Dynamic planning successive approximation method-based channel roughness inversion method

A technology of successive approximation and dynamic programming, applied in special data processing applications, instruments, electrical digital data processing, etc., can solve the problem of not considering the change and difference of roughness with flow rate

Active Publication Date: 2017-08-15
NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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Problems solved by technology

Since the 1960s, scholars at home and abroad have proposed some roughness inversion algorithms. Generally, the roughness of each channel is regarded as a

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  • Dynamic planning successive approximation method-based channel roughness inversion method
  • Dynamic planning successive approximation method-based channel roughness inversion method
  • Dynamic planning successive approximation method-based channel roughness inversion method

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Embodiment Construction

[0039] The present invention will be described in detail below in conjunction with the accompanying drawings. The present invention proposes a river channel roughness inversion method based on dynamic programming successive approximation method, including

[0040] Step 1. Use a one-dimensional hydrodynamic model to simulate the change of water flow in open channels and rivers. The roughness n in the model is calibrated by an optimization method, with the goal of calculating the minimum sum of squares of water level errors in the river section within the calculation period as the goal, and establishing the roughness of the river. The rate inversion model is used to invert the roughness under different flow rates;

[0041] Step 2. Use the dynamic programming successive approximation method to invert the river channel roughness, and decompose the roughness inversion under different flow levels into a multi-stage optimization problem. Each calculation only optimizes the roughness ...

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Abstract

The invention belongs to the field of channel flow and sediment scour and deposit computation, and particularly relates to a dynamic planning successive approximation method-based channel roughness inversion method. Firstly a one-dimensional hydrodynamic model is adopted for simulating open channel and channel flow changes, and by taking computation of a minimum water level error square sum of channel segments in a computation cycle as a goal, a channel roughness inversion model is built; and secondly a dynamic planning successive approximation method is adopted for performing channel roughness inversion, the roughness under different flow levels is inverted and decomposed into a multi-stage optimization problem, only the roughness of the current stage is optimized during each computation, and roughness values of other stages are kept unchanged. The influence of the aftereffect does not need to be considered and the changes, with the flow, of the roughness are considered to obtain the roughness values under different flow. The method can avoid the problem of relatively great influence of an initial value, easy prematurity or falling into local optimum in other methods, and has the characteristics that the dimensions are reduced, the computation amount is reduced, the computation convergence speed is relatively high and the like.

Description

technical field [0001] The invention belongs to the field of calculation of river flow and sediment erosion and deposition, and in particular relates to a river roughness inversion method based on a dynamic programming successive approximation method. Background technique [0002] Roughness is a very important and sensitive key parameter in hydraulic calculation, which has a great influence on the calculation results of river flow and its erosion and deposition changes. At the same time, there are many and complex factors affecting the roughness, which are not only related to the roughness of the perimeter wall, but also affected by the shape of the river and the characteristics of the water flow. At present, the commonly used methods for calculating the roughness are mainly divided into two categories: traditional methods and intelligent inversion algorithms. kind. [0003] Traditional methods mainly include empirical method, semi-empirical method and trial and error metho...

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Application Information

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IPC IPC(8): G06F17/50
CPCG06F30/367
Inventor 彭杨于显亮吴志毅陈凯
Owner NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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