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Tools for creating automated QA in IMAQS
The task is to create date selectable programs that can be used to automatically generate QA/QC output.
CMAQ Output
| Vertical cross-section | PAVE | Nankyoung |
| Horizontal distribution (Species: 03, CO, NO, NO2) every 3 or 6 hours | PAVE | Nankyoung |
| Time series comparisons with observations | IDL | Hee-jin |
| Scatter Diagram | IDL | Hee-jin |
| Aircraft | DX Driver 3D, IDL | Seung-bum |
| Horizontal dist; 3D animation | MATLAB | Trung |
| Bias, Statistics | MATLAB | Trung |
Observations: Meteorology
| Vertical cross-section | GrADS | Bonnie |
| Horizontal (surface, 1000hPa, 900hPa, 850 hPa, 700 hPa, 500hPa geopotential height, temperature, winds PBL SHF, LHF | NCARG |
Hee-jin Fantine |
| Time series | IDL | Craig/Hee-jin |
Emissions:
1. Diurnal cycles of hourly emissions rates among AQF-ready emissions with different options; emissions types, input meteorological data, etc.
2. Verical profiles of hourly emissions to compare the plume rise for major point source emissions. Sepecified source area of interest (i.e. the Ship Channel area) can be defined.
3. Analysis on meteorological conditions that has effects on biogenic emissions and plume rise of point source emissions.
4. General comparisons of CMAQ results for different emissions processing options: the 1st layer maximum and average concentrations for the species selected for a targeted area and/or for each county.
