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公开(公告)号:US08359111B2
公开(公告)日:2013-01-22
申请号:US12755543
申请日:2010-04-07
Applicant: Zhong Kang Lu , Zhi Qiang Yu , Qi Ran Zhang
Inventor: Zhong Kang Lu , Zhi Qiang Yu , Qi Ran Zhang
CPC classification number: G05B19/41835 , B82Y10/00 , G05B17/02 , G05B2219/32161 , G05B2219/32345 , G06N3/002 , Y02P90/12 , Y02P90/26
Abstract: A method and an apparatus for controlling a distributed automation system, wherein the method comprises determining global constraint rules according to the cooperative relationships between function blocks in the distributed automation system, and establishing a mathematical model based on Membrane Calculus, performing the instantiation of the established mathematical model based on Membrane Calculus according to an executor corresponding to each of the function blocks in the distributed automation system, so as to produce control logics for output to the distributed automation system. If disturbance information is received from the distributed automation system, altering the parameters of the instantiation of the mathematical model based on Membrane Calculus are altered using the disturbance information, so as to produce control logics for outputting to said distributed automation system. The present invention is capable of effectively dealing with all types of unpredictable disturbances, thus improving the adaptability thereof.
Abstract translation: 一种用于控制分布式自动化系统的方法和装置,其中该方法包括根据分布式自动化系统中的功能块之间的协作关系确定全局约束规则,以及建立基于膜微积分的数学模型,执行建立的 根据与分布式自动化系统中的每个功能块相对应的执行器的基于膜微积分的数学模型,从而产生用于输出到分布式自动化系统的控制逻辑。 如果从分布式自动化系统接收到干扰信息,则使用干扰信息改变基于膜微积分的数学模型的实例化参数,从而产生用于输出到所述分布式自动化系统的控制逻辑。 本发明能够有效地处理各种不可预测的干扰,从而提高其适应性。
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公开(公告)号:US20100280631A1
公开(公告)日:2010-11-04
申请号:US12755543
申请日:2010-04-07
Applicant: Zhong Kang Lu , Zhi Qiang Yu , Qi Ran Zhang
Inventor: Zhong Kang Lu , Zhi Qiang Yu , Qi Ran Zhang
CPC classification number: G05B19/41835 , B82Y10/00 , G05B17/02 , G05B2219/32161 , G05B2219/32345 , G06N3/002 , Y02P90/12 , Y02P90/26
Abstract: A method and an apparatus for controlling a distributed automation system, wherein the method comprises determining global constraint rules according to the cooperative relationships between function blocks in the distributed automation system, and establishing a mathematical model based on Membrane Calculus, performing the instantiation of the established mathematical model based on Membrane Calculus according to an executor corresponding to each of the function blocks in the distributed automation system, so as to produce control logics for output to the distributed automation system. If disturbance information is received from the distributed automation system, altering the parameters of the instantiation of the mathematical model based on Membrane Calculus are altered using the disturbance information, so as to produce control logics for outputting to said distributed automation system. The present invention is capable of effectively dealing with all types of unpredictable disturbances, thus improving the adaptability thereof.
Abstract translation: 一种用于控制分布式自动化系统的方法和装置,其中该方法包括根据分布式自动化系统中的功能块之间的协作关系确定全局约束规则,以及建立基于膜微积分的数学模型,执行建立的 根据与分布式自动化系统中的每个功能块相对应的执行器的基于膜微积分的数学模型,从而产生用于输出到分布式自动化系统的控制逻辑。 如果从分布式自动化系统接收到干扰信息,则使用干扰信息改变基于膜微积分的数学模型的实例化参数,从而产生用于输出到所述分布式自动化系统的控制逻辑。 本发明能够有效地处理各种不可预测的干扰,从而提高其适应性。
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