J. Perkel - Academia.edu (original) (raw)

Papers by J. Perkel

Research paper thumbnail of Optimal Allocation of Facts Devices: Classical Versus Metaheuristc Approaches

SAIEE Africa Research Journal, 2009

Research paper thumbnail of Interpretation of dielectric loss data on service aged polyethylene based power cable systems using VLF test methods

IEEE Transactions on Dielectrics and Electrical Insulation, 2013

In the past, cable system management has proceeded on the basis of cable system age, assuming tha... more In the past, cable system management has proceeded on the basis of cable system age, assuming that the oldest has the lowest reliability. It is now recognized that this constitutes a very coarse assessment and that a more targeted approach would bring a more efficient use of resources. The more targeted approach requires an assessment of the health of cable systems. It is increasingly common for the assessment of aged cable systems to be made through the application of diagnostic measurements. A recent study has shown that Very Low Frequency (VLF) Tan δ is the most commonly deployed cable system diagnostic. The practical use of this technique has been supported by the international standards IEEE Std. 400-2001 and IEEE Std. 400.2-2004. A key part of these standards is the guidance provided to a user that is detailed in the "Figures of Merit". These enable users to make practical improvements to the cable system as they help to identify cable systems that are more likely to fail in service in the near future. To aid these decisions a series of criteria have been developed. The benefit of the criteria described here is that the process for their determination is rational, reproducible, and transparent. The outcomes are supported by a probabilistic assessment of service performance.

Research paper thumbnail of Enhanced particle swarm optimizer for power system applications

2008 IEEE Swarm Intelligence Symposium, 2008

Power system networks are complex systems that are highly nonlinear and non-stationary, and there... more Power system networks are complex systems that are highly nonlinear and non-stationary, and therefore, their performance is difficult to optimize using traditional optimization techniques. This paper presents an enhanced particle swarm optimizer for solving constrained optimization problems for power system applications, in particular, the optimal allocation of multiple STATCOM units. The study focuses on the capability of the algorithm to find feasible solutions in a highly restricted hyperspace. The performance of the enhanced particle swarm optimizer is compared with the classical particle swarm optimization (PSO) algorithm, genetic algorithm (GA) and bacterial foraging algorithm (BFA). Results show that the enhanced PSO is able to find feasible solutions faster and converge to feasible regions more often as compared with other algorithms. Additionally, the enhanced PSO is capable of finding the global optimum without getting trapped in local minima.

Research paper thumbnail of Some considerations on the selection of optimum location, timing, and technique, for diagnostic tests

2008 IEEE Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century, 2008

The ageing of the electrical infrastructure is a growing concern for Utilities, Regulators and Cu... more The ageing of the electrical infrastructure is a growing concern for Utilities, Regulators and Customers; and there is no doubt that addressing this problem will become an ever more important priority. Any solution will have to address three basic issues: firstly where is the optimum place and time to start, secondly what is the most appropriate suite of actions that can be taken and finally is the solution going to deliver the expected life. Diagnostic programs play an important part in the first and the third issues. In the first they may be able to guide the identification and prioritization of assets to be addressed; here they operate on the ageing population. The third issue benefits from diagnostics by using them as part of the assurance process that determines that the replacements / repairs have been effective. Addressing the ageing infrastructure is a large, complex and interacting challenge; this paper focuses on the first issue, namely how to select the appropriate locations, timing and technique.

Research paper thumbnail of Generating Cable Replacement Strategies Using Monte Carlo Simulation

2006 IEEE PES Power Systems Conference and Exposition, 2006

The paper describes a simple replacement strategy developed on the basis of statistical failure p... more The paper describes a simple replacement strategy developed on the basis of statistical failure parameter identification and a predictive replacement algorithm. The proposed approach is illustrated with examples showing both the effectiveness and limitations of the method

Research paper thumbnail of On Distribution Asset Management: Development of Replacement Strategies

2007 IEEE Power Engineering Society Conference and Exposition in Africa - PowerAfrica, 2007

Research paper thumbnail of Prediction of Power Equipment Failures Based on Chronological Failure Records

2006 IEEE International Symposium on Circuits and Systems

Page 1. Prediction ofPower Equipment Failures Based on Chronological Failure Records Petar M. Dju... more Page 1. Prediction ofPower Equipment Failures Based on Chronological Failure Records Petar M. Djuric Miroslav M. Begovic, Joshua Perkel Department ofElectrical and Computer Engineering School ofElectrical and Computer Engineering ...

Research paper thumbnail of Determining routes for the analysis of partial discharge signals derived from the field

IEEE Transactions on Dielectrics and Electrical Insulation, 2008

This paper discusses the experience of the National Electric Energy Testing Research and Applicat... more This paper discusses the experience of the National Electric Energy Testing Research and Applications Center (NEETRAC) with condition assessment of medium voltage power distribution cable systems using Partial Discharge (PD) measurements. Specifically, the main goal is to address the issue of selection of the appropriate PD diagnostic features. A large number of features for which a physical basis can be described are selected for analysis. The features are investigated using data obtained from field and laboratory tests. The investigation shows that two traditional diagnostic features are not enough to classify samples that are prone to fail in a four-year time window. Subsequently, cluster variable analysis is performed for a considerable number of PD diagnostic features. The analysis enables significant feature elimination and reveals that at least seven different types of PD diagnostic features are needed to achieve an acceptable level of dissimilarity between features. Future work, conclusions and remarks are also discussed.

Research paper thumbnail of Correlation between tan δ diagnostic measurements and breakdown performance at VLF for MV XLPE cables

IEEE Transactions on Dielectrics and Electrical Insulation, 2009

The main contribution of this paper is to investigate the correlation between tan delta diagnosti... more The main contribution of this paper is to investigate the correlation between tan delta diagnostic measurements at 0.1 Hz (Very Low Frequency-VLF) and VLF breakdown performance for medium voltage (MV) cable samples through a laboratory test program. The cable samples used are a set of 15 kV, Cross-linked Polyethylene (XLPE), unjacketed cables removed from the field, the same service area,

Research paper thumbnail of National Electric Energy Testing Research & Applications Center (NEETRAC)

Methods, 2010

The National Electric Energy Testing, Research and Applications Center (NEETRAC) is a nonprofit, ... more The National Electric Energy Testing, Research and Applications Center (NEETRAC) is a nonprofit, member supported electric energy research, development and testing center, housed in the Georgia Institute of Technology's School of Electrical and Computer ...

Research paper thumbnail of Experience of Withstand Testing of Cable Systems in the USA-B1-303

Research paper thumbnail of New Probabilistic Method for Estimation of Equipment Failures and Development of Replacement Strategies

When large amount of statistical information about power system component failure rate is availab... more When large amount of statistical information about power system component failure rate is available, statistical parametric models can be developed for predictive maintenance. Often times, only partial information is available: installation date and amount, as well as failure and replacement rates. By combining sufficiently large number of yearly populations of the components, estimation of model parameters may be possible. The parametric models may then be used for forecasting of the system’s short term future failure and for formulation of replacement strategies. We employ the Weibull distribution and show how we estimate its parameters from past failure data. Using Monte Carlo simulations, it is possible to assess confidence ranges of the forecasted component performance data.

Research paper thumbnail of Enhanced particle swarm optimizer for power system applications

2008 IEEE Swarm Intelligence Symposium, 2008

Power system networks are complex systems that are highly nonlinear and non-stationary, and there... more Power system networks are complex systems that are highly nonlinear and non-stationary, and therefore, their performance is difficult to optimize using traditional optimization techniques. This paper presents an enhanced particle swarm optimizer for solving constrained optimization problems for power system applications, in particular, the optimal allocation of multiple STATCOM units. The study focuses on the capability of the algorithm to find feasible solutions in a highly restricted hyperspace. The performance of the enhanced particle swarm optimizer is compared with the classical particle swarm optimization (PSO) algorithm, genetic algorithm (GA) and bacterial foraging algorithm (BFA). Results show that the enhanced PSO is able to find feasible solutions faster and converge to feasible regions more often as compared with other algorithms. Additionally, the enhanced PSO is capable of finding the global optimum without getting trapped in local minima.

Research paper thumbnail of Optimal Allocation of Facts Devices: Classical Versus Metaheuristc Approaches

SAIEE Africa Research Journal, 2009

Research paper thumbnail of Interpretation of dielectric loss data on service aged polyethylene based power cable systems using VLF test methods

IEEE Transactions on Dielectrics and Electrical Insulation, 2013

In the past, cable system management has proceeded on the basis of cable system age, assuming tha... more In the past, cable system management has proceeded on the basis of cable system age, assuming that the oldest has the lowest reliability. It is now recognized that this constitutes a very coarse assessment and that a more targeted approach would bring a more efficient use of resources. The more targeted approach requires an assessment of the health of cable systems. It is increasingly common for the assessment of aged cable systems to be made through the application of diagnostic measurements. A recent study has shown that Very Low Frequency (VLF) Tan δ is the most commonly deployed cable system diagnostic. The practical use of this technique has been supported by the international standards IEEE Std. 400-2001 and IEEE Std. 400.2-2004. A key part of these standards is the guidance provided to a user that is detailed in the "Figures of Merit". These enable users to make practical improvements to the cable system as they help to identify cable systems that are more likely to fail in service in the near future. To aid these decisions a series of criteria have been developed. The benefit of the criteria described here is that the process for their determination is rational, reproducible, and transparent. The outcomes are supported by a probabilistic assessment of service performance.

Research paper thumbnail of Enhanced particle swarm optimizer for power system applications

2008 IEEE Swarm Intelligence Symposium, 2008

Power system networks are complex systems that are highly nonlinear and non-stationary, and there... more Power system networks are complex systems that are highly nonlinear and non-stationary, and therefore, their performance is difficult to optimize using traditional optimization techniques. This paper presents an enhanced particle swarm optimizer for solving constrained optimization problems for power system applications, in particular, the optimal allocation of multiple STATCOM units. The study focuses on the capability of the algorithm to find feasible solutions in a highly restricted hyperspace. The performance of the enhanced particle swarm optimizer is compared with the classical particle swarm optimization (PSO) algorithm, genetic algorithm (GA) and bacterial foraging algorithm (BFA). Results show that the enhanced PSO is able to find feasible solutions faster and converge to feasible regions more often as compared with other algorithms. Additionally, the enhanced PSO is capable of finding the global optimum without getting trapped in local minima.

Research paper thumbnail of Some considerations on the selection of optimum location, timing, and technique, for diagnostic tests

2008 IEEE Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century, 2008

The ageing of the electrical infrastructure is a growing concern for Utilities, Regulators and Cu... more The ageing of the electrical infrastructure is a growing concern for Utilities, Regulators and Customers; and there is no doubt that addressing this problem will become an ever more important priority. Any solution will have to address three basic issues: firstly where is the optimum place and time to start, secondly what is the most appropriate suite of actions that can be taken and finally is the solution going to deliver the expected life. Diagnostic programs play an important part in the first and the third issues. In the first they may be able to guide the identification and prioritization of assets to be addressed; here they operate on the ageing population. The third issue benefits from diagnostics by using them as part of the assurance process that determines that the replacements / repairs have been effective. Addressing the ageing infrastructure is a large, complex and interacting challenge; this paper focuses on the first issue, namely how to select the appropriate locations, timing and technique.

Research paper thumbnail of Generating Cable Replacement Strategies Using Monte Carlo Simulation

2006 IEEE PES Power Systems Conference and Exposition, 2006

The paper describes a simple replacement strategy developed on the basis of statistical failure p... more The paper describes a simple replacement strategy developed on the basis of statistical failure parameter identification and a predictive replacement algorithm. The proposed approach is illustrated with examples showing both the effectiveness and limitations of the method

Research paper thumbnail of On Distribution Asset Management: Development of Replacement Strategies

2007 IEEE Power Engineering Society Conference and Exposition in Africa - PowerAfrica, 2007

Research paper thumbnail of Prediction of Power Equipment Failures Based on Chronological Failure Records

2006 IEEE International Symposium on Circuits and Systems

Page 1. Prediction ofPower Equipment Failures Based on Chronological Failure Records Petar M. Dju... more Page 1. Prediction ofPower Equipment Failures Based on Chronological Failure Records Petar M. Djuric Miroslav M. Begovic, Joshua Perkel Department ofElectrical and Computer Engineering School ofElectrical and Computer Engineering ...

Research paper thumbnail of Determining routes for the analysis of partial discharge signals derived from the field

IEEE Transactions on Dielectrics and Electrical Insulation, 2008

This paper discusses the experience of the National Electric Energy Testing Research and Applicat... more This paper discusses the experience of the National Electric Energy Testing Research and Applications Center (NEETRAC) with condition assessment of medium voltage power distribution cable systems using Partial Discharge (PD) measurements. Specifically, the main goal is to address the issue of selection of the appropriate PD diagnostic features. A large number of features for which a physical basis can be described are selected for analysis. The features are investigated using data obtained from field and laboratory tests. The investigation shows that two traditional diagnostic features are not enough to classify samples that are prone to fail in a four-year time window. Subsequently, cluster variable analysis is performed for a considerable number of PD diagnostic features. The analysis enables significant feature elimination and reveals that at least seven different types of PD diagnostic features are needed to achieve an acceptable level of dissimilarity between features. Future work, conclusions and remarks are also discussed.

Research paper thumbnail of Correlation between tan δ diagnostic measurements and breakdown performance at VLF for MV XLPE cables

IEEE Transactions on Dielectrics and Electrical Insulation, 2009

The main contribution of this paper is to investigate the correlation between tan delta diagnosti... more The main contribution of this paper is to investigate the correlation between tan delta diagnostic measurements at 0.1 Hz (Very Low Frequency-VLF) and VLF breakdown performance for medium voltage (MV) cable samples through a laboratory test program. The cable samples used are a set of 15 kV, Cross-linked Polyethylene (XLPE), unjacketed cables removed from the field, the same service area,

Research paper thumbnail of National Electric Energy Testing Research & Applications Center (NEETRAC)

Methods, 2010

The National Electric Energy Testing, Research and Applications Center (NEETRAC) is a nonprofit, ... more The National Electric Energy Testing, Research and Applications Center (NEETRAC) is a nonprofit, member supported electric energy research, development and testing center, housed in the Georgia Institute of Technology's School of Electrical and Computer ...

Research paper thumbnail of Experience of Withstand Testing of Cable Systems in the USA-B1-303

Research paper thumbnail of New Probabilistic Method for Estimation of Equipment Failures and Development of Replacement Strategies

When large amount of statistical information about power system component failure rate is availab... more When large amount of statistical information about power system component failure rate is available, statistical parametric models can be developed for predictive maintenance. Often times, only partial information is available: installation date and amount, as well as failure and replacement rates. By combining sufficiently large number of yearly populations of the components, estimation of model parameters may be possible. The parametric models may then be used for forecasting of the system’s short term future failure and for formulation of replacement strategies. We employ the Weibull distribution and show how we estimate its parameters from past failure data. Using Monte Carlo simulations, it is possible to assess confidence ranges of the forecasted component performance data.

Research paper thumbnail of Enhanced particle swarm optimizer for power system applications

2008 IEEE Swarm Intelligence Symposium, 2008

Power system networks are complex systems that are highly nonlinear and non-stationary, and there... more Power system networks are complex systems that are highly nonlinear and non-stationary, and therefore, their performance is difficult to optimize using traditional optimization techniques. This paper presents an enhanced particle swarm optimizer for solving constrained optimization problems for power system applications, in particular, the optimal allocation of multiple STATCOM units. The study focuses on the capability of the algorithm to find feasible solutions in a highly restricted hyperspace. The performance of the enhanced particle swarm optimizer is compared with the classical particle swarm optimization (PSO) algorithm, genetic algorithm (GA) and bacterial foraging algorithm (BFA). Results show that the enhanced PSO is able to find feasible solutions faster and converge to feasible regions more often as compared with other algorithms. Additionally, the enhanced PSO is capable of finding the global optimum without getting trapped in local minima.