Fuzzy control structures in multiple parameter systems: an application in handwritten address interpretation systems

18th International Conference of the North American Fuzzy Information Processing Society - NAFIPS (Cat. No.99TH8397) Pub Date : 1999-06-10 DOI:10.1109/NAFIPS.1999.781828

K. Inakiev, V. Govindaraju

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引用次数: 1

Abstract

Most practical software systems are a conglomerate of many modules, where each module has its own parameters that control the accuracy of the module. While each individual module can be optimized by tuning the relevant parameters, it is a non-trivial task to optimize the entire system. When the number of modules and the parameters are few, manual choosing of all parameters is possible by a "trial and error" mechanism. However, when the modules are many, other methods have to be adopted. We use fuzzy set technology for the purpose in the particular application of a Handwritten Address Interpretation System. We use a fuzzy measure based on the topology of the "blind" set of handwritten addresses and a predetermined neighborhood to construct the fuzzy membership function. This allows a nonlinear partitioning of the results to maximize the correct rate. On a test set of 10000 images, the fuzzy methodology accomplishes 5% higher accuracy.

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多参数系统中的模糊控制结构:在手写地址解释系统中的应用

大多数实用的软件系统都是由许多模块组成的，每个模块都有自己的参数来控制模块的准确性。虽然可以通过调优相关参数来优化每个单独的模块，但优化整个系统是一项非常重要的任务。当模块和参数数量较少时，可以通过“试错”机制手动选择所有参数。但是，当模块很多时，就必须采用其他方法。本文将模糊集技术应用于手写地址解释系统的具体应用中。我们使用基于手写地址“盲”集拓扑和预定邻域的模糊度量来构造模糊隶属函数。这允许对结果进行非线性划分以最大化正确的速率。在10000张图像的测试集上，模糊方法的准确率提高了5%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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18th International Conference of the North American Fuzzy Information Processing Society - NAFIPS (Cat. No.99TH8397)

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