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Ozge H Koymen

from Princeton, NJ
Age ~50
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Also known as:
Ozge Hizir Koymen, Ozge Hizik Koymen
Phone and address:
38 Philip Dr, Princeton, NJ 08540
Related to:
Derya Didem KoymenAltug Koymen, 47Salih Z Bugay, 52Sevin Koymen, 76Chon H KimDidem D Koymen, 54Derya Koymen Bugay, 53Heung Kim Chon, 78Kemal Koymen, 77Amy Kim, 50Hyung S KimEmily H Kim, 48Chon H Kim
Connected to:
Galina Koysman, 71Serge Koysman, 50Daniel Koz, 65Dora J Koza, 102Louis F Koza, 67Wade E Koza, 48Sabrina M Kozachuk, 28Catherine M Kozacik, 63Frederick J Kozacka, 62Stanley M Kozaczka, 70

Ozge Koymen Phones & Addresses

  • 38 Philip Dr, Princeton, NJ 08540
  • Old Bridge, NJ
  • 27 Chimney Ct, South Amboy, NJ 08879
  • Laurence Harbor, NJ
  • 159 2Nd St #1001, Jersey City, NJ 07302 (415) 543-2954
  • 314 5Th St, Jersey City, NJ 07302
  • Sioux Falls, SD
  • New York, NY
  • San Francisco, CA
  • Laurence Hbr, NJ

Work

Company: Qualcomm Jan 2006 Position: Senior director of technology

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Stanford University 1996 to 2003 Specialities: Electrical Engineering

Skills

Digital Signal Processors • Asic • Embedded Systems • Wireless • Embedded Software • Lte • Signal Processing • Algorithms • C++ • Fpga • C • Firmware • Soc • Perl • Debugging • Ofdm • Wifi • Matlab • Simulations • Radio Frequency • Arm

Languages

Turkish

Industries

Wireless

Resumes

Resumes

Ozge Koymen Photo 1

Senior Director Of Technology

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Location:
38 Philip Dr, Princeton, NJ 08540
Industry:
Wireless
Work:
Qualcomm
Senior Director of Technology
Flarion Technologies Oct 2003 - Jan 2006
Member of Technical Staff
Impinj Sep 2000 - Aug 2003
Member of Technical Staff
Northrop Grumman Corporation Jul 1997 - Jul 2000
Member of Technical Staff
Education:
Stanford University 1996 - 2003
Doctorates, Doctor of Philosophy, Electrical Engineering Carnegie Mellon University 1992 - 1996
Bachelors, Bachelor of Science, Computer Engineering
Skills:
Digital Signal Processors
Asic
Embedded Systems
Wireless
Embedded Software
Lte
Signal Processing
Algorithms
C++
Fpga
C
Firmware
Soc
Perl
Debugging
Ofdm
Wifi
Matlab
Simulations
Radio Frequency
Arm
Languages:
Turkish

Publications

Us Patents

Universal Real-Time Interface For Wireless Modems

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US Patent:
8520723, Aug 27, 2013
Filed:
Dec 9, 2010
Appl. No.:
12/963910
Inventors:
Sundeep Rangan - Jersey City NJ, US
Prashanth Hande - Somerset NJ, US
Niranjan N. Ratnakar - Bridgewater NJ, US
Ozge Koymen - Jersey City NJ, US
Ritesh K. Madan - Jersey City NJ, US
Atul Maharshi - South Orange NJ, US
Subhadeep P. Roy - Piscataway NJ, US
Siddharth Ray - Palo Alto CA, US
Assignee:
QUALCOMM Incorporated - San Diego CA
International Classification:
H04B 1/38
US Classification:
375222, 375295
Abstract:
The apparatus and methods described herein are used to provide data between an application and a modem. One method includes providing data in application data units from the application to the modem, transmitting the data from the modem to a receiver, and reporting by the modem to the application, whether each application data unit has been successfully transmitted from the modem to the receiver.

Apparatus And Methods For Update Of Symbol Information

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US Patent:
20090245093, Oct 1, 2009
Filed:
Mar 23, 2009
Appl. No.:
12/408790
Inventors:
Sandeep Rangan - Jersey City NJ, US
Atul Maharshi - Jersey City NJ, US
Frank Lane - Asbury NJ, US
Ozge Koymen - Jersey City NJ, US
Assignee:
QUALCOMM INCORPORATED - San Diego CA
International Classification:
H04J 11/00
H04L 27/28
H04L 5/14
US Classification:
370210, 375260, 370294
Abstract:
Apparatus and methods for updating symbol information in a communication device with hardware such as a microcontroller are disclosed. The disclosed apparatus and methods employ waiting for the beginning of a symbol in a sample stream at a predetermined time. One or more programmed instructions are read at the beginning of the symbol, and then symbol information is updated based on the one or more programmable instructions and setting a time for a beginning of a next symbol. The programmed instructions consist of instruction code words that are executed by a dedicated microcontroller or similar hardware, which affords flexibility for updating symbol information, particularly for multimode communication devices operable across multiple communication technologies.

Apparatus And Methods For Providing A Communication Quality Feedback Of An End-To-End Communication Path

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US Patent:
20120147759, Jun 14, 2012
Filed:
Dec 9, 2010
Appl. No.:
12/963889
Inventors:
Niranjan N. Ratnakar - Bridgewater NJ, US
Prashanth Hande - Somerset NJ, US
Sundeep Rangan - Jersey City NJ, US
Atul Maharshi - South Orange NJ, US
Subhadeep P. Roy - Piscataway NJ, US
Ritesh K. Madan - Jersey City NJ, US
Ozge Koymen - Jersey City NJ, US
Siddharth Ray - Palo Alto CA, US
Assignee:
QUALCOMM Incorporated - San Diego CA
International Classification:
H04J 4/00
US Classification:
370252
Abstract:
The apparatus and methods described herein are used to provide a communication quality feedback of an end-to-end communication path between an application transmitter and an application receiver. One method includes transmitting data from the application transmitter to the application receiver via the end-to-end communication path, the end-to-end communication path having at least one wireless link with a wireless transmitter and a wireless receiver, generating, at the wireless transmitter, a first communication quality feedback message, and transmitting the first communication quality feedback message from the wireless transmitter to the application transmitter in a standardized format.

Positioning Methods For Wireless Networks That Utilize Beamformed Communication

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US Patent:
20220349981, Nov 3, 2022
Filed:
Jul 19, 2022
Appl. No.:
17/813553
Inventors:
- San Diego CA, US
Tao LUO - San Diego CA, US
Ozge KOYMEN - Princeton NJ, US
Wooseok NAM - San Diego CA, US
Samel CELEBI - West New York NJ, US
International Classification:
G01S 5/02
G01S 5/10
Abstract:
Positioning methods suitable for use in a wireless network that utilizes beamformed communication are disclosed. In an aspect, a range and/or granularity for reporting a reference signal timing difference (RSTD) may be configurable according to one or more beam parameters (e.g., a repetition factor, a beam shape, a frequency band, a subcarrier spacing numerology, a cyclic prefix, etc.). In another aspect, a transmitting node may transmit one or more parameters associated with a beam used to transmit a positioning reference signal (e.g., an angle of departure, a zenith of departure, a beamwidth, etc.). According to another aspect, a cyclic prefix length for a positioning reference signal that a transmitting node transmits via one or more beams may be configured to increase a number of neighbor cells visible to a receiving node.

Multi-Beam Routing Using A Lens Antenna

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US Patent:
20220239010, Jul 28, 2022
Filed:
Jan 27, 2021
Appl. No.:
17/159840
Inventors:
- San Diego CA, US
Junyi LI - Franklin Park NJ, US
Juergen CEZANNE - Ocean Township NJ, US
Navid ABEDINI - Basking Ridge NJ, US
Ozge KOYMEN - Princeton NJ, US
International Classification:
H01Q 19/06
H01Q 15/08
Abstract:
Aspects of the disclosure relate to a node using at least one lens antenna for efficient, effective, and simultaneous multiple beam routing. The node may include a switch matrix communicatively coupling the first antenna with the second antenna. The first antenna may receive and/or transmit one or more directional beams. The second antenna may transmit and/or receive other one or more directional beams. The node may further include a controller configured to control the switch matrix for the coupling. Other aspects, embodiments, and features are also claimed and described.

Coverage Expansion And Interference Operating Modes For A Repeater

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US Patent:
20230113861, Apr 13, 2023
Filed:
Dec 13, 2022
Appl. No.:
18/065355
Inventors:
- San Diego CA, US
Atanu Basudeb Halder - San Diego CA, US
Ozge Koymen - Princeton NJ, US
International Classification:
H04B 7/155
Abstract:
Methods, systems, and devices for wireless communications are described. In some systems, a repeater may receive a first signal from a transmitting device and determine an amplified version of the signal may not be successfully received by a receiving device. The repeater may transmit a mode switch message to the transmitting device to indicate a request for the transmitting device to switch to a transmission mode associated with one or more different transmission parameters based on detecting that the amplified version of the signal may not be received by the receiving device. The transmitting device may adjust one or more transmission parameters according to the mode switch message and may transmit a second signal to the repeater based on the adjusted transmission parameters. The repeater, operating according to the mode switch message, may receive the second signal and transmit an amplified version of the second signal to the receiving device.

Determination Of Position And Orientation Of An Intelligent Reflecting Surface

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US Patent:
20230098229, Mar 30, 2023
Filed:
Sep 24, 2021
Appl. No.:
17/485051
Inventors:
- San Diego CA, US
Qiang WU - San Diego CA, US
Junyi LI - Fairless Hills PA, US
Tao LUO - San Diego CA, US
Wooseok NAM - San Diego CA, US
Yucheng DAI - San Diego CA, US
Navid ABEDINI - Basking Ridge NJ, US
Ozge KOYMEN - Princeton NJ, US
International Classification:
G01S 5/06
H04W 64/00
G01S 5/10
Abstract:
Disclosed are techniques for wireless communication. In an aspect, a position estimation entity determines a set of position estimates associated with a set of user equipments (UEs), obtains first measurement information associated with a set of signals as reflected off of a target intelligent reflecting surface (IRS), determines a position estimate of the target IRS based on the set of position estimates and the first measurement information, and determines an orientation, relative to a common orientation reference frame, of the target IRS based on the set of position estimates and at least the first measurement information.

Angular Relationship Determination Using Focal Point Perturbation

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US Patent:
20230089054, Mar 23, 2023
Filed:
Sep 21, 2021
Appl. No.:
17/480598
Inventors:
- San Diego CA, US
Qiang Wu - San Diego CA, US
Junyi LI - Fairless Hills PA, US
Navid ABEDINI - Basking Ridge NJ, US
Tao LUO - San Diego CA, US
Ozge KOYMEN - Princeton NJ, US
International Classification:
G01S 5/02
Abstract:
An angular relationship determination method includes: obtaining, at an apparatus, a first phase difference indication corresponding to a first difference in phase between a first signal wirelessly received by a wireless signaling device from a transmitter and a second signal wirelessly received by the wireless signaling device from the transmitter; and determining, at the apparatus, a first angular relationship between the transmitter and the wireless signaling device based on the first phase difference indication, a first virtual focal point location corresponding to the first signal, and a second virtual focal point location corresponding to the second signal, the second virtual focal point location and the first virtual focal point location being different.
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Ozge H Koymen from Princeton, NJ, age ~50 Get Report