文件名称:ELK-1107-10_manuscript_1
下载
别用迅雷、360浏览器下载。
如迅雷强制弹出,可右键点击选“另存为”。
失败请重下,重下不扣分。
如迅雷强制弹出,可右键点击选“另存为”。
失败请重下,重下不扣分。
介绍说明--下载内容均来自于网络,请自行研究使用
Type-1 fuzzy sets theory was proposed to handle uncertainty in control systems. But some
cases showed some liabilities of Type-1 fuzzy sets when facing with unpredictable
disturbance and uncertainties. Therefore Type-2 fuzzy sets was introduced and extended
while providing more degrees of freedom in designing criteria. The most important
specification of Type-2 fuzzy sets is the interval between a superior membership function
and an inferior membership function which is called footprint of uncertainty. This paper
presents a Bacterial Foraging Optimization approach for optimizing the parametrized
membership function. The above criterion is applied to an Automatic Voltage Regulator
system and results are presented and compared with previous method. -Type-1 fuzzy sets theory was proposed to handle uncertainty in control systems. But some
cases showed some liabilities of Type-1 fuzzy sets when facing with unpredictable
disturbance and uncertainties. Therefore Type-2 fuzzy sets was introduced and extended
while providing more degrees of freedom in designing criteria. The most important
specification of Type-2 fuzzy sets is the interval between a superior membership function
and an inferior membership function which is called footprint of uncertainty. This paper
presents a Bacterial Foraging Optimization approach for optimizing the parametrized
membership function. The above criterion is applied to an Automatic Voltage Regulator
system and results are presented and compared with previous method.
cases showed some liabilities of Type-1 fuzzy sets when facing with unpredictable
disturbance and uncertainties. Therefore Type-2 fuzzy sets was introduced and extended
while providing more degrees of freedom in designing criteria. The most important
specification of Type-2 fuzzy sets is the interval between a superior membership function
and an inferior membership function which is called footprint of uncertainty. This paper
presents a Bacterial Foraging Optimization approach for optimizing the parametrized
membership function. The above criterion is applied to an Automatic Voltage Regulator
system and results are presented and compared with previous method. -Type-1 fuzzy sets theory was proposed to handle uncertainty in control systems. But some
cases showed some liabilities of Type-1 fuzzy sets when facing with unpredictable
disturbance and uncertainties. Therefore Type-2 fuzzy sets was introduced and extended
while providing more degrees of freedom in designing criteria. The most important
specification of Type-2 fuzzy sets is the interval between a superior membership function
and an inferior membership function which is called footprint of uncertainty. This paper
presents a Bacterial Foraging Optimization approach for optimizing the parametrized
membership function. The above criterion is applied to an Automatic Voltage Regulator
system and results are presented and compared with previous method.
(系统自动生成,下载前可以参看下载内容)
下载文件列表
ELK-1107-10_manuscript_1.pdf