Enhanced Linearisation Approach for CTA Linearisation based on Evolutionary Algorithm Dr. Abudhahir A.*, Thangamalar J. Babitha** *Professor, Vel Tech Multi Tech Dr. Rangarajan Dr. Sakunthala Engineering College, Thiruvallur, Chennai, India **Assistant Professor, National Engineering College, Kovilpatti, Tamilnadu, India Online published on 14 October, 2016. Abstract An unsophisticated process is presented to obtain constant temperature anemometer (CTA) linearised outcomes. In order to improve the CTA linearity the objective function of the nonlinear ratio metric logarithmic is used in the determination of minimising the optimal values of mean square error which enhance the performances of the CTA signal linearity. The evolutionary strategy assumes to have reliably process of generating the optimal values and linearised the function by using multi objective covariance matrix adapted evolution strategy (MO-CMAES). The obtain value is hired with the parameters of various linearization to normalize the optimal values. The proposed approach is implemented and simulated the outcomes by using Lab VIEW 7.1. Experimental analysis is carried out with the evaluation of root mean square error and full-scale error. It is preserved for associating the proposed performances with the methods of a transducer's reported of linearization. Experimental outcomes sustain that the optimised process of proposed evolutionary approach of nonlinear function is linearized with better improvement in CTA linearisation and it performed the system measurement and control process. Top Keywords CTA, Covariance Matrix, Evolutionary Approach, RMSE, FSE, Linearisation. Top |