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DTSTART:19920301T020000
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DTSTAMP:20250216T055654Z
UID:70B6BF2E-AD5B-4826-955C-09AEC4B343FD
DTSTART;TZID=Australia/Brisbane:20241206T093000
DTEND;TZID=Australia/Brisbane:20241206T103000
DESCRIPTION:Abstract: The electric power system is going through an unprece
 dented transformation and related challenges in the implementation of smar
 t grids. The smart grid is based on the flexible electrical power system t
 hat coordinates different energy resources and loads with the aim of deliv
 ering sustainable\, economical and reliable electrical supply to the loads
  in an efficient manner. In this presentation\, a plug and play type auton
 omous-microgrid system formation is proposed. Multiple distributed generat
 ing sources and loads interaction is considered pertaining to the stabilit
 y of the micro-grid. The proposed method enables communication-less operat
 ion of each of the elements of the micro-grid system. It is also considere
 d that the sources are of different power capacity as can be seen in a typ
 ical autonomous micro-grid system. Spatial Repetitive Controller (SRC) is 
 proposed to control each of the distributed generating sources in a decent
 ralized manner to stabilize the overall micro-grid system. The proposed sy
 stem considers sudden change in load as well as other distributed generato
 rs conditions like a true plug and play operation. A novel signature frequ
 ency voltage injection method is proposed to identify the presence of spec
 ial distributed generator and operation of backup distributed generators. 
 The implemented control architecture also ensures stability of the micro-g
 rid fundamental frequency even in the case of dynamic conditions unlike th
 e traditional droop-control method. A detailed experimental study is carri
 ed out and the experimental results presented show the efficacy of the pro
 posed system.\n\nSanjib Kumar Panda (Fellow\, IEEE) received his B. Eng. d
 egree from the South Gujarat University (India) in 1983\, M.Tech. degree f
 rom the Indian Institute of Technology\, Banaras Hindu University (India) 
 in 1987\, and Ph.D. degree from the University of Cambridge (UK) in 1991\,
  all in electrical engineering. Dr. Panda is currently the Chair of PELS T
 C 12 (Energy Access and Off-Grid Systems) and serves as an Associate Edito
 r for various IEEE Transactions.\n\nCo-sponsored by: IEEE SPEC 2024\n\nBRI
 SBANE\, Queensland\, Australia
LOCATION:BRISBANE\, Queensland\, Australia
ORGANIZER:mahinda.vilathgamuwa@qut.edu.au
SEQUENCE:1
SUMMARY:A Plug and Play Operational Approach for Implementation of an Auton
 omous-Micro-Grid System
URL;VALUE=URI:https://events.vtools.ieee.org/m/454913
X-ALT-DESC:Description: &lt;br /&gt;&lt;div dir=&quot;ltr&quot;&gt;Abstract: The electric power s
 ystem is going through an unprecedented transformation and related challen
 ges in the implementation of smart grids. The smart grid is based on the f
 lexible electrical power system that coordinates different energy resource
 s and loads with the aim of delivering sustainable\, economical and reliab
 le electrical supply to the loads in an efficient manner. In this presenta
 tion\, a plug and play type autonomous-microgrid system formation is propo
 sed. Multiple distributed generating sources and loads interaction is cons
 idered pertaining to the stability of the micro-grid. The proposed method 
 enables communication-less operation of each of the elements of the micro-
 grid system. It is also considered that the sources are of different power
  capacity as can be seen in a typical autonomous micro-grid system. Spatia
 l Repetitive Controller (SRC) is proposed to control each of the distribut
 ed generating sources in a decentralized manner to stabilize the overall m
 icro-grid system. The proposed system considers sudden change in load as w
 ell as other distributed generators conditions like a true plug and play o
 peration. A novel signature frequency voltage injection method is proposed
  to identify the presence of special distributed generator and operation o
 f backup distributed generators. The implemented control architecture also
  ensures stability of the micro-grid fundamental frequency even in the cas
 e of dynamic conditions unlike the traditional droop-control method. A det
 ailed experimental study is carried out and the experimental results prese
 nted show the efficacy of the proposed system.&lt;/div&gt;\n&lt;div dir=&quot;ltr&quot;&gt;&amp;nbsp
 \;&lt;/div&gt;\n&lt;div&gt;\n&lt;p dir=&quot;ltr&quot;&gt;&lt;strong&gt;Sanjib Kumar Panda&lt;/strong&gt; (Fellow\
 , IEEE) received his B. Eng. degree from the South Gujarat University (Ind
 ia) in 1983\, M.Tech. degree from the Indian Institute of Technology\, Ban
 aras Hindu University (India) in 1987\, and Ph.D. degree from the Universi
 ty of Cambridge (UK) in 1991\, all in electrical engineering.&amp;nbsp\; Dr. P
 anda is currently the Chair of PELS TC 12 (Energy Access and Off-Grid Syst
 ems) and serves as an Associate Editor for various IEEE Transactions.&amp;nbsp
 \;&lt;/p&gt;\n&lt;/div&gt;
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