Ababacar Thiam scite author profile

Gauge data from a West African network of 920 stations are used to assess Tropical Rainfall Measuring Mission (TRMM) satellite and blended rainfall products for 1998. In this study, mean fields, scattergrams, and latitudinal transects for the months of May-September and for the 5-month season are presented. Error statistics are also calculated. This study demonstrates that both the TRMM-adjusted Geostationary Observational Environmental Satellite precipitation index (AGPI) and TRMM-merged rainfall products show excellent agreement with gauge data over West Africa on monthly-to-seasonal timescales and 2.5Њ ϫ 2.5Њ latitude/longitude space scales. The root-mean-square error of both is on the order of 0.6 mm day Ϫ1 at seasonal resolution and 1 mm day Ϫ1 at monthly resolution. The bias of the AGPI is only 0.2 mm day Ϫ1 , whereas the TRMM-merged product shows no bias over West Africa. Performance at 1.0Њ ϫ 1.0Њ latitude/longitude resolution is also excellent at the seasonal scale and good for the monthly scale. A comparison with standard rainfall products that predate TRMM shows that AGPI and the TRMM-merged product perform as well as, or better than, those products. The AGPI shows marked improvement when compared with the GPI, in reducing the bias and in the scatter of the estimates. The TRMM satellite-only products from the precipitation radar and the TRMM Microwave Imager do not perform well over West Africa. Both tend to overestimate gauge measurements.

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Validation of TRMM and Other Rainfall Estimates with a High-Density Gauge Dataset for West Africa. Part I: Validation of GPCC Rainfall Product and Pre-TRMM Satellite and Blended Products

Nicholson

et al. 2003

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Study of the Intrinsic Recombination Velocity at the Junction of Silicon Solar under Frequency Modulation and Irradiation

Ndiaye¹,

Şahin²,

Dieng³

et al. 2015

JAMP

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AC Recombination Velocity in the Back Surface of a Lamella Silicon Solar Cell under Temperature

Traore¹,

Thiam²,

Thiame³

et al. 2019

JMP

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The ac recombination velocity of the excess minority carriers, in the back surface of a silicon solar cell with a vertical junction connected in series, is developed through Einstein's law giving the diffusion coefficient of minority carriers according to temperature, through mobility. The frequency spectrum of both, amplitude and phase, are produced for the diffusion coefficient and the recombination velocity in the rear face, in order to identify the parameters of equivalent electric models.

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Mechanical and hygrothermal properties of compressed stabilized earth bricks (CSEB)

Toure

Sabourin

Faye

et al. 2017

Journal of Building Engineering

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Ababacar Thiam

Validation of TRMM and Other Rainfall Estimates with a High-Density Gauge Dataset for West Africa. Part II: Validation of TRMM Rainfall Products

Validation of TRMM and Other Rainfall Estimates with a High-Density Gauge Dataset for West Africa. Part I: Validation of GPCC Rainfall Product and Pre-TRMM Satellite and Blended Products

Study of the Intrinsic Recombination Velocity at the Junction of Silicon Solar under Frequency Modulation and Irradiation

AC Recombination Velocity in the Back Surface of a Lamella Silicon Solar Cell under Temperature

Mechanical and hygrothermal properties of compressed stabilized earth bricks (CSEB)

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