Using an Adaptative Fuzzy-Logic System to Optimize the Performances and the Reduction of Chattering Phenomenon in the Control of Induction Motor

Krishan, M. M.; Barazane, L.; Khwaldeh, A.

doi:10.3844/ajassp.2010.110.119

Cited by 2 publications

(2 citation statements)

References 9 publications

(23 reference statements)

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“…ANN with many layers of neurons which is analogous to the biological neurons has the merits of speedy computational capability, can be used to approximate complicated nonlinear functions (Krishan et al, 2010).…”

Section: Constant Load With Variable Capacitormentioning

confidence: 99%

“…The different ANN techniques and its applications to solve complex and non-linear functions of the induction motor and AC systems are presented (Benslimane et al, 2006;Krishan et al, 2010). Ranjithkumar and Palaniswami (2011) have presented a fuzzy controller based rotor capacitive reactance control under rotor resonant conditions for enhancing the performance of the wound rotor induction motor.…”

Section: Introductionmentioning

confidence: 99%

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Artificial Neural Network Based Rotor Capacitive Reactance Control for Energy Efficient Wound Rotor Induction Motor

Palaniswami¹,

Kumar²

2012

Journal of Computer Science

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Problem statement: The Rotor reactance control by inclusion of external capacitance in the rotor circuit has been in recent research for improving the performances of Wound Rotor Induction Motor (WRIM). The rotor capacitive reactance is adjusted such that for any desired load torque the efficiency of the WRIM is maximized. The rotor external capacitance can be controlled using a dynamic capacitor in which the duty ratio is varied for emulating the capacitance value. This study presents a novel technique for tracking maximum efficiency point in the entire operating range of WRIM using Artificial Neural Network (ANN). The data for ANN training were obtained on a three phase WRIM with dynamic capacitor control and rotor short circuit at different speed and load torque values. Approach: A novel neural network model based on the back-propagation algorithm has been developed and trained in determining the maximum efficiency of the motor with no prior knowledge of the machine parameters. The input variables to the ANN are stator current (I s ), Speed (N) and Torque (T m ) and the output variable is the duty ratio (D). Results: The target is pre-set and the accuracy of the ANN model is measured using Mean Square Error (MSE) and R 2 parameters. The result of R 2 value of the proposed ANN model is found to be 0.99980. Conclusion: The optimal duty ratio and corresponding optimal rotor capacitance for improving the performances of the motor are predicted for low, medium and full loads by using proposed ANN model.

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Section: Constant Load With Variable Capacitormentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Artificial Neural Network Based Rotor Capacitive Reactance Control for Energy Efficient Wound Rotor Induction Motor

Palaniswami¹,

Kumar²

2012

Journal of Computer Science

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Flows of Continuous-Time Dynamical Systems with No Periodic Orbit as an Equivalence Class under Topological Conjugacy Relation

Ahmad¹

2011

Journal of Mathematics and Statistics

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Problem statement: Flows of continuous-time dynamical systems with the same number of equilibrium points and trajectories, and which has no periodic orbit form an equivalence class under the topological conjugacy relation. Approach: Arbitrarily, two trajectories resulting from two distinct flows of this type of dynamical systems were written as a set of points (orbit). A homeomorphism which maps between these two sets is then built. Using the notion of topological conjugacy, they were shown to conjugate topologically. By the arbitrariness in selection of flows and their respective initial states, the results were extended to all the flows of dynamical system of that type. Results: Any two flows of such dynamical systems were shown to share the same dynamics temporally along with other properties such as order isomorphic and homeomorphic. Conclusion: Topological conjugacy serves as an equivalence relation in the set of flows of continuous-time dynamical systems which have same number of equilibrium points and trajectories, and has no periodic orbit.

show abstract

Using an Adaptative Fuzzy-Logic System to Optimize the Performances and the Reduction of Chattering Phenomenon in the Control of Induction Motor

Cited by 2 publications

References 9 publications

Artificial Neural Network Based Rotor Capacitive Reactance Control for Energy Efficient Wound Rotor Induction Motor

Artificial Neural Network Based Rotor Capacitive Reactance Control for Energy Efficient Wound Rotor Induction Motor

Flows of Continuous-Time Dynamical Systems with No Periodic Orbit as an Equivalence Class under Topological Conjugacy Relation

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