New Reprocessing towards Life-Time Quality-Consistent Suomi NPP OMPS Nadir Sensor Data Records (SDR): Calibration Improvements and Impact Assessments on Long-Term Quality Stability of OMPS SDR Data Sets

Yan, Banghua; Pan, Chunhui; Beck, Trevor; Jin, Xin; Wang, Likun; Liang, Ding; Flynn, Lawrence E.; Chen, Junye; Huang, Jingfeng; Buckner, Steven; Zou, Cheng‐Zhi; Sun, Ninghai; Lin, Lin; Young, Alisa H.; Zhou, Lihang; Wu, Hao

doi:10.3390/rs14133125

Cited by 4 publications

(1 citation statement)

References 27 publications

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“…In existing methods, Coordinate Rotation Digital Computer (CORDIC) Technique [6] and Lookup Table (LUT) [7] are widely used in Direct Digital Frequency Synthesizer (DDFS). In some cases hybrid combination of LUT and CORDIC is used to for DDFS.…”

Section: Direct Digital Frequency Synthesiser (Ddfs)mentioning

confidence: 99%

Design of Digital Frequency Synthesizer for 5G SDR Systems

C¹,

Munaswamy²

2022

IJRITCC

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The previous frequency synthesizer techniques for scalable SDR are not compatible with high end applications due to its complex computations and the intolerance over increased path interference rate which leads to an unsatisfied performance with improved user rate in real time environment. Designing an efficient frequency synthesizer framework in the SDR system is essential for 5G wireless communication systems with improved Quality of service (QoS). Consequently, this research has been performed based on the merits of fully digitalized frequency synthesizer and its explosion in wide range of frequency band generations. In this paper hardware optimized reconfigurable digital base band processing and frequency synthesizer model is proposed without making any design complexity trade-off to deal with the multiple standards. Here fully digitalized frequency synthesizer is introduced using simplified delay units to reduce the design complexity. Experimental results and comparative analyzes are carried out to validate the performance metrics and exhaustive test bench simulation is also carried out to verify the functionality.

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Section: Direct Digital Frequency Synthesiser (Ddfs)mentioning

confidence: 99%

Design of Digital Frequency Synthesizer for 5G SDR Systems

C¹,

Munaswamy²

2022

IJRITCC

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From Calibration/Validation to Application: Transitioning New Low Earth Orbiting (LEO) Products for Environment Monitoring

Zhou,

Paluch,

Yan

et al. 2024

IGARSS 2024 - 2024 IEEE International Geoscience and Remote Sensing Symposium

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Calibration and Validation of NOAA-21 Ozone Mapping and Profiler Suite (OMPS) Nadir Mapper Sensor Data Record Data

Yan,

Beck,

Chen

et al. 2024

Remote Sensing

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The Ozone Mapping and Profiler Suites (OMPS) Nadir Mapper (NM) is a grating spectrometer within the OMPS nadir instruments onboard the SNPP, NOAA-20, and NOAA-21 satellites. It is designed to measure Earth radiance and solar irradiance spectra in wavelengths from 300 nm to 380 nm for operational retrievals of the nadir total column ozone. This study presents calibration and validation analysis results for the NOAA-21 OMPS NM SDR data to meet the JPSS scientific requirements. The NOAA-21 OMPS SDR calibration derives updates of several previous OMPS algorithms, including the dark current correction algorithm, one-time wavelength registration from ground to on-orbit, daily intra-orbit wavelength shift correction, and stray light correction. Additionally, this study derives an empirical scale factor to remove 2.2% of systematic biases in solar flux data, which were caused by pre-launch solar calibration errors of the OMPS nadir instruments. The validation of the NOAA-21 OMPS SDR data is conducted using various methods. For example, the 32-day average method and radiative transfer model are employed to estimate inter-sensor radiometric calibration differences from either the SNPP or NOAA-20 data. The quality of the NOAA-21 OMPS NM SDR data is largely consistent with that of the SNPP and NOAA-20 OMPS data, with differences generally within ±2%. This meets the scientific requirements, except for some deviations mainly in the dichroic range between 300 nm and 303 nm. The deep convective cloud target approach is used to monitor the stability of NOAA-21 OMPS reflectance above 330 nm, showing a variation of 0.5% over the observed period. Data from the NOAA-21 VIIRS M1 band are used to estimate OMPS NM data geolocation errors, revealing that along-track errors can reach up to 3 km, while cross-track errors are generally within ±1 km.

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New Reprocessing towards Life-Time Quality-Consistent Suomi NPP OMPS Nadir Sensor Data Records (SDR): Calibration Improvements and Impact Assessments on Long-Term Quality Stability of OMPS SDR Data Sets

Cited by 4 publications

References 27 publications

Design of Digital Frequency Synthesizer for 5G SDR Systems

Design of Digital Frequency Synthesizer for 5G SDR Systems

From Calibration/Validation to Application: Transitioning New Low Earth Orbiting (LEO) Products for Environment Monitoring

Calibration and Validation of NOAA-21 Ozone Mapping and Profiler Suite (OMPS) Nadir Mapper Sensor Data Record Data

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