K.C. Patra scite author profile

The paper presents a simple, systematic and novel graphical method which uses computer graphics for prediction of limit cycles in two dimensional multivariable nonlinear system having rectangular hysteresis and backlash type nonlinearities. It also explores the avoidance of such self-sustained oscillations by determining the stability boundary of the system. The stability boundary is obtained using simple Routh Hurwitz criterion and the incremental input describing function, developed from harmonic balance concept. This may be useful in interconnected power system which utilizes governor control. If the avoidance of limit cycle or a safer operating zone is not possible, the quenching of such oscillations may be done by using the signal stabilization technique which is also described. The synchronization boundary is laid down in the forcing signal amplitudes plane using digital simulation. Results of digital simulations illustrate accuracy of the method for 2 × 2 systems.

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Structural Formulation and Prediction of Limit Cycle for Multivariable Nonlinear System

Patra

Singh

1994

IETE Journal of Research

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Signal Stabilization of Limit Cycling Two Dimensional Memory Type Non Linear Systems by Gaussian Random Signal

Patra

Kar

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K.C. Patra

Graphical method of prediction of limit cycle for multivariable nonlinear systems

An investigation of forced oscillation for signal stabilisation of two-dimensional nonlinear system

Archives of Control Sciences

Structural Formulation and Prediction of Limit Cycle for Multivariable Nonlinear System

Signal Stabilization of Limit Cycling Two Dimensional Memory Type Non Linear Systems by Gaussian Random Signal

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