The Role of Th17/IL-17 on Eosinophilic Inflammation

The distillation process is vital in many fields of chemical industries, such as the two-coupled distillation columns that are usually highly nonlinear Multi-Input Multi-Output (MIMO) coupled processes. The control of MIMO process is usually implemented via a decentralized approach using a set of Single-Input Single-Output (SISO) loop controllers. Decoupling the MIMO process into group of single loops requires proper input-output pairing and development of decoupling compensator unit. This paper proposes a novel intelligent decoupling approach for MIMO processes based on new MIMO brain emotional learning architecture. A MIMO architecture of Brain Emotional Learning Based Intelligent Controller (BELBIC) is developed and applied as a decoupler for 4 input/4 output highly nonlinear coupled distillation columns process. Moreover, the performance of the proposed Brain Emotional Learning Based Intelligent Decoupler (BELBID) is enhanced using Particle Swarm Optimization (PSO) technique. The performance is compared with the PSO optimized steady state decoupling compensation matrix. Mathematical models of the distillation columns and the decouplers are built and tested in simulation environment by applying the same inputs. The results prove remarkable success of the BELBID in minimizing the loops interactions without degrading the output that every input has been paired with.

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Fuzzy Life-Extending Control of Anti-Lock Braking System

El-Garhy

El-Sheikh²,

El-Saify

2013

Ain Shams Engineering Journal

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Novel Multi-input Multi-output Brain Emotional Learning Based Intelligent Controller for PUMA 560 Robotic Arm

El-Saify

El-Sheikh

El-Garhy

2017

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M. H. El-Saify

Brain Emotional Learning Based Intelligent Decoupler for Nonlinear Multi‐Input Multi‐Output Distillation Columns

Fuzzy Life-Extending Control of Anti-Lock Braking System

Novel Multi-input Multi-output Brain Emotional Learning Based Intelligent Controller for PUMA 560 Robotic Arm

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