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Dogan A Atlas, 626560 Stapleford Ln, Duluth, GA 30097

Known as:
Dogan Arzu Atlas Atlas A Dogan
Related to:
Ray B Lawyer 74

Dogan Atlas Phones & Addresses

6560 Stapleford Ln, Duluth, GA 30097    678-4282074   

Roswell, GA   

Burlington, MA   

Burlington, NJ   

Piscataway, NJ   

Johns Creek, GA   

6560 Stapleford Ln, Duluth, GA 30097   

Work

Company: Fujitsu network communications 2012 Position: Senior director, optical engineering

Education

School / High School: Rutgers University 1990 Specialities: Ph.D. in Electrical Engineering
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Resumes & CV records

Resumes

Dogan Atlas Photo 13

Senior Director, Optical Communications

Location:
1003 Bishop St, Honolulu, HI 96813
Industry:
Telecommunications
Work:
Infinera Jun 2017 - Dec 2018
Director, Digital Optical Engineering Analog Photonics Jun 2017 - Dec 2018
Senior Director, Optical Communications Fujitsu Network Communications Jun 2012 - Jun 2017
Senior Director Optical Engineering at Fujitsu Network Communications Adva Optical Networking Jul 2006 - Jun 2012
Senior Director, Advanced Optical Development Adva Optical Networking Jul 2000 - Jul 2006
Vp, Optical Technology Arris Dec 1996 - Jul 2000
Vp, Advanced Development Scientific Atlanta Oct 1993 - Apr 1996
Staff Engineer Mobileaccess Networks Oct 1990 - Oct 1993
Staff Engineer Bell Communications Research Nov 1986 - Sep 1990
Resident Visitor
Education:
Rutgers University 1985 - 1990
Doctorates, Doctor of Philosophy, Electrical Engineering Orta Doğu Teknik Üniversitesi / Middle East Technical University 1982 - 1985
Bachelors, Bachelor of Science, Electronics Engineering
Skills:
Telecommunications, Fiber Optics, Product Management, Wireless, Optical Fiber, Testing, Ethernet, Electronics, Cross Functional Team Leadership, Rf
Dogan Atlas Photo 14

Senior Director

Location:
Atlanta, GA
Industry:
Telecommunications
Work:
Adva Optical Networking
Senior Director
Dogan Atlas Photo 15

Dogan Atlas - Norcross, GA

Work:
Fujitsu Network Communications 2012 to 2000
Senior Director, Optical Engineering ADVA Optical Networking - Norcross, GA 2000 to 2012
Senior Director, Optical Development/Vice President, Optical Engineering at Movaz ARRIS - Duluth, GA 1996 to 2000
Vice President, Advanced Development Scientific-Atlanta, Inc - Norcross, GA 1993 to 1996
Staff Engineer Lasertron, Inc - Burlington, MA 1990 to 1993
Staff Engineer Bell Communications Research - Red Bank, NJ 1989 to 1990
Member of Technical Staff (summer Intern) Bell Communications Research - Red Bank, NJ 1986 to 1990
Graduate Intern
Education:
Rutgers University 1990
Ph.D. in Electrical Engineering Rutgers University 1987
M.S. in Electrical Engineering

Publications & IP owners

Us Patents

Directionless And Colorless Reconfigurable Optical Add/Drop Multiplexer

US Patent:
2012002, Feb 2, 2012
Filed:
Jul 28, 2010
Appl. No.:
12/845502
Inventors:
Dogan Atlas - Johns Creek GA, US
Xiaoping Wu - Norcross GA, US
International Classification:
H04J 14/00
US Classification:
398 58
Abstract:
The invention relates to a directionless and colorless reconfigurable optical add/drop multiplexer (ROADM) for a number of clients comprising:

Optical Amplification Device And Method

US Patent:
2012009, Apr 26, 2012
Filed:
Oct 21, 2010
Appl. No.:
12/909146
Inventors:
Dogan Atlas - Johns Creek GA, US
Mohammad Mahbobzadeh - Suwanee GA, US
Assignee:
ADVA AG OPTICAL NETWORKING - Martinsried/Muenchen
International Classification:
H01S 3/00
US Classification:
35934141
Abstract:
It is described an optical amplification device for receiving an optical input signal and transmitting an amplified optical output signal on the basis of the optical input signal comprising an optical amplifier that comprises an input and an output. An optical gain control unit is connected to the output path of the optical amplifier and the optical gain control unit is connected to the input path of the optical amplifier. The optical gain control unit is configured to control the gain of the optical output signal. Additionally, an electrical gain control unit is connected to the output path of the optical amplifier. The electrical gain control unit is also connected to the input path of the optical amplifier. The electrical gain control unit is configured to control the gain of the optical output signal.By providing both an electrical gain control unit and an optical gain control unit, a control characteristic can be improved.

Method For Controlling Signal Gain Of A Raman Amplifier

US Patent:
2013024, Sep 19, 2013
Filed:
Mar 13, 2012
Appl. No.:
13/419422
Inventors:
Dogan Atlas - Johns Creek GA, US
Mohammad Taleghani - Roswell GA, US
Mohammad Mahbobzadeh - Suwanee GA, US
Kyle Hamilton - Norcross GA, US
Assignee:
ADVA AG Optical Networking - Martinsried
International Classification:
H01S 3/30
US Classification:
359334
Abstract:
A Raman amplifier comprising

Method And Apparatus For Suppressing Optical Beat Interference Noise In Raman Amplifiers

US Patent:
2014006, Mar 6, 2014
Filed:
Aug 31, 2012
Appl. No.:
13/600458
Inventors:
Dogan ATLAS - Johns Creek GA, US
Assignee:
ADVA OPTICAL NETWORKING SE - Meiningen
International Classification:
H04J 14/02
H04J 14/06
H01S 5/04
US Classification:
398 65, 359334, 359327
Abstract:
A method and apparatus for suppressing pump-mode optical beat interference noise in a Raman amplified fiber link of an optical network, wherein a wavelength of a laser beam generated by a first pump laser and a wavelength of a laser beam generated by a second pump laser of a pair of polarization multiplexed pump lasers are detuned with respect to each other to suppress the optical beat interference, OBI, noise in the Raman amplified fiber link of said optical network.

Optical Amplifier For Catv System With Forward And Reverse Paths

US Patent:
6097533, Aug 1, 2000
Filed:
Oct 21, 1997
Appl. No.:
8/955311
Inventors:
Dogan A. Atlas - Duluth GA
Assignee:
Antec Corporation - Duluth GA
International Classification:
H01S 300
H04S 1402
H04B 900
US Classification:
359337
Abstract:
A system for amplifying separate optical signals traveling in a forward path and a reverse path over an optical communications system used for CATV program distribution. A first and second optical circulator, each having a first, second, and third port, are connected to respective opposite sides of a bi-directional amplifier. The first port of the first circulator inputs a first optical signal traveling in the forward path. The second port of the first circulator is coupled to an input/output port of the amplifier. The third port of the first circulator outputs an amplified second signal traveling in the reverse path. The second circulator is similarly connected to the side of the amplifier. A first and second signal/signal WDM coupler, each having a pass port P, an add port A/D, and a common port C, are coupled to the first and second optical circulators, respectively. The first port of the first optical circulator is connected to the pass port of the first signal/signal WDM coupler, and the third port of the first optical circulator is connected to the add port of the first signal/signal WDM coupler.

Suppression Of Stimulated Brillouin Scattering In Optical Transmission System

US Patent:
5892607, Apr 6, 1999
Filed:
Oct 30, 1996
Appl. No.:
8/741251
Inventors:
Dogan Atlas - Duluth GA
Assignee:
Scientific-Atlanta, Inc. - Norcross GA
International Classification:
H04B 1004
US Classification:
359183
Abstract:
An optical modulator for a high power laser transmitter includes a laser source coupled through a phase modulator to a signal modulator. A noise source provides a band limited noise signal to either the laser source or the phase modulator or both. Alternatively, an optical modulator for a high power laser transmitter includes a laser source providing a laser output optical signal and a phase modulator. First and second continuous wave signals at respective first and second frequencies are combined to modulate either the laser source or the phase modulator. The first frequency is different than the second frequency. The laser and phase modulation produces a broadened optical output signal such that the broadened optical output signal is characterized by beat frequencies harmonically related to the first and second frequencies. The modulation bandwidth includes no significant beat frequencies. Each of the multiple beat frequencies produced has a correspondingly reduced amplitude but has the same laser line width, thus increasing the power that can be injected into the fiber before the onset of stimulated Brillouin scattering.

Optical Network For Transmitting Two-Way Multicast Signals

US Patent:
6295148, Sep 25, 2001
Filed:
Feb 16, 2000
Appl. No.:
9/505070
Inventors:
Dogan A. Atlas - Duluth GA
Assignee:
Antec Corporation - Duluth GA
International Classification:
H04J 1402
US Classification:
359125
Abstract:
A method for transmitting broadcast and narrowcast services in a system having a headend, a hub connected the headend, and a plurality of nodes connected to the hub. Instead of transmitting the signals directly from the headend to each node, the signals are transmitted from the headend to the hub. The signals transmitted from the headend to the hub include both broadcast services to be transmitted to each node and narrowcast services to be transmitted only to predetermined targeted nodes. The broadcast and narrowcast services are transmitted by optical signal beams operating at different wavelengths. Subscribers can transmit signals to the headend, via each node, on the reverse channel. The reverse channel information from subscribers is combined at each respective node into a single wavelength for each node. The narrowcast services are added at the headend instead of at the hub.

Suppression Of Stimulated Brillouin Scattering In Optical Transmission System

US Patent:
5930024, Jul 27, 1999
Filed:
Nov 13, 1997
Appl. No.:
8/970123
Inventors:
Dogan Atlas - Duluth GA
Assignee:
Scientific-Atlanta, Inc. - Norcross GA
International Classification:
H04B 1004
G02F 101
US Classification:
359279
Abstract:
An optical modulator for a high power laser transmitter includes a laser source coupled through a phase modulator to a signal modulator. A noise source provides a band limited noise signal to either the laser source or the phase modulator or both. Alternatively, an optical modulator for a high power laser transmitter includes a laser source providing a laser output optical signal and a phase modulator. First and second continuous wave signals at respective first and second frequencies are combined to modulate either the laser source or the phase modulator. The first frequency is different than the second frequency. The laser and phase modulation produces a broadened optical output signal such that the broadened optical output signal is characterized by beat frequencies harmonically related to the first and second frequencies. The modulation bandwidth includes no significant beat frequencies. Each of the multiple beat frequencies produced has a correspondingly reduced amplitude but has the same laser line width, thus increasing the power that can be injected into the fiber before the onset of stimulated Brillouin scattering.

Possible Relatives

David Atlas  Deena Atlas  Denise F Atlas  Diane P Atlas  Erik C Atlas  Fred F Atlas  James C Atlas 

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