Many regions around the globe are subjected to precipitation-data scarcity that often hinders the capacity of hydrological modeling. The entropy theory and the principle of maximum entropy can help hydrologists to extract useful information from the scarce data available. In this work, we propose a new method to assess sub-daily precipitation features such as duration and intensity based on daily precipitation using the principle of maximum entropy. Particularly in arid and semiarid regions, such sub-daily features are of central importance for modeling sediment transport and deposition. The obtained features were used as input to the SYPoME model (sediment yield using the principle of maximum entropy). The combined method was implemented i...
<p></p><p>ABSTRACT The sediment found in the cross section of a river or a reservoir is the result o...
In this study, entropy production optimization and inference principles are applied to a synthetic s...
Increasing population, higher levels of human and industrial activities have affected water resource...
Many regions around the globe are subjected to precipitation-data scarcity that often hinders the ca...
The principle of maximum entropy can provide consistent basis for analyzing rainfall and for geophys...
Using the entropy theory, this paper derives an instantaneous unit sediment graph (IUSG or USG) to d...
This work builds on earlier work by Kleidon and Schymanski (2008) who explored the use of the maximu...
Hydrological models are the basis of operational flood-forecasting systems. The accuracy of these mo...
Complexity and predictability of daily precipitation in a tropical semi-arid region (Ceará State, Br...
This paper presents a novel framework for the complexity analysis of rainfall, runoff, and runoff co...
An edited version of this paper was published by AGU. Copyright 1987 American Geophysical Union.The ...
ABSTRACT The concern with water quality has been promoting development of better monitoring and cont...
Hydrological processes are irreversible and produce entropy. Hence, the framework of non-equilibrium...
In water systems planning, it is essential to use an objective criterion to determine the informatio...
A flow duration curve (FDC) is widely used for predicting water supply, hydropower, environmental fl...
<p></p><p>ABSTRACT The sediment found in the cross section of a river or a reservoir is the result o...
In this study, entropy production optimization and inference principles are applied to a synthetic s...
Increasing population, higher levels of human and industrial activities have affected water resource...
Many regions around the globe are subjected to precipitation-data scarcity that often hinders the ca...
The principle of maximum entropy can provide consistent basis for analyzing rainfall and for geophys...
Using the entropy theory, this paper derives an instantaneous unit sediment graph (IUSG or USG) to d...
This work builds on earlier work by Kleidon and Schymanski (2008) who explored the use of the maximu...
Hydrological models are the basis of operational flood-forecasting systems. The accuracy of these mo...
Complexity and predictability of daily precipitation in a tropical semi-arid region (Ceará State, Br...
This paper presents a novel framework for the complexity analysis of rainfall, runoff, and runoff co...
An edited version of this paper was published by AGU. Copyright 1987 American Geophysical Union.The ...
ABSTRACT The concern with water quality has been promoting development of better monitoring and cont...
Hydrological processes are irreversible and produce entropy. Hence, the framework of non-equilibrium...
In water systems planning, it is essential to use an objective criterion to determine the informatio...
A flow duration curve (FDC) is widely used for predicting water supply, hydropower, environmental fl...
<p></p><p>ABSTRACT The sediment found in the cross section of a river or a reservoir is the result o...
In this study, entropy production optimization and inference principles are applied to a synthetic s...
Increasing population, higher levels of human and industrial activities have affected water resource...