FDTD Summary: Convective Cloud Tops Training, Geostationary Lightning Mapper (GLM), Mesoscale Convective Systems, and RGB Imagery

Convective Cloud Top Satellite Signatures

 

Storm Signatures Observed in Satellite Imagery 

Above Anvil Cirrus Plumes

GOES-R Cloud and Microphysical Products, Fog and Low Stratus

GOES-R Cumulus Growth

GOES-R Discrete Storms

1-minute Visible Satellite Imagery Applications for Severe Thunderstorms

Objective Satellite-Based Overshooting Top and Enhanced-V Anvil Thermal Couplet Signature Detection

Satellite Observations of an Earlier-than-Forecast, Explosive Convective Initiation

The Above Anvil Cirrus Plume - An Important Indicator of a Severe Storm in Visible and IR Imagery

June 9-10 Severe Weather Review

 

GOES-R Series Geostationary Lightning Mapper (GLM)

(parallax considerations, advantages and limitations)

 

WDTD SOTM: Enhancing Severe Weather Warning Decisions with Total Lightning Dat 

GLM Definitions and Methods Quick Guide

A First Look at GLM in AWIPS

Visualizing the Geostationary Lightning Mapper (GLM) in AWIPS

Utilizing GLM Products for Marginally Severe Storms

Moving Toward Situational Awareness with the Geostationary Lightning Mapper

Utilizing GLM in the Warning Process

Use of GOES-East Composite RGB Imagery and GLM Data in the Ohio Valley

Issuing Convective Warnings Without Radar

Operational Observations from the Geostationary Lightning Mapper and Lightning Mapping Arrays

GLM Full Disk Data Quality Quick Guide

GLM Minimum Flash Area (MFA) Quick Guide

GLM Gridded Products Quick Guide

Geostationary Lightning Mapper Applications

Geostationary Lightning Mapper (GLM) and Ground-Based Networks

Satellite Lightning Products and Best Practices

Warning Decision Training Division (WDTD) Storm Of The Month (SOTM): Utilizing GLM in the Warning Process

 

Mesoscale Convective Systems and Vortices

 

GOES-R Mesoscale Convective Systems

Mesoscale Convective Vortices

High Winds in Memphis

 

RGB Products for Convective Systems: Determine Cloud Top Glaciation & Detection of Above-Anvil Cirrus Plumes

 

Integrating GOES-R Into Mesoanalysis

Above Anvil Cirrus Plumes

Nighttime View of Inflow Feeder Clouds from GOES Nighttime Microphysics RGB

Use of GOES-East Composite RGB Imagery and GLM Data in the Ohio Valley

Day Cloud Phase Distinction RGB Composite: Gaining Situational Awareness for DSS

The Use of New GOES-16 Satellite Data for Convection over the Southeastern United States

Nighttime Microphysics RGB for Detection of Fog, Low Stratus and Nighttime Boundary Layer Gradients

Day Cloud Phase Distinction RGB Quick Guide

Day Cloud Convection RGB Quick Guide

Day Convection RGB Quick Guide