STRINQS: Difference between revisions
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|hasPrincipalInvestigator=Geet George | |hasPrincipalInvestigator=Geet George | ||
|hasDescription=4 meteorological quadcopter drones for boundary layer measurements | |hasDescription=4 meteorological quadcopter drones for boundary layer measurements | ||
}}STRINQS stands for '''''S'''oundings and '''T'''u'''R'''bulent eddy measurements in the '''I'''TCZ with a '''N'''etwork of '''Q'''uadcopter'''S''''' and is one of the campaigns under the umbrella of [https://orcestra-campaign.org/intro.html ORCESTRA], an international collaboration of measurement campaigns with the larger goal of understanding mesoscale organization of convection in the tropical Atlantic. | }} | ||
STRINQS stands for '''''S'''oundings and '''T'''u'''R'''bulent eddy measurements in the '''I'''TCZ with a '''N'''etwork of '''Q'''uadcopter'''S''''' and is one of the campaigns under the umbrella of [https://orcestra-campaign.org/intro.html ORCESTRA], an international collaboration of measurement campaigns with the larger goal of understanding mesoscale organization of convection in the tropical Atlantic. | |||
[[File:strinqs-sampling-strategy.png|alt=Image showing STRINQS’ Sampling Strategy where the four drones (A-D) cover four quadrants of a sub-mesoscale circle (dodecagon really!) centered around an anchored ship (green), thus providing 16 soundings at the perimeter.|thumb|STRINQS’ Sampling Strategy: The four drones (A-D) will cover four quadrants of a sub-mesoscale circle (dodecagon really!) centered around an anchored ship (green), thus providing 16 soundings at the perimeter.]] | |||
STRINQS will investigate the mesoscale structure of the ITCZ and the role of boundary-layer processes in organizing its structure by employing four meteorological drones. Co-ordinated drone flights (see sampling strategy figure) will be conducted with RV Meteor as the base. | |||
The objective is to perform simultaneous but spatially separated soundings and leverage the capability of arrayed drones in order to derive area-averaged mesoscale vertical velocity. The drones will also provide high-resolution atmospheric soundings of temperature, humidity, pressure, and 3D winds up to a height of 1.5 km. | The objective is to perform simultaneous but spatially separated soundings and leverage the capability of arrayed drones in order to derive area-averaged mesoscale vertical velocity. The drones will also provide high-resolution atmospheric soundings of temperature, humidity, pressure, and 3D winds up to a height of 1.5 km. | ||
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c. Understand the role of cold-pools in regulating the organization of convection. | c. Understand the role of cold-pools in regulating the organization of convection. | ||
Revision as of 12:34, 30 July 2024
Project: STRINQS | |
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Section | ARS |
Status | on-going |
Start Date | 2024-07-01 |
End Date | 2028-06-30 |
Principal Investigator: | User:Geet George |
Short Description | 4 meteorological quadcopter drones for boundary layer measurements |
Related Media
Project Participants
Geet George,Owen O'Driscoll,Rob Mackenzie
STRINQS stands for Soundings and TuRbulent eddy measurements in the ITCZ with a Network of QuadcopterS and is one of the campaigns under the umbrella of ORCESTRA, an international collaboration of measurement campaigns with the larger goal of understanding mesoscale organization of convection in the tropical Atlantic.
STRINQS will investigate the mesoscale structure of the ITCZ and the role of boundary-layer processes in organizing its structure by employing four meteorological drones. Co-ordinated drone flights (see sampling strategy figure) will be conducted with RV Meteor as the base.
The objective is to perform simultaneous but spatially separated soundings and leverage the capability of arrayed drones in order to derive area-averaged mesoscale vertical velocity. The drones will also provide high-resolution atmospheric soundings of temperature, humidity, pressure, and 3D winds up to a height of 1.5 km.
These measurements will be used to understand the variability of turbulent fluxes within and above the mixed layer, of updrafts and downdrafts as well as of cold-pools. This understanding will quantify the role played by these sub-mesoscale processes in the boundary layer in determining the ,mesoscale structure of the Atlantic ITCZ. Along with synergies with other sub-campaigns during ORCESTRA, STRINQS will provide measurements that will help to:
a. Distinguish boundary-layer features between the doldrums and the convergence bands
b. Investigate the relationship between up/downdrafts and boundary-layer features and
c. Understand the role of cold-pools in regulating the organization of convection.