Anjan Kumar Sahoo | Centurion University of Technology & Management (original) (raw)

Uploads

Papers by Anjan Kumar Sahoo

NEW ARCH-INTERNATIONAL JOURNAL OF CONTEMPORARY ARCHITECTURE, Jul 7, 2021

The recent developments in the technology made by organizations have led to a quicker, simpler an... more The recent developments in the technology made by organizations have led to a quicker, simpler and a very accurate data analysis. The use of machine learning techniques have been exponentially increasing in the analysis of data in different fields ranging from medicine to defense, education, finance and energy applications. The machine learning techniques reduce further meaningful information processed by data mining. These significant and meaningful information help organizations to establish their future policies to get more advantages in terms of time and cost. In this paper the author has tried to present the best classification method by having a comparative analysis on various methods such as Logistic Regression, Support Vector Machine, Naive Bayes and K-Nearest Neighbors etc. for a particular use case i.e. prediction and classification of transmission line faults. The author has made this analysis by utilizing both Python and MATLAB Simulink. This will surely help the researc...

IOSR Journal of Electrical and Electronics Engineering, 2013

For the improvement of efficiency and power factor, a bridgeless single-phase ac-dc soft switched... more For the improvement of efficiency and power factor, a bridgeless single-phase ac-dc soft switched PWM cuk converter with multiplier control technique is proposed. This paper emphasizes more on the converter efficiency and power factor. The conduction losses and input current harmonics of the proposed converter is very less due to the absence of the input diode bridge and also during each switching cycle, only two semiconductor switches are present in the current path unlike other conventional Cuk converters. Soft switching (ZVS) technique is applied by using an auxiliary circuit to improve the efficiency of the proposed converter. Multiplier control technique is provided to regulate the output which also ultimately improves the efficiency. Power factor is almost unity due to less input current harmonics. The circuit configuration, principle of operation, design procedure and simulation results are presented.

2016 International Conference on Signal Processing, Communication, Power and Embedded System (SCOPES), 2016

This paper presents the design of a controller for MIMO systems. The performance analysis and con... more This paper presents the design of a controller for MIMO systems. The performance analysis and controller design for SISO systems are easier than that for MIMO systems. These difficulties are due to the coupling or interactions between the various inputs and output variables. An input not only affects the output but may affect all the other outputs. Similarly, each input may also affect each output. Yk, k ≠ j. In many cases cross-coupling between the inputs and outputs is low and hence conventional SISO controllers may perform well. If a multivariable system exhibits strong cross-coupling between the various inputs and outputs, a multivariable controller has to be designed for achieving satisfactory performance. A popular approach to deal with control loop interactions is to design non-interacting or decoupling control schemes. The role of decoupler is to decompose a multivariable process into a series of independent single-loop sub-system. If such a controller is designed, complete ...

International Journal of Engineering and Management Research

This paper presents the design of a controller for MIMO systems. Performance analysis and control... more This paper presents the design of a controller for MIMO systems. Performance analysis and controller design for SISO systems are easier than that for MIMO systems. These difficulties are due to the coupling or interactions between the various inputs and output variables. An input , , = , ; not only affects the output , , = , ; but may affect all the other outputs , = , .Similarly, each input , may also affect output , ≠. In many cases cross-coupling between the inputs and outputs is low and hence conventional SISO controllers may perform well. If a multivariable system exhibits strong cross-coupling between the various inputs and outputs, a multivariable controller has to be designed for achieving satisfactory performance. A popular approach to deal with control loop interactions is to design non-interacting or decoupling control schemes. The role of decoupler is to decompose a multivariable process into a series of independent single-loop subsystem. If such a controller is designed, complete or ideal decoupling occurs and the multivariable process can be controlled using independent loop controllers.

NEW ARCH-INTERNATIONAL JOURNAL OF CONTEMPORARY ARCHITECTURE, Jul 7, 2021

The recent developments in the technology made by organizations have led to a quicker, simpler an... more The recent developments in the technology made by organizations have led to a quicker, simpler and a very accurate data analysis. The use of machine learning techniques have been exponentially increasing in the analysis of data in different fields ranging from medicine to defense, education, finance and energy applications. The machine learning techniques reduce further meaningful information processed by data mining. These significant and meaningful information help organizations to establish their future policies to get more advantages in terms of time and cost. In this paper the author has tried to present the best classification method by having a comparative analysis on various methods such as Logistic Regression, Support Vector Machine, Naive Bayes and K-Nearest Neighbors etc. for a particular use case i.e. prediction and classification of transmission line faults. The author has made this analysis by utilizing both Python and MATLAB Simulink. This will surely help the researc...

IOSR Journal of Electrical and Electronics Engineering, 2013

For the improvement of efficiency and power factor, a bridgeless single-phase ac-dc soft switched... more For the improvement of efficiency and power factor, a bridgeless single-phase ac-dc soft switched PWM cuk converter with multiplier control technique is proposed. This paper emphasizes more on the converter efficiency and power factor. The conduction losses and input current harmonics of the proposed converter is very less due to the absence of the input diode bridge and also during each switching cycle, only two semiconductor switches are present in the current path unlike other conventional Cuk converters. Soft switching (ZVS) technique is applied by using an auxiliary circuit to improve the efficiency of the proposed converter. Multiplier control technique is provided to regulate the output which also ultimately improves the efficiency. Power factor is almost unity due to less input current harmonics. The circuit configuration, principle of operation, design procedure and simulation results are presented.

2016 International Conference on Signal Processing, Communication, Power and Embedded System (SCOPES), 2016

This paper presents the design of a controller for MIMO systems. The performance analysis and con... more This paper presents the design of a controller for MIMO systems. The performance analysis and controller design for SISO systems are easier than that for MIMO systems. These difficulties are due to the coupling or interactions between the various inputs and output variables. An input not only affects the output but may affect all the other outputs. Similarly, each input may also affect each output. Yk, k ≠ j. In many cases cross-coupling between the inputs and outputs is low and hence conventional SISO controllers may perform well. If a multivariable system exhibits strong cross-coupling between the various inputs and outputs, a multivariable controller has to be designed for achieving satisfactory performance. A popular approach to deal with control loop interactions is to design non-interacting or decoupling control schemes. The role of decoupler is to decompose a multivariable process into a series of independent single-loop sub-system. If such a controller is designed, complete ...

International Journal of Engineering and Management Research

This paper presents the design of a controller for MIMO systems. Performance analysis and control... more This paper presents the design of a controller for MIMO systems. Performance analysis and controller design for SISO systems are easier than that for MIMO systems. These difficulties are due to the coupling or interactions between the various inputs and output variables. An input , , = , ; not only affects the output , , = , ; but may affect all the other outputs , = , .Similarly, each input , may also affect output , ≠. In many cases cross-coupling between the inputs and outputs is low and hence conventional SISO controllers may perform well. If a multivariable system exhibits strong cross-coupling between the various inputs and outputs, a multivariable controller has to be designed for achieving satisfactory performance. A popular approach to deal with control loop interactions is to design non-interacting or decoupling control schemes. The role of decoupler is to decompose a multivariable process into a series of independent single-loop subsystem. If such a controller is designed, complete or ideal decoupling occurs and the multivariable process can be controlled using independent loop controllers.