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Marija Ilic

from Brookline, MA
Age ~52
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Also known as:
Ilic Marija
Related to:
Vera VelickovicPetar Velickovic, 84Isidor JankovichVelickovic VelickovicMarija Jankovich, 51
Connected to:
Dalibor Ilic, 46Danica Ilic, 63Daniela Ilic, 56Danijela Ilic, 52Denis Ilic, 32Douglas D Ilic, 39Dragutin Ilic, 68Ljubodrag Ilic, 56Maria Ilic, 42Martin Ilic, 50

Marija Ilic Phones & Addresses

  • Brookline, MA
  • 16 Leamington Rd, Brighton, MA 02135 (617) 783-3279
  • 11 Wallingford Rd, Brighton, MA 02135
  • 7 Doris St, Boston, MA 02125
  • Dorchester, MA
  • Longmeadow, MA
  • 11 Wallingford Rd #2, Brighton, MA 02135

Work

Position: Service Occupations

Education

Degree: Associate degree or higher

Resumes

Resumes

Marija Ilic Photo 1

Design Architect Project Manager

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Location:
Boston, MA
Industry:
Architecture & Planning
Work:
Prellwitz Chilinski Associates
Design Architect Project Manager
Arrowstreet Inc. Dec 2014 - Aug 2019
Associate
Peter Quinn Architects Llc Mar 2009 - Dec 2014
Senior Project Manager
Cbt Architects Jul 2008 - Mar 2009
Pro Staff I
Cyma 2 Sep 1999 - Jun 2008
Project Manager
Education:
University of Belgrade 1998
Masters, Architecture
Skills:
Project Management
Sustainable Design
Leadership
Project Planning
Submittals
Marija Ilic Photo 2

Professor

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Location:
Boston, MA
Work:
Massachusetts Institute of Technology (Mit)
Professor
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Marija Ilic

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Marija Ilic Photo 4

Marija Ilic

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Location:
Boston, MA
Industry:
Architecture & Planning
Marija Ilic Photo 5

Marija Ilic

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Marija Ilic

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Marija Ilic

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Marija Ilic

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Business Records

Name / Title
Company / Classification
Phones & Addresses
Marija D. Ilic
President
New Electricity Transmission Software Solution Inc
Engineering Services
22 Weir Hl Rd, North Sudbury, MA 01776
Marija Ilic
Board of Directors
Cambridge Energy Solutions
Computer Software · Computer Software Development and Applications
50 Church St, Cambridge, MA 02138
(617) 349-2988

Publications

Isbn (Books And Publications)

Hierarchical Power Systems Control: Its Value in a Changing Industry

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Author

Marija D. Ilic

ISBN #

0387760318

Valuation, Hedging and Speculation in Competitive Electricity Markets: A Fundamental Approach

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Author

Marija D. Ilic

ISBN #

0792375289

Power Systems Restructuring : Engineering and Economics

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Author

Marija D. Ilic

ISBN #

0792381637

Dynamics and Control of Large Electric Power Systems

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Author

Marija Ilic

ISBN #

0471298581

Us Patents

Tie-Line Flow Control System And Method For Implementing Inter-Regional Transactions

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US Patent:
20040215348, Oct 28, 2004
Filed:
Apr 9, 2001
Appl. No.:
09/688294
Inventors:
Marija Ilic - Cambridge MA, US
Yong Yoon - Cambridge MA, US
International Classification:
G06F017/60
G05B015/00
US Classification:
700/001000, 705/035000, 705/040000, 705/037000
Abstract:
A tie-line control system and method. Tie-line flow control among selling entities is facilitated by an entity implementing transmission contracts for purchasing entities. The entity will execute the steps of receiving request bid curves for inter-regional transactions from selling entities; receiving demand bid curves for inter-regional transactions from purchasing entities; synchronizing the bid curves at a selected time interval; between synchronizing times, iterating information with the selling and purchasing entities to ensure clearing of supply and demand bids at a clearing time so that tie-line real and reactive power flows on the tie-lines interconnecting the selling entities are the same; communicating to the selling and purchasing entities accepted tie-line flow quantities and corresponding prices at the clearing time; and ensuring that all inter-regional transactions clear as agreed upon in the previous synchronized interval.

Adaptive Load Management: A System For Incorporating Customer Electrical Demand Information For Demand And Supply Side Energy Management

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US Patent:
20120083930, Apr 5, 2012
Filed:
Sep 30, 2010
Appl. No.:
12/895780
Inventors:
Marija Dragoljub Ilic - Sudbury MA, US
Jhi Young Joo - Pittsburgh PA, US
Burton Warren Andrews - Pittsburgh PA, US
Badri Raghunathan - San Jose CA, US
Diego Benitez - Pittsburgh PA, US
Felix Maus - Pittsburgh PA, US
Assignee:
ROBERT BOSCH GmbH - Stuttgart
International Classification:
G06F 1/26
G06F 17/00
G06Q 40/00
G06F 17/10
US Classification:
700287, 703 2, 700291, 705412, 705 37
Abstract:
A method for determining an amount of electricity to purchase includes determining electrical power consumption characteristics of an electrical load at an end user of the electricity. A preference of the end user for an output of the electrical load is ascertained. The output varies with a rate of electrical power consumption by the load. A mathematical model is created of an amount of electrical power to be consumed by the load as a function of time and of monetary cost of the electricity. The model is dependent upon the electrical power consumption characteristics of the electrical load and the preference of the end user for an output of the electrical load. An amount of electricity is purchased based on the mathematical model of an amount of electrical power to be consumed by the load, and based on the monetary cost of the electricity.

General Method For Distributed Line Flow Computing With Local Communications In Meshed Electric Networks

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US Patent:
20130024168, Jan 24, 2013
Filed:
Jan 5, 2012
Appl. No.:
13/343997
Inventors:
Marija D. Ilic - Sudbury MA, US
Andrew Hsu - Pittsburgh PA, US
Assignee:
Carnegie Mellon University - Pittsburgh PA
International Classification:
G06F 17/10
US Classification:
703 2
Abstract:
The present disclosure relates to distributed line flow processing for a network having nodes with branches coupling adjacent ones of the nodes and components coupled to the nodes. In one embodiment, the disclosed process includes receiving an objective function having component variables, nodal output variables and branch flow variables for the network. Next, the component variables, nodal output variables and branch flow variables are initialized with initial values, and then values for the branch flow variables are calculated using a distributed Newton method. Finally, values for the component variables and the nodal output variables are calculated using values calculated for the branch flow variables until the values of the component variables, the nodal output variables, and the branch flow variables converge within a predetermined threshold range.

Decentralized Excitation Control For An Electrical Power Utility System

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US Patent:
54831474, Jan 9, 1996
Filed:
Mar 23, 1993
Appl. No.:
8/035917
Inventors:
Marija D. Ilic - Sudbury MA
Jeffrey W. Chapman - Cambridge MA
Assignee:
Massachusetts Institute of Technology - Cambridge MA
International Classification:
H02P 930
US Classification:
322 25
Abstract:
A power utility system includes a generator driven by a prime mover in response to a mechanical input power and an excitation to provide an electrical output power. The excitation of the generator is controlled in response to an estimated equilibrium rotor angle. The estimation of the rotor angle is based on purely local measurements. This estimated rotor angle is used in conjunction with a feedback linearizing controller to provide field excitation control of the generator. The rotor angle reference signal is also used to provide a rotor angle error signal to a power system stabilizer which is modified to operate on the basis of an angle error rather than a speed or frequency error.

Method And Apparatus For Direct Control Of The Inter-Area Dynamics In Large Electric Power Systems

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US Patent:
55174221, May 14, 1996
Filed:
Oct 12, 1993
Appl. No.:
8/134280
Inventors:
Marija Ilic - Sudbury MA
Xiaojun Liu - Belmont MA
Assignee:
Massachusetts Institute of Technology - MA
International Classification:
H02J 306
G06F 1900
US Classification:
364492
Abstract:
A method and apparatus for directly controlling the net power flow on tie lines between different areas of a large electric power system, which provides automatic dynamic control to maintain the stability of the system. Utilizing a sensitivity matrix and simple measurements of real power output from each of the generators in a given area, it is possible to dynamically control the entire system in a way which accounts for loading changes in any area. The control can be implemented using a Flexible AC Transmission Systems (FACTS) technology controller which utilizes the measurements and sensitivity matrix from a given area to determine a derived net power flow from the first area to the remainder of the system, and for comparing the derived net power flow to a set point to provide an error signal which approaches zero as the controller adjusts, for example, a phase angle difference across the tie line to adjust the net power flow thereon. Alternatively, the derived net power flow can be used for scheduling the generation of power in a given area and/or to control a local controller at the generator level.
Control profile
Marija Ilic from Brookline, MA, age ~52 Get Report