Search

Borka D Milosevic

from Smyrna, GA
Age ~55
Get Report
Also known as:
Borka F Milosevic, Milosevic Borka, Bd Milosevic, Borko Milosevic, Borka Milosev, Borka I
Phone and address:
4761 Cheviot Way, Smyrna, GA 30080
(678) 842-0216
Related to:
Milica MilosevicDusan R MilosevicAleksandra D Milosevic
Connected to:
Alexander Milosevic, 39Ava L Milosevich, 84Branko Milosevic, 45John R Milosevich, 70Mark A Milosevich, 43Nevena Milosevic, 28Teresa A Milosevich, 61Michael A Milosh, 42Michelle Milosh, 65Biljana Miloshevska, 45

Borka Milosevic Phones & Addresses

  • 4761 Cheviot Way, Smyrna, GA 30080 (678) 842-0216
  • 506 Marden Ct, Smyrna, GA 30082 (678) 842-0216
  • Atlanta, GA
  • Cobb, GA

Resumes

Resumes

Borka Milosevic Photo 1

Senior Staff Engineer

View page
Location:
7935 114Th Ave, Largo, FL 33773
Industry:
Electrical/Electronic Manufacturing
Work:
Ge Digital
Senior Staff Engineer
Ge Energy Connections
Principal Software Product Business Analyst
Ge Grid Solutions Mar 2015 - Dec 2015
Staff Software Product Business Analyst
Ge Grid Solutions Jan 2014 - Mar 2015
Senior Software Engineer - Power Systems
Ge Grid Solutions Mar 2010 - Jan 2014
Senior Engineer and Technologist
Education:
Georgia Institute of Technology
Georgia Institute of Technology
Doctorates, Doctor of Philosophy, Computer Engineering Georgia Institute of Technology
Master of Science, Masters, Electrical Engineering School of Electrical Engineering
Bachelors, Bachelor of Science, Electrical Engineering
Skills:
Smart Grid
Power Systems
Matlab
Electrical Engineering
Cyme
Pss/E
Load Flow
Power System Studies
Genetic Algorithms
Electric Power
Energy
Engineering
Power Distribution
Power Electronics
Power Generation
Transmission
Power Transmission
Power Plants
Power Engineering
Substation
Scada
Protective Relays
High Voltage
Control Systems Design
Transformer
Smart Metering
Power Quality
Electricians
Renewable Energy
Demand Response
Languages:
English
Serbian
Italian
Certifications:
Six Sigma Green Belt Certified
Machine Learning
R Programming
Machine Learning (Link)
R Programming (Link)
Borka Milosevic Photo 2

Borka Milosevic

View page
Location:
Atlanta, GA
Industry:
Architecture & Planning
Borka Milosevic Photo 3

Borka Milosevic

View page

Publications

Us Patents

Apparatus For Decentralized Coordinated Volt/Var Control (Cvvc)

View page
US Patent:
20130024032, Jan 24, 2013
Filed:
Jul 19, 2011
Appl. No.:
13/186216
Inventors:
Aleksandar Vukojevic - Atlanta GA, US
Borka Milosevic - Atlanta GA, US
International Classification:
G06F 1/28
US Classification:
700291
Abstract:
A system for enhancing decentralized coordinated Volt/Var control (CVVC) includes a memory device configured to store a plurality of operational measurements of an electric distribution system. The electric distribution system includes a plurality of capacitive devices. The system also includes a processor coupled in communication with the memory device. The processor is programmed to determine a plurality of potential configurations for the plurality of capacitive devices. The processor is also programmed to determine a priority of switching of each of the plurality of capacitive devices as a function of at least one of at least one actual voltage measurement of the electric distribution system, at least one power factor determination of the electric distribution system, at least one voltage parameter, at least one power factor parameter, and an availability of each of the capacitive devices.

System And Method For Controlling Voltage On A Distribution Feeder

View page
US Patent:
20130024040, Jan 24, 2013
Filed:
Jul 19, 2011
Appl. No.:
13/185953
Inventors:
Aleksandar Vukojevic - Atlanta GA, US
Borka Milosevic - Smyrna GA, US
Assignee:
GENERAL ELECTRIC COMPANY - Schenectady NY
International Classification:
G06F 1/30
H02J 3/16
US Classification:
700293, 307109
Abstract:
A system for controlling voltage on a distribution feeder includes a plurality of capacitor banks that can be connected to or disconnected from the distribution feeder. A first bank is configured to connect to the distribution feeder when a first voltage is below a first lower threshold value and to connect to the distribution feeder when the first voltage is above a first upper threshold value. The first upper threshold and first lower threshold are determined based off an operational set point. The system further includes a sensor configured to measure the first voltage and a controller in operable communication with the plurality of capacitor banks configured to determine the operational state of the first and second capacitor banks and, based on the first voltage, send a first instruction to the first capacitor bank, the first instruction causing the capacitor bank to vary the operational set point.

Devices And Methods For Decentralized Power Loss Reduction Control

View page
US Patent:
20130030579, Jan 31, 2013
Filed:
Jul 26, 2011
Appl. No.:
13/191409
Inventors:
Borka Milosevic - Atlanta GA, US
Willem Hendrik Du Toit - Cochrane, CA
Aleksandar Vukojevic - Atlanta GA, US
Assignee:
GENERAL ELECTRIC COMPANY - Schenectady NY
International Classification:
G05D 11/00
US Classification:
700286
Abstract:
Devices and methods for the decentralized, coordinated control of the active power losses of an electrical distribution system are provided. For example, a controller may include a network interface and data processing circuitry. The network interface may receive first measurements associated with a segment of an electrical distribution system and transmit a control signal configured to control equipment of the segment of the electrical distribution system. The data processing circuitry may run digital simulations of the segment of the electrical distribution system in various equipment configurations, selecting from among the various equipment configurations an equipment configuration that is expected to cause the active power losses of the segment to approach a desired value. The data processing circuitry then may generate the control signal, which may cause the equipment of the segment of the electrical distribution system to conform to the equipment configuration.

Power Distribution System

View page
US Patent:
20130030584, Jan 31, 2013
Filed:
Jul 25, 2011
Appl. No.:
13/189929
Inventors:
Borka Milosevic - Smyrna GA, US
Kamal Mannar - Singapore, SG
Aleksandar Vukojevic - Atlanta GA, US
Assignee:
GENERAL ELECTRIC COMPANY - Schenectady NY
International Classification:
G06F 1/28
US Classification:
700291
Abstract:
A power distribution system is provided, including at least one capacitor bank with a capacitor bank controller, a transformer, at least one voltage regulating device with a voltage regulating device controller, and a controller. The capacitor bank is selectively connected to the feeder and a capacitor bank controller. The capacitor bank controller controls a switch for selectively connecting the capacitor bank to the feeder. The transformer delivers power to the power distribution system through the feeder. The transformer converts a transmission or a sub-transmission voltage into a distribution voltage. The controller is in communication with the capacitor bank controller, the voltage regulating device, and the transformer. The controller selectively switches the at least one capacitor bank to adjust voltage in the feeder. The controller selectively sends commands to the voltage regulating device to change a source voltage.

Devices And Methods For Decentralized Voltage Control

View page
US Patent:
20130030586, Jan 31, 2013
Filed:
Jul 26, 2011
Appl. No.:
13/191420
Inventors:
Borka Milosevic - Atlanta GA, US
Willem Hendrik Du Toit - Cochrane, CA
Aleksandar Vukojevic - Atlanta GA, US
Assignee:
GENERAL ELECTRIC COMPANY - Schenectady NY
International Classification:
G06F 1/28
US Classification:
700292
Abstract:
Devices and methods for the decentralized, coordinated control of the voltage of an electrical distribution system are provided. For example, a controller may include a network interface and data processing circuitry. The network interface may receive first measurements associated with a segment of an electrical distribution system and transmit a control signal configured to control equipment of the segment of the electrical distribution system. The data processing circuitry may run digital simulations of the segment of the electrical distribution system in various equipment configurations, selecting from among the various equipment configurations an equipment configuration that is expected to cause the voltage deviation of the segment to approach a desired value. The data processing circuitry then may generate the control signal, which may cause the equipment of the segment of the electrical distribution system to conform to the equipment configuration.

Devices And Methods For Decentralized Power Factor Control

View page
US Patent:
20130030597, Jan 31, 2013
Filed:
Jul 26, 2011
Appl. No.:
13/191400
Inventors:
Borka Milosevic - Atlanta GA, US
Willem Hendrik Du Toit - Cochrane, CA
Aleksandar Vukojevic - Atlanta GA, US
Assignee:
GENERAL ELECTRIC COMPANY - Schenectady NY
International Classification:
G06F 1/28
US Classification:
700298, 700297
Abstract:
Devices and methods for the decentralized, coordinated control of the power factor on an electrical distribution system are provided. For example, a controller may include a network interface and data processing circuitry. The network interface may receive first measurements associated with a segment of an electrical distribution system and transmit a control signal configured to control equipment of the segment of the electrical distribution system. The data processing circuitry may run simulations of the segment of the electrical distribution system in various equipment configurations, selecting from among the various equipment configurations an equipment configuration that is expected to cause the power factor to approach a desired value. The data processing circuitry then may generate the control signal, which may cause the equipment of the segment of the electrical distribution system to conform to the equipment configuration and thereby control the power factor.

Devices And Methods For Decentralized Volt/Var Control

View page
US Patent:
20130030598, Jan 31, 2013
Filed:
Jul 26, 2011
Appl. No.:
13/191415
Inventors:
Borka Milosevic - Atlanta GA, US
Willem Hendrik Du Toit - Cochrane, CA
Aleksandar Vukojevic - Atlanta GA, US
Assignee:
GENERAL ELECTRIC COMPANY - Schenectady NY
International Classification:
G06F 1/26
US Classification:
700298
Abstract:
Devices and methods for the decentralized, coordinated control of the voltage and active power losses of an electrical distribution system in light of one another are provided. For example, a controller may include a network interface and data processing circuitry. The network interface may receive first measurements associated with a segment of an electrical distribution system and transmit a control signal configured to control equipment of the segment of the electrical distribution system. The data processing circuitry may run simulations of the segment of the electrical distribution system in various equipment configurations, selecting from among the various configurations one that is expected to cause the voltage deviation and the active power losses of the segment to approach desired values while keeping power factor within a desired range. The data processing circuitry then may generate the control signal, which may cause the equipment of the segment of the electrical distribution system to conform to the equipment configuration.

Devices And Methods For Decentralized Coordinated Volt/Var Control

View page
US Patent:
20130030599, Jan 31, 2013
Filed:
Jul 26, 2011
Appl. No.:
13/191422
Inventors:
Borka Milosevic - Atlanta GA, US
Willem Hendrik Du Toit - Cochrane, CA
Aleksandar Vukojevic - Atlanta GA, US
Assignee:
General Electric Company - Schenectady NY
International Classification:
G05D 7/06
US Classification:
700298
Abstract:
Devices and methods for decentralized coordinated Volt/VAR control are provided. Such a device may allow, for example, an operational parameter such as voltage, power losses, a combination of these, and/or power factor to be optimized on a segment of an electrical distribution system under certain conditions. For example, a controller may include a network interface to receive measurements and data processing circuitry to optimize a voltage deviation, active power losses, or a combination thereof, based at least in part on the total load on the segment of the electrical distribution system.
Control profile
Borka D Milosevic from Smyrna, GA, age ~55 Get Report