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River runoff prediction method based on complex network

A technology of complex network and forecasting method, applied in the field of river runoff forecasting based on complex network, which can solve the problems of complex hydrological forecasting model, no help, and cumbersome runoff forecasting.

Active Publication Date: 2017-09-05
安徽金海迪尔信息技术有限责任公司
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Problems solved by technology

However, most of the existing research depends on the specific issues and the specific elements involved, and there are still many problems in the research on river runoff prediction.
For example, most of the existing hydrological prediction models are relatively complex and need to rely on too many parameters and data for analysis. At the same time, due to the deviation of the data itself and the deviation of the model itself, the prediction of runoff is cumbersome and not necessarily reliable; Although some model correction algorithms for bias correction reduce the prediction error to a certain extent, this method does not help in understanding the hydrological mechanism of the watershed; from another perspective, most of the existing models are for a specific area However, there are still problems in applying them to wider watersheds, such as the Xin'anjiang model, etc., so there is a lack of a unified and universal hydrological framework

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  • River runoff prediction method based on complex network
  • River runoff prediction method based on complex network
  • River runoff prediction method based on complex network

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Embodiment Construction

[0052] Below in conjunction with accompanying drawing, technical scheme of the present invention is described in further detail:

[0053] figure 1 Shown is the overall algorithm flow chart of the present invention. The runoff prediction method based on the complex network proposed by the present invention basically includes four basic steps: construction of the runoff complex network, Newman fast algorithm, candidate node selection and river runoff prediction by transplantation method. The input of this algorithm is several known river runoff time series, and the output is the runoff data of unknown stations to be predicted.

[0054] figure 2 Shown is the block diagram of the runoff complex network construction of the present invention. Specific steps are as follows:

[0055] Step 1: Select appropriate hydrological data

[0056] According to the needs, select the hydrological data of suitable monitoring stations that meet the requirements from the database, and the selec...

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Abstract

The invention discloses a river runoff prediction method mainly for runoff prediction for PUBs (prediction ungauged basins). The basic principle of the method refers to: using a complex network to mine topological characteristics of a hydrological spatiotemporal sequence, and performs runoff prediction on ungaged basins on such basis; a runoff complex network model is established according to runoff data of a monitoring network station, FN (fast Newman) algorithm is used to perform community mining on such basis, and candidate nodes are selected based on community mining results. The method of the invention considers relevancy between basin division and PUBs, common nodes and characteristic nodes are selected as candidate nodes, and runoff of a station to be predicted is predicted by means of transplantation process. The ungauged basin runoff prediction method considering both relevancy of runoff data topological structures and the runoff data itself is provided herein.

Description

technical field [0001] The invention relates to the complex network application field, in particular to a river runoff prediction method based on the complex network. Background technique [0002] Rivers play an important role in many aspects such as hydrology, water resource management, environment, and ecosystems. However, there are still many problems in the assessment and prediction of river runoff. Because river runoff is a complex nonlinear process that interacts with climate conditions and landform features. For example, river runoff is not only affected by rainfall distribution in time and space, but many factors such as land use parameters, hydrological soil factors, and geostatistical properties will have an impact on river runoff. [0003] Existing research on river runoff mainly focuses on identifying the relationship between river runoff. However, most of the existing studies depend on the specific issues and the specific elements involved, and there are still...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50G06N3/04
CPCG06F30/20G06N3/04
Inventor 吴学文崔楠辛嘉熙闻昕吴丹晖
Owner 安徽金海迪尔信息技术有限责任公司
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