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Deepak Joshi

Bio: Deepak Joshi is an academic researcher from Sardar Vallabhbhai National Institute of Technology, Surat. The author has contributed to research in topics: AC power & Slack bus. The author has an hindex of 1, co-authored 2 publications receiving 23 citations.

Papers
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Proceedings ArticleDOI
04 Jul 2016
TL;DR: In this paper, all line outage contingencies in a standard 6 bus and 5 bus power system has been done in MATLAB environment and load flow analysis has been performed on the system and the active power and voltage performance indices have been calculated.
Abstract: Now a days power system protection is an important task for an operating engineer, which can be done by doing online security assessment. Contingency analysis is one of the best methods to forecast the condition of power system if any unwanted event occured in the power system. To do contingency analysis first the operator has to know the parameters like voltage, power and voltage angle at each and every bus by doing load flow analysis on the system. Newton Raphson method is the best load flow method as it gives accurate results in less time. In this paper all line outage contingencies in a standard 6 bus and 5 bus power system has been done in MATLAB environment. For each line outage contingency, load flow analysis has been done on the system and the active power and voltage performance indices have been calculated. These two performance indices will give the idea about the change in active power flow through the lines and voltages at the buses for a particular line outage. Summation of these two indices will give the performance index value through which ranking of severity will be given to the lines. And from the load flow results comparison has been done between low rank and high rank line outage contingencies. This contingency analysis helps the operational engineer to know which line outage is dangerous to the system and what prior action is to be taken to minimize the effect of that particular line outage.

35 citations

Proceedings ArticleDOI
01 Oct 2017
TL;DR: A simple algorithm is used for finding suitable location of high and medium voltage substation and feeder routing considering cost as an objective function and conductor selection is performed to further reduce the cost.
Abstract: Distribution system planning for large area is very complex problem. In this paper simple algorithm is used for finding suitable location of high and medium voltage substation and feeder routing. The main objective of this paper is to find the optimal location of substation considering cost as an objective function. In this work also feeder routing is carried out considering four types of conductors. The optimal location of substation & feeder routing is carried out such that the radiality of the system is maintained. Conductor selection is also performed to further reduce the cost. Instead of single type conductor in all lines different conductors are used in network.

5 citations


Cited by
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Journal ArticleDOI
TL;DR: In this paper, the authors proposed a cybersecurity assessment approach designed to assess the cyberphysical security of electric power systems (EPS), taking into consideration the intermittent generation of RES, vulnerabilities introduced by microprocessor-based electronic information and operational technology (IT/OT) devices, and contingency analysis results.
Abstract: The integration of renewable energy sources (RES) is rapidly increasing in electric power systems (EPS). While the inclusion of intermittent RES coupled with the wide-scale deployment of communication and sensing devices is important towards a fully smart grid, it has also expanded the cyber-threat landscape, effectively making power systems vulnerable to cyberattacks. This article proposes a cybersecurity assessment approach designed to assess the cyberphysical security of EPS. The work takes into consideration the intermittent generation of RES, vulnerabilities introduced by microprocessor-based electronic information and operational technology (IT/OT) devices, and contingency analysis results. The proposed approach utilizes deep reinforcement learning (DRL) and an adapted Common Vulnerability Scoring System (CVSS) score tailored to assess vulnerabilities in EPS in order to identify the optimal attack transition policy based on $N-2$ contingency results, i.e., the simultaneous failure of two system elements. The effectiveness of the work is validated via numerical and real-time simulation experiments performed on literature-based power grid test cases. The results demonstrate how the proposed method based on deep $Q$ -network ( $\text{D}Q\text{N}$ ) performs closely to a graph-search approach in terms of the number of transitions needed to find the optimal attack policy, without the need for full observation of the system. In addition, the experiments present the method’s scalability by showcasing the number of transitions needed to find the optimal attack transition policy in a large system such as the Polish 2383 bus test system. The results exhibit how the proposed approach requires one order of magnitude fewer transitions when compared to a random transition policy.

37 citations

Posted Content
06 Jul 2020
TL;DR: A cybersecurity assessment approach designed to assess the cyberphysical security of EPS by utilizing deep reinforcement learning (DRL) and an adapted Common Vulnerability Scoring System (CVSS) score tailored to assess vulnerabilities in EPS to identify the optimal attack transition policy.
Abstract: The integration of renewable energy sources (RES) is rapidly increasing in electric power systems (EPS). While the inclusion of intermittent RES coupled with the wide-scale deployment of communication and sensing devices is important towards a fully smart grid, it has also expanded the cyber-threat landscape, effectively making power systems vulnerable to cyberattacks. This paper proposes a cybersecurity assessment approach designed to assess the cyberphysical security of EPS. The work takes into consideration the intermittent generation of RES, vulnerabilities introduced by microprocessor-based electronic information and operational technology (IT/OT) devices, and contingency analysis results. The proposed approach utilizes deep reinforcement learning (DRL) and an adapted Common Vulnerability Scoring System (CVSS) score tailored to assess vulnerabilities in EPS in order to identify the optimal attack transition policy based on N-2 contingency results, i.e., the simultaneous failure of two system elements. The effectiveness of the work is validated via numerical and real-time simulation experiments performed on literature-based power grid test cases. The results demonstrate how the proposed method based on deep Q-network (DQN) performs closely to a graph-search approach in terms of the number of transitions needed to find the optimal attack policy, without the need for full observation of the system. In addition, the experiments present the method's scalability by showcasing the number of transitions needed to find the optimal attack transition policy in a large system such as the Polish 2383 bus test system. The results exhibit how the proposed approach requires one order of magnitude fewer transitions when compared to a random transition policy.

20 citations

Proceedings ArticleDOI
18 May 2018
TL;DR: In this paper, contingency analysis has been done for an IEEE 30 bus system, outage of generators, transmission lines and transformers have been carried out, and results are analysed.
Abstract: Contingency analysis is significant for power system protection. It is the analysis of a power system during non-functionality of equipment(s) or device(s). Contingencies in a power system can occur due to internal component failures or due to external factors like lightning and overloading of equipment. In this paper, contingency analysis has been done for an IEEE 30 bus system. Outage of generators, transmission lines and transformers have been carried out and the results are analysed. Under transmission line contingency, single line outage, double line outage and single circuit line with a compensator outage has been performed. Load flow before and after the contingency have been analysed using PSAT software. Performance indices have been used to rank the severity of each component's contingency. Performance index is given by the sum of active power performance index and voltage performance index. Similarly, a parameter known as Severity index is used to evaluate the effect on all transmissions lines in the power system due to outage of each component.

11 citations

Proceedings ArticleDOI
19 Mar 2018
TL;DR: A Newton-Raphson load flow based approach is presented to perform contingency ranking by computing a voltage performance index (PI), which is classified in secure, insecure and critical classes and then the method proceeds in the decreased order of severity to rank them based on the PI value.
Abstract: The security assessment is a fundamental task as it provides the knowledge about the system status in case of contingency. This helps in rapidly take the accurate action to maintain the system secure. In the present work, a Newton-Raphson load flow based approach is presented to perform contingency ranking by computing a voltage performance index (PI). The contingencies are classified in secure, insecure and critical classes and then the method proceeds in the decreased order of severity to rank them based on the PI value. The proposed method is applied to the IEEE 39-bus system in MATLAB environment by considering (N-1) contingency for different load conditions.

10 citations

Journal ArticleDOI
TL;DR: Based on the load flow results and performance indexes, the Ethiopian Electric Power (EEP) North-West region network is recommended for an upgrade or the reactive power or series compensators should be constructed on the riskiest lines and substations.
Abstract: In recent years, power systems have been pushed to operate above their limits due to the increase in the demand for energy supply and its usage. This increase is accompanied by various kinds of obstructions in power transmission systems. A power system is said to be secured when it is free from danger or risk. Power systems security deals with the ability of the system to withstand any contingencies without any consequences. Contingencies are potentially harmful disturbances which occur during the steady state operation of a power system. Load flow constitutes the most important study in a power system for planning, operation, and expansion. Contingency selection is performed by calculating two kinds of performance indices; an active performance index (PIP) and reactive power performance index (PIV) for a single transmission line outage. In this paper, with the help of the Newton Raphson method, the PIP and PIV were calculated with DIgSILENT Power Factory simulation software and contingency ranking was performed. Based on the load flow results and performance indexes, the Ethiopian Electric Power (EEP) North-West region network is recommended for an upgrade or the reactive power or series compensators should be constructed on the riskiest lines and substations.

10 citations