone G.
Lewis J. R.
Sicard M.
Welton E. J.
Campbell J. R.
Comeron A.
D'Adderio L. P.
Tokay A.
Giunta A.
Pappalardo G.

January 2020

Precipitation modifies atmospheric column thermodynamics through the process of evaporation and serv...

An Overview of the Micro Pulse Lidar Network (MPLNET)

Welton, Ellsworth

September 2010

The NASA Micro Pulse Lidar Network (MPLNET) is a federated network of Micro Pulse Lidar (MPL) system...

Overview of the wew version 3 NASA Micro-Pulse Lidar Network (MPLNET) automatic precipitation detection algorithm

Lolli, S.
Vivone, Gemine
Lewis, Jasper R.
Sicard, Michaël
Welton, E.J.
Campbell, James R.
Comerón Tejero, Adolfo
D'Adderio, L.P.
Tokay, A.
Giunta, Aldo
Pappalardo, Gelsomina

January 2020

Precipitation modifies atmospheric column thermodynamics through the process of evaporation and serv...

An automatic light rain detection algorithm on NASA MPLNET lidar observations in the frame of WMO GALION project

Lolli S.
Sicard M.
Vivone G.
Lewis J. R.
Welton E. J.
Comeron A.

January 2019

The water cycle strongly influences life on Earth. In particular, the precipitation modifies the atm...

Planetary boundary layer height (PBLH) over the SGP

TIANNING SU

January 2022

Given the rapid change in clouds over land, radiosonde observations have limitations when it comes t...

Satellite to Ground-based LIDAR Comparisons using MPLNET Data Products

Welton, E. J.
Belcher, L.
Spinhirne, J.
Berkoff, T.A.
Campbell, J.

The Micro-Pulse Lidar Network (MPLNET) is a network of ground-based lidar systems that provide conti...

Improved Boundary Layer Depth Retrievals from MPLNET

Lewis, Jasper R.
Welton, Ellsworth J.
Molod, Andrea M.
Joseph, Everette

May 2013

Continuous lidar observations of the planetary boundary layer (PBL) depth have been made at the Micr...

Status of the NASA Micro Pulse Lidar Network (MPLNET): overview of the network and future plans, new version 3 data products, and the polarized MPL

Ellsworth J. Welton
Sebastian A. Stewart
Jasper R. Lewis
Larry R. Belcher
James R. Campbell
Simone Lolli

April 2018

The NASA Micro Pulse Lidar Network (MPLNET) is a global federated network of Micro-Pulse Lidars (MPL...

Novel lidar algorithms for atmospheric slantrange visibility, planetary boundary layer height, meteorogical phenomena and atmospheric layering measurements

Pantazis Alexandros
Papayannis Alexandros
Georgoussis Georgios

January 2018

In this paper we present a development of novel algorithms and techniques implemented within the Las...

Autonomous, Full-Time Cloud Profiling at Arm Sites with Micro Pulse Lidar

Scott, V. Stanley
Flynn, Connor J.
Spinhirne, James D.
Campbell, James R.
Hlavka, Dennis L.

Since the early 1990's technology advances permit ground based lidar to operate full time and profil...

Planetary Boundary Layer (PBL) monitoring by means of two Laser radar systems: experimental results and comparison.

Bellecci, C
Gaudio, P
Gelfusa, M
Lupelli, I
Malizia, A
Moretti, A
Richetta, M
Serafini, C
Ventura, P

January 2010

The PBL is the lower layer of the atmosphere that is sensitive to the effect of the Earth’s surface,...

Evaluation of Current Planetary Boundary Layer Retrieval Capabilities from Space

Schaefer, Alexander J.
Yorks, John
Santanello, Joseph A., Jr.
Blaisdell, John

August 2016

The PBL over land remains a significant gap in our water and energy cycle understanding from space. ...

Tailored Algorithms for the Detection of the Atmospheric Boundary Layer Height from Common Automatic Lidars and Ceilometers (ALC)

Kotthaus, Simone
Haeffelin, Martial
Drouin, Marc-Antoine
Dupont, Jean-Charles
Grimmond, Sue
Haefele, Alexander
Hervo, Maxime
Poltera, Yann
Wiegner, Matthias

October 2020

A detailed understanding of atmospheric boundary layer (ABL) processes is key to improve forecasting...

MPLNET V3 Cloud and Planetary Boundary Layer Detection

Abstract

Extracted data

MPLNET V3 Cloud and Planetary Boundary Layer Detection

Abstract

Extracted data

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