Filtering Drifter Trajectories Sampled at Submesoscale Resolution

Bias in particle tracking acceleration measurement

Lawson, John M.
Bodenschatz, Eberhard
Lalescu, Cristian C.
Wilczek, Michael

November 2018

Abstract: We investigate sources of systematic error (bias) in acceleration statistics derived from ...

Improved adaptive Huber filter for relative navigation using global position system

X Shao
D Gong
D Duan

January 2010

Abstract: An improved adaptive Huber filter algorithm is presented to model error and mea-surement n...

Statistical properties of the surface velocity field in the northern Gulf of Mexico sampled by GLAD drifters

Mariano, A.J. (author)
Ryan, E.H. (author)
Huntley, H.S. (author)
Laurindo, L.C. (author)
Coelho, E. (author)
Ozgokmen, TM (author)
Berta, M. (author)
Bogucki, D (author)
Chen, S.S. (author)
Curcic, M. (author)
Drouin, K.L. (author)
Gough, M (author)
Haus, BK (author)
Haza, A.C. (author)
Hogan, P (author)
Iskandarani, M (author)
Jacobs, G (author)
Kirwan Jr., A.D. (author)
Laxague, N (author)
Lipphardt Jr., B. (author)
Magaldi, M.G. (author)
Novelli, G. (author)
Reniers, A.J.H.M. (author)
Restrepo, J.M. (author)
Smith, C (author)
Valle-Levinson, A. (author)
Wei, M. (author)

January 2016

The Grand LAgrangian Deployment (GLAD) used multiscale sampling and GPS technology to observe time s...

Filtering Drifter Trajectories Sampled at Submesoscale Resolution

Yaremchuk, Max
Coelho, Emanuel F.

July 2015

In this paper, a variational method for removing positioning errors (PEs) from drifter trajectories ...

Machine-learning mesoscale and submesoscale surface dynamics from lagrangian ocean drifter trajectories

Aksamit, Nikolas O.
Sapsis, Themistoklis Panagiotis
Haller, George

August 2020

Lagrangian ocean drifters provide highly accurate approximations of ocean surface currents but are s...

A global surface drifter data set at hourly resolution

Elipot, Shane
Lumpkin, Rick
Perez, Renellys C.
Lilly, Jonathan M.
Early, Jeffrey J.
Sykulski, Adam M.

May 2016

The surface drifting buoys, or drifters, of the Global Drifter Program (GDP) are predominantly track...

High resolution GNSS-tracked drifter for studying surface dispersion in shallow water

Suara, Kabir Adewale
Wang, Charles
Feng, Yanming
Brown, Richard
Chanson, Hubert
Borgas, Michael

January 2015

The use of GNSS tracked Lagrangian drifters allows more realistic quantification of fluid motion and...

Evaluation of Trajectory Modeling in Different Dynamic Regions Using Normalized Cumulative Lagrangian Separation

Liu, Yonggang
Weisberg, Robert H.

September 2011

The Lagrangian separation distance between the endpoints of simulated and observed drifter trajector...

Prediction of Drifter Trajectory Using Evolutionary Computation

Yong-Wook Nam
Yong-Hyuk Kim

January 2018

We used evolutionary computation to predict the trajectory of surface drifters. The data used to cre...

Using flow geometry for drifter deployment in Lagrangian data assimilation

Salman, H.
Ide, K.
Jones, C. K.R.T.

January 2008

Methods of Lagrangian data assimilation (LaDA) require carefully chosen sites for optimal drifter de...

Decreasing flow uncertainty in Bayesian inverse problems through Lagrangian drifter control

January 2014

Commonplace in oceanography is the collection of ocean drifter posi-tions. Ocean drifters are device...

Separating Mesoscale and Submesoscale Flows from Clustered Drifter Trajectories

Oscroft, Sarah
Sykulski, Adam M.
Early, Jeffrey J.

December 2020

Drifters deployed in close proximity collectively provide a unique observational data set with which...

Surface drifters and model trajectories in the Baltic sea

Kjellsson, Joakim
Döös, Kristofer

January 2012

Results from recent deployments of surface drifters in the Baltic Sea are presented. For the first t...

Separating mesoscale and submesoscale flows from clustered drifter trajectories

Oscroft, S
Sykulski, AM
Early, JJ

December 2020

Drifters deployed in close proximity collectively provide a unique observational data set with which...

Removing Spurious Low-Frequency Variability in Drifter Velocities

Rick Lumpkin
Semyon A Grodsky
Luca Centurioni
Marie-Helene Rio
James A Carton
Dongkyu Lee

March 2020

ABSTRACT Satellite-tracked drifting buoys of the Global Drifter Program have drogues, centered at 15...

Bias in particle tracking acceleration measurement

Lawson, John M.
Bodenschatz, Eberhard
Lalescu, Cristian C.
Wilczek, Michael

November 2018

Abstract: We investigate sources of systematic error (bias) in acceleration statistics derived from ...

Improved adaptive Huber filter for relative navigation using global position system

X Shao
D Gong
D Duan

January 2010

Abstract: An improved adaptive Huber filter algorithm is presented to model error and mea-surement n...

Statistical properties of the surface velocity field in the northern Gulf of Mexico sampled by GLAD drifters

Mariano, A.J. (author)
Ryan, E.H. (author)
Huntley, H.S. (author)
Laurindo, L.C. (author)
Coelho, E. (author)
Ozgokmen, TM (author)
Berta, M. (author)
Bogucki, D (author)
Chen, S.S. (author)
Curcic, M. (author)
Drouin, K.L. (author)
Gough, M (author)
Haus, BK (author)
Haza, A.C. (author)
Hogan, P (author)
Iskandarani, M (author)
Jacobs, G (author)
Kirwan Jr., A.D. (author)
Laxague, N (author)
Lipphardt Jr., B. (author)
Magaldi, M.G. (author)
Novelli, G. (author)
Reniers, A.J.H.M. (author)
Restrepo, J.M. (author)
Smith, C (author)
Valle-Levinson, A. (author)
Wei, M. (author)

January 2016

The Grand LAgrangian Deployment (GLAD) used multiscale sampling and GPS technology to observe time s...

Filtering Drifter Trajectories Sampled at Submesoscale Resolution

Yaremchuk, Max
Coelho, Emanuel F.

July 2015

In this paper, a variational method for removing positioning errors (PEs) from drifter trajectories ...

Machine-learning mesoscale and submesoscale surface dynamics from lagrangian ocean drifter trajectories

Aksamit, Nikolas O.
Sapsis, Themistoklis Panagiotis
Haller, George

August 2020

Lagrangian ocean drifters provide highly accurate approximations of ocean surface currents but are s...

A global surface drifter data set at hourly resolution

Elipot, Shane
Lumpkin, Rick
Perez, Renellys C.
Lilly, Jonathan M.
Early, Jeffrey J.
Sykulski, Adam M.

May 2016

The surface drifting buoys, or drifters, of the Global Drifter Program (GDP) are predominantly track...

High resolution GNSS-tracked drifter for studying surface dispersion in shallow water

Suara, Kabir Adewale
Wang, Charles
Feng, Yanming
Brown, Richard
Chanson, Hubert
Borgas, Michael

January 2015

The use of GNSS tracked Lagrangian drifters allows more realistic quantification of fluid motion and...

Evaluation of Trajectory Modeling in Different Dynamic Regions Using Normalized Cumulative Lagrangian Separation

Liu, Yonggang
Weisberg, Robert H.

September 2011

The Lagrangian separation distance between the endpoints of simulated and observed drifter trajector...

Prediction of Drifter Trajectory Using Evolutionary Computation

Yong-Wook Nam
Yong-Hyuk Kim

January 2018

We used evolutionary computation to predict the trajectory of surface drifters. The data used to cre...

Using flow geometry for drifter deployment in Lagrangian data assimilation

Salman, H.
Ide, K.
Jones, C. K.R.T.

January 2008

Methods of Lagrangian data assimilation (LaDA) require carefully chosen sites for optimal drifter de...

Decreasing flow uncertainty in Bayesian inverse problems through Lagrangian drifter control

January 2014

Commonplace in oceanography is the collection of ocean drifter posi-tions. Ocean drifters are device...

Separating Mesoscale and Submesoscale Flows from Clustered Drifter Trajectories

Oscroft, Sarah
Sykulski, Adam M.
Early, Jeffrey J.

December 2020

Drifters deployed in close proximity collectively provide a unique observational data set with which...

Surface drifters and model trajectories in the Baltic sea

Kjellsson, Joakim
Döös, Kristofer

January 2012

Results from recent deployments of surface drifters in the Baltic Sea are presented. For the first t...

Separating mesoscale and submesoscale flows from clustered drifter trajectories

Oscroft, S
Sykulski, AM
Early, JJ

December 2020

Drifters deployed in close proximity collectively provide a unique observational data set with which...

Removing Spurious Low-Frequency Variability in Drifter Velocities

Rick Lumpkin
Semyon A Grodsky
Luca Centurioni
Marie-Helene Rio
James A Carton
Dongkyu Lee

March 2020

ABSTRACT Satellite-tracked drifting buoys of the Global Drifter Program have drogues, centered at 15...

Bias in particle tracking acceleration measurement

Lawson, John M.
Bodenschatz, Eberhard
Lalescu, Cristian C.
Wilczek, Michael

November 2018

Abstract: We investigate sources of systematic error (bias) in acceleration statistics derived from ...

Improved adaptive Huber filter for relative navigation using global position system

X Shao
D Gong
D Duan

January 2010

Abstract: An improved adaptive Huber filter algorithm is presented to model error and mea-surement n...

Statistical properties of the surface velocity field in the northern Gulf of Mexico sampled by GLAD drifters

Mariano, A.J. (author)
Ryan, E.H. (author)
Huntley, H.S. (author)
Laurindo, L.C. (author)
Coelho, E. (author)
Ozgokmen, TM (author)
Berta, M. (author)
Bogucki, D (author)
Chen, S.S. (author)
Curcic, M. (author)
Drouin, K.L. (author)
Gough, M (author)
Haus, BK (author)
Haza, A.C. (author)
Hogan, P (author)
Iskandarani, M (author)
Jacobs, G (author)
Kirwan Jr., A.D. (author)
Laxague, N (author)
Lipphardt Jr., B. (author)
Magaldi, M.G. (author)
Novelli, G. (author)
Reniers, A.J.H.M. (author)
Restrepo, J.M. (author)
Smith, C (author)
Valle-Levinson, A. (author)
Wei, M. (author)

January 2016

The Grand LAgrangian Deployment (GLAD) used multiscale sampling and GPS technology to observe time s...

Filtering Drifter Trajectories Sampled at Submesoscale Resolution

Abstract

Extracted data

Filtering Drifter Trajectories Sampled at Submesoscale Resolution

Abstract

Extracted data

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