K. Ramesh scite author profile

Long-term variability of middle atmosphere temperature (T) and zonal wind (U) is investigated using a three-member ensemble of historical simulations of NCAR's Whole Atmospheric Community Climate Model latest version 6 (WACCM6) for 1850-2014 (165 years). The model reproduces the climatological features of T and U. The contributions of Quasi Biennial Oscillation (QBO) at 10 and 30 hPa, solar cycle (SC), El Niño-Southern Oscillation (ENSO), ozone depleting substances (ODS), carbon dioxide (CO 2), and stratospheric sulfate aerosol (volcanic eruptions) to change in monthly zonal mean T and U are analyzed using multiple linear regression. The signal due to CO 2 increase dominates as a predictor of the net multidecadal global annual mean temperature change at all levels in the middle atmosphere. Contributions from ODS also affect the net multidecadal global mean temperature trend in the stratosphere. Because of similarities in the time evolution of the emissions of CO 2 and ODS, the analysis of existing model output cannot accurately separate the attributions of cooling to these two dominant forcing processes. On shorter time scales, solar flux variations are the largest source of variability in the mesosphere while volcanic eruptions are the largest in the stratosphere. In the stratosphere and mesosphere, both QBO and ENSO can significantly impact zonal mean temperature and zonal-mean zonal wind depending on latitudes, but their impact on the multidecadal global mean temperature trend is very small.

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Application of UAV imaging platform for vegetation analysis based on spectral-spatial methods

Senthilnath

Kandukuri

Dokania

et al. 2017

Computers and Electronics in Agriculture

117

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Dependence of ³⁵Cl NQR on hydrogen bonding and temperature in dichlorophenol–aniline charge transfer complexes

Ramananda

Ramesh

Uchil³

2007

Magnetic Reson in Chemistry

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The hydrogen-bonded charge transfer complexes of aniline with pi-acceptors (or proton donors) such as 2,5-, 2,6-, 3,4- and 3,5-dichlorophenol were prepared. The (35)Cl nuclear quadrupole resonance (NQR) frequencies of these charge transfer complexes in the temperature range 77-300 K were measured to ascertain the existence or otherwise of a phase transition upon complex formation. Further, the NQR frequency and asymmetry parameter of the electric field gradient at the site of quadrupole nucleus were used to estimate the chemical bond parameters, namely ionic bond, double bond character of the carbon-chlorine(C--Cl) bond and the percentage charge transfer between the donor-acceptor components in charge transfer complexes. The effect of hydrogen bonding and temperature on the charge transfer process is analysed.

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K. Ramesh

Detection of tomatoes using spectral-spatial methods in remotely sensed RGB images captured by UAV

Long‐Term Variability and Tendencies in Middle Atmosphere Temperature and Zonal Wind From WACCM6 Simulations During 1850–2014

Application of UAV imaging platform for vegetation analysis based on spectral-spatial methods

Dependence of ³⁵Cl NQR on hydrogen bonding and temperature in dichlorophenol–aniline charge transfer complexes

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K. Ramesh

Detection of tomatoes using spectral-spatial methods in remotely sensed RGB images captured by UAV

Long‐Term Variability and Tendencies in Middle Atmosphere Temperature and Zonal Wind From WACCM6 Simulations During 1850–2014

Application of UAV imaging platform for vegetation analysis based on spectral-spatial methods

Dependence of 35Cl NQR on hydrogen bonding and temperature in dichlorophenol–aniline charge transfer complexes

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Dependence of ³⁵Cl NQR on hydrogen bonding and temperature in dichlorophenol–aniline charge transfer complexes