The Impact of Lifestyle Interventions in Breast Cancer Women after Completion of Primary Therapy: A Randomized Study

Atmospheric gravity waves are a kind of mesoscale disturbance, commonly found in the atmospheric system, that plays a key role in a series of mesospheric dynamic processes. When propagating to the upper atmosphere, the gravity waves will disturb the local temperature and density, and then modulate the intensity of the surrounding airglow radiation. As a result, the presence of gravity waves on a moonless night can usually cause the airglow to reveal ripple features in low-light images. In this paper we have applied a two-dimensional Stockwell transform technique (2DST) to airglow measurements from nighttime low-light images of the day–night band on the Suomi National Polar-Orbiting Partnership. To our knowledge this study is the first to measure localized mesospheric gravity wave brightness amplitudes, horizontal wavelengths, and propagation directions using such a method and data. We find that the method can characterize the general shape and amplitude of concentric gravity wave patterns, capturing the dominant features and directions with a good degree of accuracy. The key strength of our 2DST application is that our approach could be tuned and then automated in the future to process tens of thousands of low-light images, globally characterizing gravity wave parameters in this historically poorly studied layer of the atmosphere.

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Feasibility of a specialized ground light source for night-time low-light calibration

Yan

et al. 2018

International Journal of Remote Sensing

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Continuous measurements of radiation levels along the west coast highway of Peninsular Malaysia

Tajuddin

Sakanoue

1994

Applied Radiation and Isotopes

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A new multichannel threshold algorithm based on radiative transfer characteristics for detecting fog/low stratus using night-time NPP/VIIRS data

Yan

et al. 2016

International Journal of Remote Sensing

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Calibration Method of Low-Light Sensor Based on Bridge Lights

Yan

Huang

et al. 2016

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Many quantitative uses of the nighttime imagery provided by low-light sensors, such as the day-night band (DNB) on board the Suomi-National Polar-Orbiting Partnership (SNPP), have emerged recently. Owing to the low nighttime radiance, low-light calibration at night must be investigated in detail. Traditional vicarious calibration methods are based on some targets with nearly invariant surface properties under lunar illumination. However, the relatively stable light emissions may also be used to realize the radiometric calibration under low light. This paper presents a low-light calibration method based on bridge lights, and Visible Infrared Imaging Radiometer Suite (VIIRS) DNB data are used to assess the proposed method. A comparison of DNB high-gain-stage (HGS) radiances over a 2-yr period from August 2012 to July 2014 demonstrates that the predictions are consistent with the observations, and the agreement between the predictions and the observations is on the order of 22.9% with an uncertainty of 9.3% (1s) for the Hangzhou Bay Bridge and 23.9% with an uncertainty of 7.2% (1s) for the Donghai Bridge. Such a calibration method based on stable light emissions has a wide application prospect for the calibration of low-light sensors at night.

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Using two different targets for the calibration of S-NPP VIIRS day night band under lunar illumination

Yan

et al. 2017

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Shensen Hu

Measuring internal solitary wave parameters based on VIIRS/DNB data

Estimating cloud base height from Himawari-8 based on a random forest algorithm

Measuring Gravity Wave Parameters from a Nighttime Satellite Low-Light Image Based on Two-Dimensional Stockwell Transform

Feasibility of a specialized ground light source for night-time low-light calibration

Continuous measurements of radiation levels along the west coast highway of Peninsular Malaysia

A new multichannel threshold algorithm based on radiative transfer characteristics for detecting fog/low stratus using night-time NPP/VIIRS data

Calibration Method of Low-Light Sensor Based on Bridge Lights

Using two different targets for the calibration of S-NPP VIIRS day night band under lunar illumination

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