G16 ABI B07 Cold Scene Bias to IASI - Action: GIR j

Slides:

Advertisements

Similar presentations

22 March 2011: GSICS GRWG & GDWG Meeting Daejeon, Korea Tim Hewison SEVIRI-IASI Inter-calibration Uncertainty Evaluation.

Advertisements

Development of a Simulated Synthetic Natural Color ABI Product for GOES-R AQPG Hai Zhang UMBC 1/12/2012 GOES-R AQPG workshop.

1 Weekly Report on GOES-14 PLT Science Test NOAA / NESDIS / STAR X. Wu, G. Rancic, F. Yu December 18, 2009.

Japan Meteorological Agency, June 2016 Coordination Group for Meteorological Satellites - CGMS Non-Meteorological Application for Himawari-8 Presented.

Agency xxx, version xx, Date xx 2016 [update in the slide master] Coordination Group for Meteorological Satellites - CGMS Introduction to GSICS Presented.

Characterizing Diurnal Calibration Variations using Double-Differences Fangfang Yu.

Bias analysis and correction for MetOp/AVHRR IR channel using AVHRR-IASI inter-comparison Tiejun Chang and Xiangqian Wu GSICS Joint Research and data Working.

NOAA GPRC Report Fangfang Yu and Fred Wu 05 March 2012.

GSICS Coordination Center Report Fangfang Yu, Fuzhong Weng, Fred Wu and George Ohring NOAA/Center for Satellite Applications and Research 8 April, 2013.

Inter-Sensor Comparison for Soumi NPP CrIS Likun Wang 1, Yong Han 2*, Denis Tremblay 3, Fuzhong Weng 2, and Mitch Goldberg 4 1. CICS/ESSIC/University of.

Visible vicarious calibration using RTM

Lunar Radiance Calibration ABI/AHI Solar Reflective Bands

GSICS Web Meeting, 17 November 2011

GRWG/GDWG Joint Web Meeting Agenda

2016 GSICS Annual Meeting 29 Feb. – 4 March 2016 Tsukuba, Japan

Fangfang Yu, Fuzhong Weng, Xiangqian Wu, and Ninghai Sun

Fangfang Yu and Xiangqian Wu

KMA GDWG Activity Progress Report

GOES-16 ABI Lunar Data Preparation to GIRO

GOES-East DCC analysis

FY2-IASI and FY3C-IASI towards Demo

Fangfang Yu and Fred Wu 22 March 2011

Japan Meteorological Agency / Meteorological Satellite Center

GOES Imager IR Midnight Calibration Anomaly and Correction

JMA Agency Report 2017 Arata Okuyama, Masaya Takahashi and Hidehiko Murata Meteorological Satellite Center, Japan Meteorological Agency.

Inter-Sensor Comparison for Soumi NPP CrIS

Annual GSICS Calibration Report for {Agency}

Masaya Takahashi (JMA), Dohyeong Kim (KMA),

Effort toward Characterization of Selected Lunar Sites for the Radiometric Calibration of Solar Reflective Bands Fangfang Yu1, Xi Shao1, Xiangqian Wu2.

Towards a Community Best Practice of Using Lunar Image for On-Orbit Evaluation of Modulation Transfer Function (MTF) Xi (Sean) Shao1, Xiangqian Wu2, Fangfang.

Evaluation of ABI Radiometric Characteristics Using Lunar Measurements

AHI IR Tb bias variation diurnal & at low temperature

Diurnal and Seasonal variations of COMS IR inter-calibration

GOES Imager Lunar Calibration: Angular Variation of the Scan Mirror Visible Reflectivity Fangfang Yu (ERT, Xiangqian Wu(NOAA/NESDIS), Tom Stone(USGS),

Infrared Inter-Calibration Product Announcements

Inter-satellite Calibration of HIRS OLR Time Series

2018 GSICS Data & Research Working Groups Annual Meeting

Dorothee Coppens.

GSICS IR Reference Uncertainty & Traceability Report

Fangfang Yu1 and Xiangqian Wu2

Early calibration results of FY-4A/GIIRS during in-orbit testing

GOES DCC Deseasonalization & AHI DCC Calibration

Meteorological Satellite Center, Japan Meteorological Agency

Na Xu, Xiuqing Hu, Lin Chen, Min Min

GSICS A WIGOS Component

Lunar calibration of COMS visible channel using GIRO

Masaya Takahashi (JMA) Dohyeong Kim (KMA)

SRF Retrieval Using VIIRS/AIRS/IASI radiances

Use of GSICS to Improve Operational Radiometric Calibration

Developing GSICS products for IR channels of GEO imagers Tim Hewison

Annual GSICS Calibration Report – Way forward

Masaya Takahashi1, Yusuke Yogo1, Qiang Guo2, Xiuqing Hu2, and Na Xu2

S. Ackerman, M. Gunshor and T. Schmit CIMSS, APSB

GSICS IR Reference Uncertainty & Traceability Report Tim Hewison

Impacts of I01 and M05 of S-NPP/VIIRS on AHI-VIIRS Ray-matching

Tim Hewison1 and all GSICS Developers EUMETSAT

Presentation of GSICS Inter-Calibration Results - Web Displays

goes-16/17 abi lunar calibration

Na XU Xiuqing HU Lin CHEN Ling SUN NSMC CMA

G16 vs. G17 IR Inter-comparison: Some Experiences and Lessons from validation toward GEO-GEO Inter-calibration Fangfang Yu, Xiangqian Wu, Hyelim Yoo and.

Xiangqian Wu and Fangfang Yu

Why use NWP for GSICS? It is crucial for climate and very desirable for NWP that we understand the characteristics of satellite radiance biases Simultaneous.

Variogram Stability Analysis

Infrared Sub-Group Report Tim Hewison

Defining the Products: ‘GSICS Correction’

Masaya Takahashi1, Yusuke Yogo1, Qiang Guo2, Xiuqing Hu2, and Na Xu2

GSICS: A WIGOS Component

GSICS IR Reference Uncertainty & Traceability Report

Discussion Way Forward for Multispectral IR

Sno Prediction and Unit testing

Presentation transcript:

G16 ABI B07 Cold Scene Bias to IASI - Action: GIR.2018.3j Fangfang Yu, Xiangqian Wu and Zhipeng Wang 03/07/2019 NOAA/NESDIS/STAR 2019 GSICS Annual Meeting, Frascati, Italy

H8 AHI vs. IASI AHI-8 B07 Cold bias to IASI-A/IASI-B at cold scenes

GOES-16 ABI vs. Metop-A/B IASI NO extreme cold scenes if standard GSICS homogenous collocation criteria applied: CoV of radiance < 5%

GOES-16: CoV of Radiance < 25% At relaxed uniformity threshold (from 5% to 25%), positive radiance dependent Tb bias can be observed at extreme cold scenes (<230K). This radiance dependent Tb bias only observed at B07.

Radiance Bias (Zoom-in) Same data in the TB bias pots in the previous slide, but for the scene radiance Bias. Scene dependent bias occurs at low radiance scenes

Radiance -> Tb Conversion Blue: conversion algorithm applied with central wavelength and conversion coefficients Red: Tb and radiance conversion Look-up-table provided by the Vendor Could it be due to radiance -> Tb conversion? The answer from this plot is NO.

GOES-17 ABI B07 vs. IASI-A/B CoV of radiance < 35% Positive Tb bias can also be seen at G17 B07 cold scenes (<220K). Further relaxed the uniformity threshold to 35%

G16 B08 vs. IASI-B No apparent scene dependent bias at cold scenes for G16 B08 CoV threshold is set to 25%

Can it be due to non-linear detector response? ABI-IASI Bias is unlikely due to the residual of ABI B07 non-linear correction?

Most likely introduced during the resampling process Locations of the extreme cold pixels with warm bias at B07 L1b image Need to relax the uniformity scene threshold to detect the bias At a heterogeneous area, resampling may slightly increase the radiance for the cold scenes B07 Tb is sensitive to radiance variation at cold scenes, due to the nature of the Planck function.

Summary and Discussion No extreme cold pixels in uniform ENV/FOV areas can be detected within the G16/17 ABI spatial domains. The warm bias was identified at “non-uniform” area. The resampling process is most likely the culprit. For the cold bias at AHI-8 B07 cold scenes Coherence noise correction algorithm is applied to AHI-8 B07 data. Could it be possible that the cold bias at AHI8 B07 is related to the coherence noise correction? How about AHI-9 and AMI? Cold or warm bias at AHI-9 and AMI? To apply NOAA’s method for the investigation?