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RE: [ RESCHEDULED ] Development of a NUOPC enabled Parametric Hurricane model (PaHM) as an atmospheric component for CoastalApp to support on-demand wave-surge coupled applications - May 2022

VLab Forum Members,

The May 2022 VLab Forum will occur on Thursday, the 26th, at 3:35 – 4:35pm (Eastern Time). The talk features a presentation by Panagiotis Velissariou, Saeed Moghimi, Edward Myers, and Andre Van der Westhuysen titled "Development of a NUOPC enabled Parametric Hurricane model (PaHM) as an atmospheric component for CoastalApp to support on-demand wave-surge coupled applications". We hope you can attend.

To participate in the forum, please register for the webinar.

Abstract:

Parametric atmospheric models are very useful on forcing ocean and wave models as they are light-weight and they do not require much time or computational resources to produce the on-demand wind fields for coastal and regional ocean simulations (e.g., storm surge modeling studies). The Parametric Hurricane Modeling system (PaHM) follows the same philosophy as well. PaHM (https://github.com/noaa-ocs-modeling/PaHM) is developed by the Coastal Marine Modeling Branch (CMMB) of the Coast Survey Development Laboratory (CSDL) under the umbrella of the Office of Coast Survey (OCS), NOAA/NOS. PaHM is a modeling system that contains a multiplicity of parametric models (Holland Models [1980, 2010], and the Generalized Asymmetric Vortex Model – GAHM), and it is left to the user to activate any of these models to generate the wind fields at run time. In the case of the presence of multiple storms in the basin, PaHM has the capability to integrate all the storms when generating the wind fields. PaHM can be used either as a standalone atmospheric model or can be coupled with ocean and wave models via NOAA’s Environmental Modeling System (NEMS), a common modeling coupling framework that implements the National Unified Operational Prediction Capability (NUOPC).

For this case study for Hurricane Florence (2018), we use CoastalApp (PaHM is a modeling component of the application), https://github.com/noaa-ocs-modeling/CoastalApp. CoastalApp is a flexible and portable modeling framework for coastal applications and regional forecasts. CoastalApp consists of multiple coupled modeling components that link the atmospheric, ocean and terrestrial realms under one common framework coupled using ESMF/NUOPC coupling capabilities.

We would like to acknowledge support from 3A-3a-4 Hurricane Supplemental 2018 and express our gratitude to Nicole Kurkowski - NOAA Federal for her exceptional leadership.

Agenda:

You can find the agenda for the Forum at the following link:

Add to Your Calendar:

To add this VLab Forum meeting to your calendar, please click on the following button.

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VLab Forum Members,

Due to scheduling issues, we have moved the May VLab Forum to Friday, June 17, 2022, at 2:35 – 3:30pm (Eastern Time). The talk still features a presentation by Panagiotis Velissariou, Saeed Moghimi, Edward Myers, and Andre Van der Westhuysen titled "Development of a NUOPC enabled Parametric Hurricane model (PaHM) as an atmospheric component for CoastalApp to support on-demand wave-surge coupled applications". We hope you can attend.

To participate in the forum, please register for the webinar

(NOTE:  If you registered for the webinar when it was scheduled for May, there is no need to reregister for the webinar at its new date and time.

Abstract:

Parametric atmospheric models are very useful on forcing ocean and wave models as they are light-weight and they do not require much time or computational resources to produce the on-demand wind fields for coastal and regional ocean simulations (e.g., storm surge modeling studies). The Parametric Hurricane Modeling system (PaHM) follows the same philosophy as well. PaHM (https://github.com/noaa-ocs-modeling/PaHM) is developed by the Coastal Marine Modeling Branch (CMMB) of the Coast Survey Development Laboratory (CSDL) under the umbrella of the Office of Coast Survey (OCS), NOAA/NOS. PaHM is a modeling system that contains a multiplicity of parametric models (Holland Models [1980, 2010], and the Generalized Asymmetric Vortex Model – GAHM), and it is left to the user to activate any of these models to generate the wind fields at run time. In the case of the presence of multiple storms in the basin, PaHM has the capability to integrate all the storms when generating the wind fields. PaHM can be used either as a standalone atmospheric model or can be coupled with ocean and wave models via NOAA’s Environmental Modeling System (NEMS), a common modeling coupling framework that implements the National Unified Operational Prediction Capability (NUOPC).

For this case study for Hurricane Florence (2018), we use CoastalApp (PaHM is a modeling component of the application), https://github.com/noaa-ocs-modeling/CoastalApp. CoastalApp is a flexible and portable modeling framework for coastal applications and regional forecasts. CoastalApp consists of multiple coupled modeling components that link the atmospheric, ocean and terrestrial realms under one common framework coupled using ESMF/NUOPC coupling capabilities.

We would like to acknowledge support from 3A-3a-4 Hurricane Supplemental 2018 and express our gratitude to Nicole Kurkowski - NOAA Federal for her exceptional leadership.

Agenda:

You can find the agenda for the Forum at the following link:

Add to Your Calendar:

To add this VLab Forum meeting to your calendar, please click on the following button.

Unsubscribe/subscribe to VLab Forum announcements (You must be logged into the VLab)

VLab Forum Members,

Just a quick reminder that the May VLab Forum, which was rescheduled for Friday, June 17, 2022, at 2:35 – 3:30pm (Eastern Time), will take place this week. This is the first of two VLab Forum talks this month and features a presentation by Panagiotis Velissariou, Saeed Moghimi, Edward Myers, and Andre Van der Westhuysen titled "Development of a NUOPC enabled Parametric Hurricane model (PaHM) as an atmospheric component for CoastalApp to support on-demand wave-surge coupled applications". We hope you can attend.

To participate in the forum, please register for the webinar

(NOTE:  If you registered for the webinar when it was scheduled for May, there is no need to reregister for the webinar at its new date and time.

Abstract:

Parametric atmospheric models are very useful on forcing ocean and wave models as they are light-weight and they do not require much time or computational resources to produce the on-demand wind fields for coastal and regional ocean simulations (e.g., storm surge modeling studies). The Parametric Hurricane Modeling system (PaHM) follows the same philosophy as well. PaHM (https://github.com/noaa-ocs-modeling/PaHM) is developed by the Coastal Marine Modeling Branch (CMMB) of the Coast Survey Development Laboratory (CSDL) under the umbrella of the Office of Coast Survey (OCS), NOAA/NOS. PaHM is a modeling system that contains a multiplicity of parametric models (Holland Models [1980, 2010], and the Generalized Asymmetric Vortex Model – GAHM), and it is left to the user to activate any of these models to generate the wind fields at run time. In the case of the presence of multiple storms in the basin, PaHM has the capability to integrate all the storms when generating the wind fields. PaHM can be used either as a standalone atmospheric model or can be coupled with ocean and wave models via NOAA’s Environmental Modeling System (NEMS), a common modeling coupling framework that implements the National Unified Operational Prediction Capability (NUOPC).

For this case study for Hurricane Florence (2018), we use CoastalApp (PaHM is a modeling component of the application), https://github.com/noaa-ocs-modeling/CoastalApp. CoastalApp is a flexible and portable modeling framework for coastal applications and regional forecasts. CoastalApp consists of multiple coupled modeling components that link the atmospheric, ocean and terrestrial realms under one common framework coupled using ESMF/NUOPC coupling capabilities.

We would like to acknowledge support from 3A-3a-4 Hurricane Supplemental 2018 and express our gratitude to Nicole Kurkowski - NOAA Federal for her exceptional leadership.

Agenda:

You can find the agenda for the Forum at the following link:

Add to Your Calendar:

To add this VLab Forum meeting to your calendar, please click on the following button.

Unsubscribe/subscribe to VLab Forum announcements (You must be logged into the VLab)

VLab Forum Members,

Due to DOC's early release this Friday, we have rescheduled this VLab Forum to Friday, August 19, 2022, at 3:00 – 4:00pm (Eastern Time). The talk still features a presentation by Panagiotis Velissariou, Saeed Moghimi, Edward Myers, and Andre Van der Westhuysen titled "Development of a NUOPC enabled Parametric Hurricane model (PaHM) as an atmospheric component for CoastalApp to support on-demand wave-surge coupled applications". We hope you can attend on the new date and time.

To participate in the forum, please register for the webinar

(NOTE:  If you have already registered for the webinar, there is no need to reregister for the webinar at its new date and time.

Abstract:

Parametric atmospheric models are very useful on forcing ocean and wave models as they are light-weight and they do not require much time or computational resources to produce the on-demand wind fields for coastal and regional ocean simulations (e.g., storm surge modeling studies). The Parametric Hurricane Modeling system (PaHM) follows the same philosophy as well. PaHM (https://github.com/noaa-ocs-modeling/PaHM) is developed by the Coastal Marine Modeling Branch (CMMB) of the Coast Survey Development Laboratory (CSDL) under the umbrella of the Office of Coast Survey (OCS), NOAA/NOS. PaHM is a modeling system that contains a multiplicity of parametric models (Holland Models [1980, 2010], and the Generalized Asymmetric Vortex Model – GAHM), and it is left to the user to activate any of these models to generate the wind fields at run time. In the case of the presence of multiple storms in the basin, PaHM has the capability to integrate all the storms when generating the wind fields. PaHM can be used either as a standalone atmospheric model or can be coupled with ocean and wave models via NOAA’s Environmental Modeling System (NEMS), a common modeling coupling framework that implements the National Unified Operational Prediction Capability (NUOPC).

For this case study for Hurricane Florence (2018), we use CoastalApp (PaHM is a modeling component of the application), https://github.com/noaa-ocs-modeling/CoastalApp. CoastalApp is a flexible and portable modeling framework for coastal applications and regional forecasts. CoastalApp consists of multiple coupled modeling components that link the atmospheric, ocean and terrestrial realms under one common framework coupled using ESMF/NUOPC coupling capabilities.

We would like to acknowledge support from 3A-3a-4 Hurricane Supplemental 2018 and express our gratitude to Nicole Kurkowski - NOAA Federal for her exceptional leadership.

Agenda:

You can find the agenda for the Forum at the following link:

Add to Your Calendar:

To add this VLab Forum meeting to your calendar, please click on the following button.

Unsubscribe/subscribe to VLab Forum announcements (You must be logged into the VLab)

VLab Forum Members,

Just a remind that the first of three VLab Forums this month will occur this Friday, August 19, 2022, at 3:00 – 4:00pm (Eastern Time). The talk features a presentation by Panagiotis Velissariou, Saeed Moghimi, Edward Myers, and Andre Van der Westhuysen titled "Development of a NUOPC enabled Parametric Hurricane model (PaHM) as an atmospheric component for CoastalApp to support on-demand wave-surge coupled applications". We hope you can attend on the new date and time.

To participate in the forum, please register for the webinar

(NOTE:  If you have already registered for the webinar, there is no need to reregister for the webinar at its new date and time.

Abstract:

Parametric atmospheric models are very useful on forcing ocean and wave models as they are light-weight and they do not require much time or computational resources to produce the on-demand wind fields for coastal and regional ocean simulations (e.g., storm surge modeling studies). The Parametric Hurricane Modeling system (PaHM) follows the same philosophy as well. PaHM (https://github.com/noaa-ocs-modeling/PaHM) is developed by the Coastal Marine Modeling Branch (CMMB) of the Coast Survey Development Laboratory (CSDL) under the umbrella of the Office of Coast Survey (OCS), NOAA/NOS. PaHM is a modeling system that contains a multiplicity of parametric models (Holland Models [1980, 2010], and the Generalized Asymmetric Vortex Model – GAHM), and it is left to the user to activate any of these models to generate the wind fields at run time. In the case of the presence of multiple storms in the basin, PaHM has the capability to integrate all the storms when generating the wind fields. PaHM can be used either as a standalone atmospheric model or can be coupled with ocean and wave models via NOAA’s Environmental Modeling System (NEMS), a common modeling coupling framework that implements the National Unified Operational Prediction Capability (NUOPC).

For this case study for Hurricane Florence (2018), we use CoastalApp (PaHM is a modeling component of the application), https://github.com/noaa-ocs-modeling/CoastalApp. CoastalApp is a flexible and portable modeling framework for coastal applications and regional forecasts. CoastalApp consists of multiple coupled modeling components that link the atmospheric, ocean and terrestrial realms under one common framework coupled using ESMF/NUOPC coupling capabilities.

We would like to acknowledge support from 3A-3a-4 Hurricane Supplemental 2018 and express our gratitude to Nicole Kurkowski - NOAA Federal for her exceptional leadership.

Agenda:

You can find the agenda for the Forum at the following link:

Add to Your Calendar:

To add this VLab Forum meeting to your calendar, please click on the following button.

Unsubscribe/subscribe to VLab Forum announcements (You must be logged into the VLab)

VLab Forum Members,

Just a remind that today's VLab Forums will start at 3:00pm (Eastern Time). The talk features a presentation by Panagiotis Velissariou, Saeed Moghimi, Edward Myers, and Andre Van der Westhuysen titled "Development of a NUOPC enabled Parametric Hurricane model (PaHM) as an atmospheric component for CoastalApp to support on-demand wave-surge coupled applications". Please note that a copy of the presentation slides are included in this announcement.

To participate in the forum, please register for the webinar

Abstract:

Parametric atmospheric models are very useful on forcing ocean and wave models as they are light-weight and they do not require much time or computational resources to produce the on-demand wind fields for coastal and regional ocean simulations (e.g., storm surge modeling studies). The Parametric Hurricane Modeling system (PaHM) follows the same philosophy as well. PaHM (https://github.com/noaa-ocs-modeling/PaHM) is developed by the Coastal Marine Modeling Branch (CMMB) of the Coast Survey Development Laboratory (CSDL) under the umbrella of the Office of Coast Survey (OCS), NOAA/NOS. PaHM is a modeling system that contains a multiplicity of parametric models (Holland Models [1980, 2010], and the Generalized Asymmetric Vortex Model – GAHM), and it is left to the user to activate any of these models to generate the wind fields at run time. In the case of the presence of multiple storms in the basin, PaHM has the capability to integrate all the storms when generating the wind fields. PaHM can be used either as a standalone atmospheric model or can be coupled with ocean and wave models via NOAA’s Environmental Modeling System (NEMS), a common modeling coupling framework that implements the National Unified Operational Prediction Capability (NUOPC).

For this case study for Hurricane Florence (2018), we use CoastalApp (PaHM is a modeling component of the application), https://github.com/noaa-ocs-modeling/CoastalApp. CoastalApp is a flexible and portable modeling framework for coastal applications and regional forecasts. CoastalApp consists of multiple coupled modeling components that link the atmospheric, ocean and terrestrial realms under one common framework coupled using ESMF/NUOPC coupling capabilities.

We would like to acknowledge support from 3A-3a-4 Hurricane Supplemental 2018 and express our gratitude to Nicole Kurkowski - NOAA Federal for her exceptional leadership.

Agenda:

You can find the agenda for the Forum at the following link:

Slides:

You can find the slides for the talk at the following link:

Add to Your Calendar:

To add this VLab Forum meeting to your calendar, please click on the following button.

Unsubscribe/subscribe to VLab Forum announcements (You must be logged into the VLab)

VLab Forum Members,

For those of you who were unable to attend the August 19, 2022 VLab Forum, I have posted a recording of the talk, presented by Panagiotis Velissariou and Saeed Moghimi, and titled "Development of a NUOPC enabled Parametric Hurricane model (PaHM) as an atmospheric component for CoastalApp to support on-demand wave-surge coupled applications" to the following VLab page (see link below).

VLab Forum talks and their recordings