Gotowe bibliografie tematyczne / Protection and Control (WAMPAC)

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Gotowa bibliografia na temat „Protection and Control (WAMPAC)”

Autor: Grafiati
Data publikacji: 6 września 2023

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Artykuły w czasopismach na temat "Protection and Control (WAMPAC)"

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Tshenyego, Onkemetse, Ravi Samikannu i Bokani Mtengi. "Wide area monitoring, protection, and control application in islanding detection for grid integrated distributed generation: A review". Measurement and Control 54, nr 5-6 (15.04.2021): 585–617. http://dx.doi.org/10.1177/0020294021989768.

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The assimilation of Distributed Generation (DG) into the electric power system (EPS) has become more attractive as the world is following a trend to reduce greenhouse gas emissions by introducing more renewable energy forms resulting in high penetration scenarios. This high penetration of DGs brings several challenges to the protection philosophy of the EPS which compromises its reliability, availability, and efficiency. Under high DG penetration scenarios, conventional islanding detection methods (Idms) fail to detect an island as the grid loses its inertia to leverage a significant frequency and voltage mismatch necessary for Idms to effectively detect an islanding event. This has given rise to the birth of Artificial Intelligent (AI) methods that are found to perform better in islanding detection. AI Idms are computationally intensive and require a lot of data to operate accurately. Because the computational burden of these methods requires fast computing hardware, the current trend of AI Idms are integrated with Wide Area Monitoring, Protection, and Control (WAMPAC) system. This paper aims at reviewing all these Idms and the WAMPAC’s system latency when hosting AI Idms which are currently the best in islanding detection. This is done to determine if the WAMPAC system latency plus Idms computational time meet the islanding detection time specified by the IEEE Standard 1547 framework.
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Piskunov, Sergey A., Alexey V. Mokeev, Dmitry N. Ulyanov i Evgeny I. Khromtsov. "Wide area monitoring, protection, automation, and control systems for medium voltage networks". E3S Web of Conferences 384 (2023): 01018. http://dx.doi.org/10.1051/e3sconf/202338401018.

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Distribution medium voltage networks have a branched structure, many power centers, longcable and overhead lines. This complicates the process of their automation, since significant capital costs for new equipment are required. New solutions based on modern technologies can help speed up this process and make it more efficient. The authors propose the use of synchronized phasor measurement technology for automating medium voltage networks. This paper considers approaches that describe the possibilities of implementing the WAMPAC principles in such networks, provides several examples where these principles apply.
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Adewole, Adeyemi Charles, i Raynitchka Tzoneva. "Conformance Testing and Analysis of Synchrophasor Communication Message Structures and Formats for Wide Area Measurement Systems in Smart Grids". International Journal of Advances in Applied Sciences 6, nr 2 (1.06.2017): 106. http://dx.doi.org/10.11591/ijaas.v6.i2.pp106-116.

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The renewed quest for situational awareness in power systems has brought about the use of digital signal processing of power system measurements, and the transmission of such data to control centres via communication networks. At the control centres, power system stability algorithms are executed to provide monitoring, protection, and control in order to prevent blackouts. This can be achieved by upgrading the existing Supervisory Control and Data Acquisition (SCADA) systems through the deployment of newly proposed power system synchrophasor-based applications for Wide Area Monitoring, Protection, and Control (WAMPAC). However, this can only be done when there is a complete understanding of the methods and technologies associated with the communication network, message structure, and formats required. This paper presents an analysis of the IEEE C37.118 synchrophasor message framework, message formats, and data communication of synchrophasor measurements from Phasor Measurement Units (PMUs) for WAMPAC schemes in smart grids. A newly designed lab-scale testbed is implemented and used in the practical experimentation relating to this paper. Synchrophasor measurements from the PMUs are captured using a network protocol analyzer software-Wireshark, and the compliance of the synchrophasor message structures and formats captured was compared to the specifications defined in the IEEE C37.118 synchrophasor standard.
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Ivanković, Igor, Vladimir Terzija i Srdjan Skok. "Transmission network angle stability protectionbased on synchrophasor data in control centre". Journal of Energy - Energija 67, nr 3 (2.06.2022): 36–40. http://dx.doi.org/10.37798/201867372.

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Angle stability appears in many forms in transmission network. There are small active power oscillations which do not endanger the normal operations whereas medium and large oscillations have implications on normal operations. These latter kinds of oscillations in some cases develop in out of step condition, which is dangerous disturbance with serious impact on transmission network and generating units. Transmission network operator’s challenges and obligations are to treat in the right manner angle stability issues in their network. Controlling and protecting network needs to be done in efficient way in order to disconnect disturbance quickly and prevent abnormal network operation without exporting disturbance in surrounding networks. Synchrophasor measurements in control centre offer a platform, which responds in a new way on angle stability in transmission network. Those measurements which are collected in phasor data concentrators, which is a part of Wide Area Monitoring will be used for creating out of step protection. This is the first step to extended system to Wide Area Monitoring Protecting And Control (WAMPAC). Paper gives progress of such project in Croatian Transmission Network Operator (HOPS). Firstly, there will be stated motives for development of new out of step protection based on synchrophasor measurements. Some feasibility aspect elaborated with emphasis on communications latency. Furthermore, designed Matlab model for transmission network and protection with small portions of simulations results and analyses presented in paper reveal potential of proposed solutions. This new protection is based on using voltage angles values from phasor data stream in phasor data concentrator.
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Prada Hurtado, Aníbal Antonio, Eduardo Martinez Carrasco, Maria Teresa Villén Martínez i Jose Saldana. "Application of IIA Method and Virtual Bus Theory for Backup Protection of a Zone Using PMU Data in a WAMPAC System". Energies 15, nr 9 (9.05.2022): 3470. http://dx.doi.org/10.3390/en15093470.

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Many wide area monitoring, protection, and control (WAMPAC) systems are being deployed by grid operators to deal with critical operational conditions that may occur in power systems. Thanks to the real-time measurements provided by a set of distributed phasor measurement units (PMUs), different protection algorithms can be run in a central location. In this context, this article presents and validates a novel method that can be used as a backup protection for a selected area in a power system. It merges the integrated impedance angle (IIA) protection method with the theory of virtual buses in wide area electrical power systems. The backup protection works this way: once a fault is detected (pickup time), another delay (added to the pickup time) is defined in order to wait for the primary protection to act. If this does not happen, the algorithm generates its backup trip. The proposed method has been called the zone integrated impedance angle (Zone IIA). A real-time PMU laboratory has been used to test the proposed algorithm using a real-time digital simulator (RTDS). The algorithm has been programmed in a real-time automation controller (RTAC). It has been tested in two different simulated setups: first, a 400 kV transmission system, with and without the use of renewable energy sources (RES); second, a 150 kV submarine line between the Greece mainland and an island, which is currently the longest submarine alternating current connection in the world. The results obtained during the tests have yielded tripping times for area protection in the order of 48 ms, if no time delay is used between the fault detection and the trip order. According to the test results, the proposed method is stable, reliable, obedient, and secure, also with RES installed in the power system. Additionally, the method is selective, i.e., during the tests no trip was executed for external faults, no trip was executed in no-fault condition, and all the applied internal faults were detected and tripped correctly. Finally, the protection method is easy to implement. The method is also applicable to protection against short circuits in distribution systems. According to the trip times observed during the tests, it is clear that these algorithms are well suited to implement backup protections in transmission grids, even in scenarios with high penetration of renewable energies. Considering that backup trip times in transmission grids are usually set between 400 and 1000 ms, and that the actuation times obtained by the proposed algorithm are under 100 ms, the method is suitable for its use as a backup protection.
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Zbunjak i Kuzle. "System Integrity Protection Scheme (SIPS) Development and an Optimal Bus-Splitting Scheme Supported by Phasor Measurement Units (PMUs)". Energies 12, nr 17 (3.09.2019): 3404. http://dx.doi.org/10.3390/en12173404.

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System integrity protection schemes (SIPS) are schemes that can, under potentially hazardous conditions, prevent a complete blackout of endangered parts of an electrical power system (EPS). The main objective of SIPS is to monitor the state of the power transmission network in real time and to react in emergency cases. This paper explores the use of phasor measurement unit (PMU) technology for the development of SIPS as a part of wide-area monitoring, protection, and control (WAMPAC) systems. A new SIPS development method is described using the experience from the real-time operation. The developed optimal bus-splitting scheme identifies potential actions that can eliminate or reduce power system overloads and protect the integrity of the power system. An optimal bus-splitting scheme based on a DC power flow model and PMU measurements is given as an example and is explained and tested on an IEEE 14 bus test system. Conducted simulations indicate that the described SIPS methodology supported by the PMU measurements can mitigate potential overloads of the observed network part.
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Fusiek, Grzegorz, i Pawel Niewczas. "Construction and Evaluation of an Optical Medium Voltage Transducer Module Aimed at a 132 kV Optical Voltage Sensor for WAMPAC Systems". Sensors 22, nr 14 (15.07.2022): 5307. http://dx.doi.org/10.3390/s22145307.

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This paper reports on the construction and characterization of an optical voltage transducer module for applications in the field of wide-area monitoring, protection, and control (WAMPAC). The optical medium voltage transducer (MVT) module was designed to be combined with a capacitive voltage divider (CVD) to form a voltage sensor intended for 132 kV high voltage (HV) networks. The MVT module comprises a combination of a piezoelectric transducer (PZT) and a fiber Bragg grating (FBG) as a core optical sensing element. Changes in the input voltage across the PZT translate into strain being detected by the FBG. The resultant FBG peak wavelength can be calibrated in terms of the input voltage to obtain a precise voltage measurement. The module was experimentally evaluated in the laboratory, and its performance was assessed based on the requirements specified by the IEC standards for electronic voltage transformers and low power voltage transformers. The results of accuracy tests demonstrate that the MVT module is free from hysteresis, within the experimental error, and is capable of simultaneously meeting the requirements for 0.1 metering and 1P protection classes specified by the IEC 60044-7 and IEC 61869-11 standards.
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Kumar, Lalit, Shehab Ahmed, Luigi Vanfretti i Nand Kishor. "Real-Time Testing of Synchrophasor-Based Wide-Area Monitoring System Applications Acknowledging the Potential Use of a Prototyping Software Toolchain". International Transactions on Electrical Energy Systems 2022 (30.07.2022): 1–13. http://dx.doi.org/10.1155/2022/6215040.

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This article presents a study on real-time testing of synchrophasor-based “wide-area monitoring system’s applications (WAMS application).” Considering the growing demand of real-time testing of “wide-area monitoring, protection, and control (WAMPAC)” applications, a systematic real-time testing methodology is formulated and delineated in diagrams. The diagrams propose several stages through which an application needs to be assessed (sequentially) for its acceptance prior to implementation into a production system. However, only one stage is demonstrated in this article which comprises the use of a prototyping software toolchain and whose potential is assessed as sufficient for preliminary real-time testing (PRTT) of WAMS applications. The software toolchain is composed of two components: the MATLAB software for application prototyping and other open-source software that allows ingesting prerecorded phasor measurement unit (PMU) signals. With this software toolchain, a PRTT study is presented for two WAMS applications: “testing of the PMU/phasor data concentrator (PDC)” and “testing of wide-area forced oscillation (FO) monitoring application.”
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Ivankovic, Igor, Igor Kuzle i Ninoslav Holjevac. "Multifunctional WAMPAC system concept for out-of-step protection based on synchrophasor measurements". International Journal of Electrical Power & Energy Systems 87 (maj 2017): 77–88. http://dx.doi.org/10.1016/j.ijepes.2016.11.005.

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Cai, Deyu, Vladimir Terzija, Mark Osborne i Peter Wall. "Roadmap for the deployment of WAMPAC in the future GB power system". IET Generation, Transmission & Distribution 10, nr 7 (5.05.2016): 1553–62. http://dx.doi.org/10.1049/iet-gtd.2015.0582.

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Rozprawy doktorskie na temat "Protection and Control (WAMPAC)"

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Neophytou, Andonis. "Computer security : data control and protection". Virtual Press, 1992. http://liblink.bsu.edu/uhtbin/catkey/834504.

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Computer security is a crucial area for any organization based on electronic devices that process data. The security of the devices themselves and the data they process are the backbone of the organization. Until today there have been no completely secure systems or procedures until and a lot of research is being done in this area. It impossible for a machine or a mechanical procedure to "guess" all possible events and lead to conclusive, cohesive and comprehensive secure systems, because of: 1) the human factor, and 2) acts of nature (fire, flood etc). However, proper managerial control can alleviate the extent of the damage caused by those factors.The purpose of this study is to examine the different frameworks of computer security. Emphasis is given to data/database security and the various kinds of attacks on the data. Controls over these attacks and preventative measures will be discussed, and high level language programs will demonstrate the protection issues. The Oracle, SOL query language will be used to demonstrate these controls and prevention measures. In addition the FORTRAN high level language will be used in conjunction with SOL (Only the FORTRAN and COBOL compilers are available for embedded SOL). The C language will be used to show attacks on password files and also as an encryption/decryption program.This study was based mainly on research. An investigation of literature spanning the past decade, was examined to produce the ideas and methods of prevention and control discussed in the study.
Department of Computer Science
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Wang, Sheng. "Control and protection of HVDC grids". Thesis, Cardiff University, 2016. http://orca.cf.ac.uk/99015/.

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The decarbonisation of Europe’s energy sector is a key driver for the development of integrated HVDC networks or DC grids. A multi-terminal HVDC grid will enable a more reliable power transfer from offshore wind farms and will facilitate the cross-border exchange of energy between different countries. However, the widespread deployment of DC grids is prevented by technical challenges, including the control and protection of DC grids. In order to close the gap, this thesis aims to contribute to three aspects (1): developing a control method for DC grids operation; (2): developing a method for optimising wind power delivery using DC grids; (3): developing a protection method for fast DC fault current interruption. The control of a DC grid demands the regulation of DC voltage and hence keeps the power into and out from the DC grid balanced. It is also important to keep the accuracy of regulating the converter DC current. In this thesis, the Autonomous Converter Control (ACC) is developed to meet this requirement. With this method, alternative droop control characteristics can be used for individual converters to share the responsibility of regulation of DC voltage while precisely controlling the converter DC current. The control algorithms of alterative droop characteristics are developed and interactions of different control characteristics are analysed. Furthermore, the potential risk of having multiple cross-over in control characteristics is uncovered. The method for designing droop characteristics is provided to avoid the multiple cross-over. The ACC is demonstrated on different simulation platforms including the PSCAD/EMTDC and a real-time hardware 4-terminal HVDC test rig. It is found that the proper use of alternative droop characteristics can achieve better current control performance. The adverse impact of having multiple cross-over in control characteristics is also studied using both simulation platforms. The effect of the control of both converters and DC power flow controllers (DC-PFCs) on DC power flow in steady state is also investigated. A method for re-dispatching control orders to optimise the wind power delivery is developed. Case studies are undertaken and it is found that both the DC line power loss and wind power curtailment can be reduced by redispatching the control orders of converters and DC-PFCs. The protection of a DC grid demands a very fast speed for fault current interruption. Conventional methods proposed for HVDC grid protection take delays of several milliseconds to discriminate a faulted circuit to healthy circuits and then allow the DC circuit breakers (DC-CBs) to open at the faulted circuits. The fault current will keep rising during Control and Protection of HVDC Grids iv the delayed time caused by fault discrimination. The Open Grid protection method is thus developed to interrupt fault current before fault discrimination. With this method, multiple DC-CBs open to interrupt the fault current based on local measurements of voltage (and current) and the DC-CBs on healthy circuits will reclose to achieve discrimination afterwards. This will reduce the delay for fault current interruption and hence the fault current can be interrupted with a much smaller magnitude. The developed Open Grid method is tested via simulation models developed in PSCAD/EMTDC. The results show that the Open Grid can detect very quickly and discriminate various faults under different fault conditions in a meshed HVDC grid.
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Jutla, Dawn N. "Multiview model for protection and access control". Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp04/NQ31529.pdf.

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Backman, A. (Aleksi). "A brief tour on control-flow protection". Bachelor's thesis, University of Oulu, 2019. http://jultika.oulu.fi/Record/nbnfioulu-201904241518.

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Abstract. The purpose of this work is to give an overview on the topic under discussion, control-flow protection. An effort is made for the result to be more accessible by providing sufficient background in beginning and related material in the end. Most of the work was done by searching, consuming and referring to relevant research material. Additionally a control-flow integrity feature of Clang compiler is tried out and the results reported. Control-flow protection can be attacked in various ways on multiple levels and this makes it challeging to implement a trustworthy protection. For this reason it is important to understand the topic both in depth and breadth.
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AL-Shareefi, Hussein. "Neutral network corrosion control by impressed cathodic protection". Thesis, Högskolan Dalarna, Maskinteknik, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:du-4258.

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Bishay-Girges, Nagui William. "Seismic protection of structures using passive control system". Thesis, University of Canterbury. Civil Engineering, 2004. http://hdl.handle.net/10092/7509.

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There is a relationship between inelastic deformation and energy dissipation in structures that are subjected to earthquake ground motions. Thus, if seismic energy dissipation can be achieved by means of a separate non-load bearing supplementary damping system, the load bearing structure can remain elastic with continuing serviceability following the design level earthquake. This research was carried out to investigate the advantages of using added damping in structures. The control system consists of passive friction dampers called ring spring dampers installed in the ground floor of the structure using a tendon to transmit the forces to the other parts of the structure. The ring springs dampers are friction devices consisting of inner and outer ring elements assembled to form a spring stack. External load applied to the spring produces sliding action across mating ring interfaces. The damping forces generated by the dampers and transferred in the supplemental system to the structure by the tendon and horizontal links oppose the internal loads. A four storey-two bay steel frame structure was used in the study. Experimental and analytical studies to investigate the effectiveness of a supplemental control system are presented. The model was subjected to a series of earthquake simulations on the shaking table in the Structural Laboratory of the Civil Engineering Department, at the University of Canterbury. The earthquake simulation tests have been performed on the structure both with and without the supplemental control system. The earthquake simulations were a series of gradually increasing intensity replications of two commonly used earthquake records. This thesis includes detailed description of the structural model, the supplemental control system, the ring springs dampers and the data obtained during the testing. Analyses were then carried out on a twelve storey framed structure to investigate the possible tendon arrangements and the size and type of dampers required to control the response of a real building. Guidelines for determining the appropriateness of including a supplemental damping system have been investigated. The main features of the supplemental control system adopted in this research are: • It is a passive control system with extreme reliability and having no dependence on external power sources to effect the control action. These power sources may not be available during a major earthquake. • Ring springs are steel friction devices capable of absorbing large amounts of input energy. No liquid leakage can occur and minimal maintenance is required for the ring spring dampers. • With a damper-tendon system, the distribution of the dampers throughout the structure is not so critical. Only one or two dampers are used to produce the damping forces needed, and forces are then transferred to the rest of the building by the tendon system. • It is a relatively inexpensive control system with a long useful life.
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Stedall, Bruce David. "The hierarchical control and protection of power systems". Thesis, University of Bath, 1994. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.760655.

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Li, Xinyao. "Enhanced control and protection for inverter dominated microgrids". Thesis, University of Strathclyde, 2014. http://oleg.lib.strath.ac.uk:80/R/?func=dbin-jump-full&object_id=23510.

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Implementation of distributed energy resources (DER) has the potential to lower the carbon oxygen emissions, reduce the power distribution losses and improve the overall system operation. Despite the numerous advantages brought by these small-scale DERs, effective protection and control of such systems are still unsolved challenges. The distribution system is increasingly being confronted with congestion and voltage problems, which limits further penetration of DERs. Numerous studies have been conducted to analyse these challenges and provide recommendations or guidance for protection and control in the past few years. There is also a lot of effort to develop an advanced regime for integration of large amounts of DERs, such as the "microgrid". Microgrids are designed to provide control and protection of a cluster of DERs, storage units and loads in a way that can coordinate with the conventional utility grid operation with little conflict. As flexible as it is, a microgrid is connec ted to the utility grid behaving as a controllable entity in normal operation, and can be disconnected from the grid to present itself as a power island in emergency, e.g. system black-out. Since most of the DERs are interfaced with inverters, this thesis is dedicated to provide in-depth investigation of protection and control within inverter dominated microgrids. The thesis provides two main valuable contributions. Firstly, an enhanced control scheme for a microgrid consisting of multi inverter interfaced generators (IIG) is developed and compared to the conventional droop based decentralized control. The proposed control scheme is particularly designed for systems with IIGs interconnected via relatively long cable lengths (several kilo metres). It also allows switchless mode transition between islanded operation and grid-connected operation, which reduces the transient voltage and current oscillations, and enhances the transient behaviour of the IIGs. Compared to the conventional droop based decentralized control, the proposed control scheme has better operational stability and is immune to different lengths and R/X ratios of connecting cables. The proposed control also brings better voltage regulation and has a larger power output capacity. Secondly, a new travelling wave based protection scheme is developed which involves modification of an application friendly signal processing technique - Mathematical Morphology. The impact of distance to fault, fault inception angle and fault impedance is analysed and quantified. The thesis proposes a systematic protection solution which is proved to be immune to the changes of system topology, modes of operation and load conditions.
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Thompson, Adam Craig. "The Future of Substations: Centralized Protection and Control". Thesis, Virginia Tech, 2016. http://hdl.handle.net/10919/73177.

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Modern power substations continue to use hardware that is dated and resistant to modernization. This document discusses the basics of substations, identifies their weaknesses, and suggests a method of improvement. This suggestion implements a centralized protection and control system to make the overall system more robust and flexible to the ever changing power system landscape.
Master of Science
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Unnikrishnan, Suraj. "Adaptive Envelope Protection Methods for Aircraft". Diss., Georgia Institute of Technology, 2006. http://hdl.handle.net/1853/11478.

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Carefree handling refers to the ability of a pilot to operate an aircraft without the need to continuously monitor aircraft operating limits. At the heart of all carefree handling or maneuvering systems, also referred to as envelope protection systems, are algorithms and methods for predicting future limit violations. Recently, envelope protection methods that have gained more acceptance, translate limit proximity information to its equivalent in the control channel. Envelope protection algorithms either use very small prediction horizon or are static methods with no capability to adapt to changes in system configurations. Adaptive approaches maximizing prediction horizon such as dynamic trim, are only applicable to steady-state-response critical limit parameters. In this thesis, a new adaptive envelope protection method is developed that is applicable to steady-state and transient response critical limit parameters. The approach is based upon devising the most aggressive optimal control profile to the limit boundary and using it to compute control limits. Pilot-in-the-loop evaluations of the proposed approach are conducted at the Georgia Tech Carefree Maneuver lab for transient longitudinal hub moment limit protection. Carefree maneuvering is the dual of carefree handling in the realm of autonomous Uninhabited Aerial Vehicles (UAVs). Designing a flight control system to fully and effectively utilize the operational flight envelope is very difficult. With the increasing role and demands for extreme maneuverability there is a need for developing envelope protection methods for autonomous UAVs. In this thesis, a full-authority automatic envelope protection method is proposed for limit protection in UAVs. The approach uses adaptive estimate of limit parameter dynamics and finite-time horizon predictions to detect impending limit boundary violations. Limit violations are prevented by treating the limit boundary as an obstacle and by correcting nominal control/command inputs to track a limit parameter safe-response profile near the limit boundary. The method is evaluated using software-in-the-loop and flight evaluations on the Georgia Tech unmanned rotorcraft platform- GTMax. The thesis also develops and evaluates an extension for calculating control margins based on restricting limit parameter response aggressiveness near the limit boundary.
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Książki na temat "Protection and Control (WAMPAC)"

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Local Authorities Co-Ordinating Body on Trading Standards., red. Inspection, protection and control. [Croydon?]: LACOTS, 1989.

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1937-, Bloom Barry R., red. Tuberculosis: Pathogenesis, protection, and control. Washington, D.C: ASM Press, 1994.

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Ray, Papia, i Monalisa Biswal, red. Microgrid: Operation, Control, Monitoring and Protection. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-1781-5.

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Vincent, Charles, B. Panneton i F. Fleurat-Lessard, red. Physical Control Methods in Plant Protection. Berlin, Heidelberg: Springer Berlin Heidelberg, 2001. http://dx.doi.org/10.1007/978-3-662-04584-8.

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Mahdavi Tabatabaei, Naser, Ersan Kabalci i Nicu Bizon, red. Microgrid Architectures, Control and Protection Methods. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-23723-3.

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Cook, Ronald, i Viswanathan S. Saji. Corrosion protection and control using nanomaterials. Cambridge, UK: Woodhead Publishing, 2012.

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Local Authorities Co-ordinating Body and Trading Standards., red. Consumer protection control bodies: European directory. Croyden: LACOTS, 1991.

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Gray, Donald H. Biotechnical slope protection and erosion control. Malabar, Fla: R.E. Krieger Pub. Co., 1989.

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United States. Animal and Plant Health Inspection Service. Biological control programs: Plant protection laboratories. Washington, D.C.?]: U.S. Dept. of Agriculture, Animal and Plant Health Inspection Service, 1995.

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Total facility control. Boston: Butterworths, 1986.

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Części książek na temat "Protection and Control (WAMPAC)"

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Becker, Norbert, Dušan Petrić, Marija Zgomba, Clive Boase, Minoo Madon, Christine Dahl i Achim Kaiser. "Personal Protection". W Mosquitoes and Their Control, 491–97. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-540-92874-4_21.

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Becker, Norbert, Dušan Petrić, Clive Boase, John Lane, Marija Zgomba, Christine Dahl i Achim Kaiser. "Personal Protection". W Mosquitoes and Their Control, 411–15. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4757-5897-9_15.

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Bradford, Samuel A. "Cathodic and Anodic Protection". W Corrosion Control, 249–64. Boston, MA: Springer US, 1993. http://dx.doi.org/10.1007/978-1-4684-8845-6_12.

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Verdugo, Pablo X., Jaime C. Cepeda, Aharon B. De La Torre i Diego E. Echeverría. "Implementation of a Real Phasor Based Vulnerability Assessment and Control Scheme: The Ecuadorian WAMPAC System". W Dynamic Vulnerability Assessment and Intelligent Control for Sustainable Power Systems, 389–411. Chichester, UK: John Wiley & Sons, Ltd, 2018. http://dx.doi.org/10.1002/9781119214984.ch18.

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Bertino, Elisa. "Access Control". W Data Protection from Insider Threats, 15–36. Cham: Springer International Publishing, 2012. http://dx.doi.org/10.1007/978-3-031-01890-9_3.

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Hills, Alice. "Control, Protection and Negligence". W Borders, mobility and technologies of control, 123–48. Dordrecht: Springer Netherlands, 2006. http://dx.doi.org/10.1007/1-4020-4899-8_7.

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Lieberman, Alvin. "Product Protection Methods Summary". W Contamination Control and Cleanrooms, 101–14. Boston, MA: Springer US, 1992. http://dx.doi.org/10.1007/978-1-4684-6512-9_8.

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Arestova, Anna, i Andrey Grobovoy. "Protection Technologies". W Monitoring, Control and Protection of Interconnected Power Systems, 241–53. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-642-53848-3_13.

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Bizumic, Lazar, Rachid Cherkaoui i Ulf Häger. "Interface Protection". W Monitoring, Control and Protection of Interconnected Power Systems, 333–47. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-642-53848-3_17.

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Klote, John H. "Smoke Control". W SFPE Handbook of Fire Protection Engineering, 1785–823. New York, NY: Springer New York, 2016. http://dx.doi.org/10.1007/978-1-4939-2565-0_50.

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Streszczenia konferencji na temat "Protection and Control (WAMPAC)"

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Terzija, V. "Wide area monitoring protection and control - WAMPAC". W IET-UK International Conference on Information and Communication Technology in Electrical Sciences (ICTES 2007). IEE, 2007. http://dx.doi.org/10.1049/ic:20070776.

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Ivankovic, Igor, Dalibor Brnobic, Renata Rubesa i Marko Rekic. "Line Differential Protection with Synchrophasor Data in WAMPAC System in Control Room". W 2020 3rd International Colloquium on Intelligent Grid Metrology (SMAGRIMET). IEEE, 2020. http://dx.doi.org/10.23919/smagrimet48809.2020.9264020.

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Fujikawa, Fuyuki. "Evaluation of applicability to WAMPAC (Wide Area Monitoring Protection and Control) of IEEE 1588". W 2012 IEEE Third International Conference on Smart Grid Communications (SmartGridComm). IEEE, 2012. http://dx.doi.org/10.1109/smartgridcomm.2012.6486050.

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Kawano, Fumio, Phil Beaumont, Akira Ishibashi, Koichi Hamamatsu, Yasuyuki Tada i Yoshizumi Serizawa. "Development of prototype wide-area monitoring, protection and control (WAMPAC) systems based upon international standards". W 2013 IEEE Grenoble PowerTech. IEEE, 2013. http://dx.doi.org/10.1109/ptc.2013.6652281.

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Ivankovic, Igor, Igor Kuzle i Ninoslav Holjevac. "Key Performance Indicies for Angle Stability Protection Function in WAMPAC System". W 2018 IEEE Power & Energy Society General Meeting (PESGM). IEEE, 2018. http://dx.doi.org/10.1109/pesgm.2018.8586527.

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Ivankovic, Igor, Dalibor Brnobic, Srdjan Skok, Ivan Sturlic i Renata Rubesa. "Time delay aspect for basic line protection functions with synchrophasor in WAMPAC system". W 2018 IEEE International Energy Conference (ENERGYCON). IEEE, 2018. http://dx.doi.org/10.1109/energycon.2018.8398826.

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Ivankovic, Igor, Dalibor Brnobic, Renata Rubesa, Zoran Zbunjak i Vedran Grudenic. "Analyses of phasor measurement unit estimation algorithms for protection functions inside WAMPAC system". W 2018 First International Colloquium on Smart Grid Metrology (SmaGriMet). IEEE, 2018. http://dx.doi.org/10.23919/smagrimet.2018.8369823.

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Naglic, M., I. Tyuryukanov, M. Popov, M. van der Meijden i V. Terzija. "WAMPAC-ready platform for online evaluation of corrective control algorithms". W Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion (MedPower 2016). Institution of Engineering and Technology, 2016. http://dx.doi.org/10.1049/cp.2016.1022.

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RajPrasad, R. S. "Design and Implementation of a Novel WAMPAC System for Power Network with Remote Monitoring and Control". W The 2nd World Congress on Electrical Engineering and Computer Systems and Science. Avestia Publishing, 2016. http://dx.doi.org/10.11159/eee16.127.

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Ravikumar, Gelli, Burhan Hyder, Jeyanth Rajan Babu, Kush Khanna, Manimaran Govindarasu i Manu Parashar. "CPS Testbed Architectures for WAMPAC using Industrial Substation and Control Center Platforms and Attack-Defense Evaluation". W 2021 IEEE Power & Energy Society General Meeting (PESGM). IEEE, 2021. http://dx.doi.org/10.1109/pesgm46819.2021.9638183.

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Raporty organizacyjne na temat "Protection and Control (WAMPAC)"

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Rinke, Helen. Classified Matter Protection and Control Overview Course 16028. Office of Scientific and Technical Information (OSTI), lipiec 2021. http://dx.doi.org/10.2172/1808829.

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Bebchuk, Lucian Arye. A Rent-Protection Theory of Corporate Ownership and Control. Cambridge, MA: National Bureau of Economic Research, lipiec 1999. http://dx.doi.org/10.3386/w7203.

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Baran, Mesut. Collaborative Protection and Control Schemes for Shipboard Electrical Systems. Fort Belvoir, VA: Defense Technical Information Center, marzec 2007. http://dx.doi.org/10.21236/ada465251.

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Durkee, Joe W., Ben Cipiti, Scott Francis Demuth, Andrew James Fallgren, Ken Jarman, Shelly Li, Dave Meier i in. Material Protection, Accounting, and Control Technologies (MPACT) Advanced Integration Roadmap. Office of Scientific and Technical Information (OSTI), wrzesień 2016. http://dx.doi.org/10.2172/1329653.

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Duran, Felicia Angelica, i Benjamin B. Cipiti. Integrated safeguards & security for material protection, accounting, and control. Office of Scientific and Technical Information (OSTI), październik 2009. http://dx.doi.org/10.2172/1001013.

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Edmonds, P. H., S. S. Medley i K. M. Young. TPX diagnostics for tokamak operation, plasma control and machine protection. Office of Scientific and Technical Information (OSTI), sierpień 1995. http://dx.doi.org/10.2172/100240.

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Miller, Mike, Ben Cipiti, Scott Francis Demuth, Joe W. Durkee, Jr., Andrew James Fallgren, Ken Jarman, Shelly Li i in. Material Protection, Accounting, and Control Technologies (MPACT) Advanced Integration Roadmap. Office of Scientific and Technical Information (OSTI), styczeń 2017. http://dx.doi.org/10.2172/1341846.

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Kelley, Roy J. Maritime Command And Control For U.S. Coastline Protection Against Terrorists. Fort Belvoir, VA: Defense Technical Information Center, maj 2003. http://dx.doi.org/10.21236/ada420240.

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Ball, Sydney J., Thomas L. Wilson Jr i Richard Thomas Wood. Advanced Control and Protection system Design Methods for Modular HTGRs. Office of Scientific and Technical Information (OSTI), czerwiec 2012. http://dx.doi.org/10.2172/1047629.

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Tanzman, E. A., i B. Kellman. Keeping the peace green: Integrating arms control and environmental protection. Office of Scientific and Technical Information (OSTI), październik 1994. http://dx.doi.org/10.2172/10117179.

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