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MathWorks Inc r 2020b

Geographical representation of trends in the monthly precipitation ( a–d ) and temperature ( e – h ) in Indian summer monsoon (June, July, August and September) of 1951–2019 across the homogenous regions of India. Statistical significance is conducted using the non-parametric Mann–Kendall (MK) test. Grid points with a 95% confidence level are only indicated with triangles. The Upper and Lower triangles indicate increasing and decreasing trend, respectively. Colorbar represents variation in the MK Z statistic. This figure is generated using Mapping Toolbox in MATLAB R <t>2020b</t> (Version 9.9 https://in.mathworks.com/products/mapping.html ).

R 2020b, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 96/100, based on 649 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/r 2020b/product/MathWorks Inc
Average 96 stars, based on 649 article reviews

r 2020b - by Bioz Stars, 2026-05

96/100 stars

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1) Product Images from "Disentangling increasing compound extremes at regional scale during Indian summer monsoon"

Article Title: Disentangling increasing compound extremes at regional scale during Indian summer monsoon

Journal: Scientific Reports

doi: 10.1038/s41598-021-95775-0

Geographical representation of trends in the monthly precipitation ( a–d ) and temperature ( e – h ) in Indian summer monsoon (June, July, August and September) of 1951–2019 across the homogenous regions of India. Statistical significance is conducted using the non-parametric Mann–Kendall (MK) test. Grid points with a 95% confidence level are only indicated with triangles. The Upper and Lower triangles indicate increasing and decreasing trend, respectively. Colorbar represents variation in the MK Z statistic. This figure is generated using Mapping Toolbox in MATLAB R 2020b (Version 9.9 https://in.mathworks.com/products/mapping.html ).

Figure Legend Snippet: Geographical representation of trends in the monthly precipitation ( a–d ) and temperature ( e – h ) in Indian summer monsoon (June, July, August and September) of 1951–2019 across the homogenous regions of India. Statistical significance is conducted using the non-parametric Mann–Kendall (MK) test. Grid points with a 95% confidence level are only indicated with triangles. The Upper and Lower triangles indicate increasing and decreasing trend, respectively. Colorbar represents variation in the MK Z statistic. This figure is generated using Mapping Toolbox in MATLAB R 2020b (Version 9.9 https://in.mathworks.com/products/mapping.html ).

Techniques Used: Generated

Spatial distribution of change in frequency per decade in the occurrence of the CDHE (Top panel, a – d ) and CWCE (Bottom panel, e – h ) for the recent period (1977–2019) relative to the base period (1951–1976) during Indian summer monsoon months across homogenous regions of India. Colorbar represents variation in the change in frequency per decade. This figure is generated using Mapping Toolbox in MATLAB R 2020b (Version 9.9 https://in.mathworks.com/products/mapping.html ).

Figure Legend Snippet: Spatial distribution of change in frequency per decade in the occurrence of the CDHE (Top panel, a – d ) and CWCE (Bottom panel, e – h ) for the recent period (1977–2019) relative to the base period (1951–1976) during Indian summer monsoon months across homogenous regions of India. Colorbar represents variation in the change in frequency per decade. This figure is generated using Mapping Toolbox in MATLAB R 2020b (Version 9.9 https://in.mathworks.com/products/mapping.html ).

Techniques Used: Generated

Geographical representation of spatial extent over homogenous North-Central region during ( a ) June, ( b ) July, ( c ) August and ( d ) September at decadal time scale. Colorbar represents the number of months shown with the occurrence of CDHE during the decade at each grid point. This figure is generated using Mapping Toolbox in MATLAB R 2020b (Version 9.9 https://in.mathworks.com/products/mapping.html ).

Figure Legend Snippet: Geographical representation of spatial extent over homogenous North-Central region during ( a ) June, ( b ) July, ( c ) August and ( d ) September at decadal time scale. Colorbar represents the number of months shown with the occurrence of CDHE during the decade at each grid point. This figure is generated using Mapping Toolbox in MATLAB R 2020b (Version 9.9 https://in.mathworks.com/products/mapping.html ).

Techniques Used: Generated

Geographical representation of spatial extent over North-eastern homogenous region during ( a ) June, ( b ) July, ( c ) August and ( d ) September. Colorbar represents the number of months shown with the occurrence of CWCE during the decade at each grid point. This figure is generated using Mapping Toolbox in MATLAB R 2020b (Version 9.9 https://in.mathworks.com/products/mapping.html ).

Figure Legend Snippet: Geographical representation of spatial extent over North-eastern homogenous region during ( a ) June, ( b ) July, ( c ) August and ( d ) September. Colorbar represents the number of months shown with the occurrence of CWCE during the decade at each grid point. This figure is generated using Mapping Toolbox in MATLAB R 2020b (Version 9.9 https://in.mathworks.com/products/mapping.html ).

Techniques Used: Generated

Empirical CDF of CDHE ( a – d ) and CWCE ( e , f ) spatial extent during June, July, August and September for the recent period (1977–2019) versus base period (1951–1976) for North-central India. This figure is generated in MATLAB R 2020b (Version 9.9 https://in.mathworks.com ).

Figure Legend Snippet: Empirical CDF of CDHE ( a – d ) and CWCE ( e , f ) spatial extent during June, July, August and September for the recent period (1977–2019) versus base period (1951–1976) for North-central India. This figure is generated in MATLAB R 2020b (Version 9.9 https://in.mathworks.com ).

Techniques Used: Generated

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