基于模糊逻辑系统的Cmos混合信号设计

Swati H. Kirtane, A. Deshmukh, P. Bajaj, A. Keskar
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引用次数: 3

摘要

精度的限制限制了模拟电路的复杂性,因此模糊模拟控制器通常面向低复杂度、低功耗的快速系统。本文提出了一种策略,以保留模拟实现的大部分优点,同时允许系统复杂性的显着增加。提出了一种数字可编程模拟模糊控制器(FLC)。输入和输出信号在模拟域中处理,而控制器的参数存储在内置数字存储器中。设计重点放在结果和去模糊化上。选择单例或零阶Sugenopsilas方法是因为它提供了简单性和准确性之间的良好权衡。使用坦纳工具对电路进行了模拟。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cmos Mixed Signal Design of Fuzzy Logic Based Systems
Limits to precision impose limits to the complexity of analog circuits, hence fuzzy analog controllers are usually oriented to fast low-power systems with low medium complexity. This paper presents a strategy to preserve most of the advantages of an analog implementation, while allowing a marked increment in system complexity. A digitally-programmable analogue fuzzy logic controller (FLC) is presented. Input and output signals are processed in the analog domain whereas the parameters of the controller are stored in a built-in digital memory. Design emphasis has been placed on consequents and defuzzifiers. The singleton or zero-order Sugenopsilas method is chosen since it offers a good trade off between simplicity and accuracy. The circuits have been simulated using Tanner tools.
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