Goran M Djuknic from Placentia, CA, age 72

Resumes

Associate Director

View page

Location:

New York, NY

Industry:

Aviation & Aerospace

Work:

BAE Systems since May 2007
Deputy Chief Engineer - BCT Modernization Program
ITT 2003 - 2007
Senior Engineer
Bell Laboratories, Lucent Technologies 1995 - 2003
Member of the Technical Staff

Education:

City University of New York City College 1986 - 1989
PhD, Electrical Engineering Columbia University - Fu Foundation School of Engineering and Applied Science 1984 - 1985

Skills:

Systems Engineering
System Architecture
System Design
Simulations
Wireless
Digital Signal Processors
Rf
Embedded Systems
Electrical Engineering
Engineering Management
Telecommunications
Signal Processing
Software Engineering
Aerospace
Testing
Integration
Wireless Technologies
Matlab
C
Requirements Management
Earned Value Management
Systems Design
Dsp
C++
R&D
Linux
Programming
Sensors
Software Development
Simulation
Simulink
Embedded Software
Opnet
Windows Socket Programming
Digital Signal Processor Programming
Algorithms
Fpga
Umts
Cellular Communications
3G

Interests:

Classical Music
Breakthrough Concepts
Inventions
Education
Literature
New Technologies
Science and Technology
Theater
Arts and Culture

Publications

Us Patents

Method Of Measuring A Pattern Of Electromagnetic Radiation

View page

US Patent:

6657596, Dec 2, 2003

Filed:

Jan 30, 2002

Appl. No.:

10/060485

Inventors:

Goran M Djuknic - Tenafly NJ

Assignee:

Lucent Technologies Inc. - Murray Hill NJ

International Classification:

G01R 2910

US Classification:

343703, 343753, 343755

Abstract:

A method of measuring a pattern of electromagnetic radiation. A plurality of scattered electromagnetic radiation samples are sensed from a transmitted signal formed from electromagnetic radiation. Thereafter, an antenna pattern from the scattered electromagnetic radiation samples is developed. Each scattered sample includes two-dimensional information corresponding with the power detected at a specific coordinate. The scattered samples may be arranged in a matrix, enabling a three-dimensional beamshape of the antenna pattern to be formulated.

Retrieval And Manipulation Of Electronically Stored Information Via Pointers Embedded In The Associated Printed Material

View page

US Patent:

6964374, Nov 15, 2005

Filed:

Oct 2, 1998

Appl. No.:

09/166144

Inventors:

Goran M. Djuknic - Jersey City NJ, US
John Freidenfelds - Madison NJ, US

Assignee:

Lucent Technologies Inc. - Murray Hill NJ

International Classification:

G06K007/10

US Classification:

23546201, 707 10

Abstract:

A method of retrieving and manipulating electronic information that relates to a printed document. Each printed document contains an initialization marking that is recognizable by an external sensory device and unique to the printed document. When a reader of the printed document desires to retrieve and manipulate electronic information that relates to the printed document, the reader initializes the system by using the sensory device to recognize the initialization marking. The sensory device transfers a code embedded in the initialization marking to a computing device. This configures the computing device to access the stored data and instruction sets associated with the printed document. In addition to the initialization marking, areas throughout the printed document (e. g. , text, tables, figures, etc.

System And Method For Generating Single Sideband, Constant Envelope, Spread Spectrum Signals With Multiple Spreading Codes

View page

US Patent:

7505506, Mar 17, 2009

Filed:

Feb 25, 2005

Appl. No.:

11/067148

Inventors:

Goran Djuknic - Tenafly NJ, US
Chi Chiu Chan - Wayne NJ, US
Robert W. Smid - Wyckoff NJ, US

Assignee:

ITT Manufacturing Enterprises, Inc. - Wilmington DE

International Classification:

H04B 1/00

US Classification:

375130, 375260, 375272, 375285, 375343, 370319, 370320, 370321, 370330, 370335, 370342, 370345, 370347, 342150, 342151, 342152, 342153, 342154, 342155, 333193, 333194, 333195, 333196

Abstract:

A method of generating a composite signal includes the steps of: (a) generating a plurality of sub-carriers, each sub-carrier having a different frequency position in a frequency spectrum; (b) generating a plurality of codes; and (c) forming a plurality of code combinations from the plurality of codes generated in step (b). The method also includes the steps of (d) first modulating each sub-carrier using a respective one of the code combinations formed in step (c) to form a plurality of modulated sub-carriers; and (e) second modulating in-phase and quadrature components of a base carrier using the plurality of modulated sub-carriers to form the composite signal having multiple carriers. The composite signal is a constant envelope signal, and a single sideband signal.

System And Method For Generating Multicarrier Spread Spectrum Signals With Constant Envelope

View page

US Patent:

7860151, Dec 28, 2010

Filed:

Apr 10, 2007

Appl. No.:

11/786259

Inventors:

Goran Djuknic - Tenafly NJ, US
Chi Chiu Chan - Wayne NJ, US

Assignee:

ITT Manufacturing Enterprises, Inc. - Wilmington DE

International Classification:

H04B 1/00

US Classification:

375146, 375135, 375260, 375295

Abstract:

A method of generating a multicarrier spread spectrum signal having a constant envelope includes partitioning multiple spreading codes into at least a first portion of spreading codes and a second portion of spreading codes. First and second modulating signals, respectively, are formed from the first and second portions of spreading codes. A first carrier spread spectrum signal is modulated with the first modulating signal to form a first modulated carrier signal, and a second carrier spread spectrum signal is modulated with the second modulating signal to form a second modulated carrier signal. The first and second modulated carrier signals are summed to form the multicarrier spread spectrum signal. The method includes combining spreading codes from the multiple spreading codes using majority voting logic to form the first and second portions of spreading codes.

Coherent And Non-Coherent Hybrid Direct Sequence/Frequency Hopping Spread Spectrum Systems With High Power And Bandwidth Efficiency And Methods Thereof

View page

US Patent:

7894504, Feb 22, 2011

Filed:

Jul 23, 2007

Appl. No.:

11/880564

Inventors:

Goran Djuknic - Tenafly NJ, US

Assignee:

ITT Manufacturing Enterprises, Inc. - Wilmington DE

International Classification:

H04B 1/00

US Classification:

375140

Abstract:

A hybrid spread spectrum system includes a signal combiner for (a) receiving a plurality of spread spectrum encoded data signals and (b) forming a plurality of combined signals. A first set of mixers is included for (a) receiving the plurality of combined signals and at least two carriers, and (b) forming at least a two-carrier, constant envelope signal. A second set of mixers is also included for (a) receiving the at least two-carrier, constant envelope signal and a transmitter hopping signal and (b) forming a hybrid spread spectrum signal. The combined signals include (a) [s(t)−s(t)s(t)s(t)] and (b) [s(t)+s(t)], where s(t) are three separate spread spectrum encoded data signals. The transmitter hopping signal is a sequence of tones having (a) a duration T, where Tis a chip duration, and (b) frequencies ftaken from a set of 2values, where k is a number of bits from a pseudo-random noise (PRN) sequence.

Cell-Clustering Arrangements And Corresponding Antenna Patterns For Wireless Communication Networks Employing High-Altitude Aeronautical Antenna Platforms

View page

US Patent:

59743174, Oct 26, 1999

Filed:

Nov 8, 1996

Appl. No.:

8/745381

Inventors:

Goran M. Djuknic - Jersey City NJ
Diane Yuh-Lin Hou - Warren NJ
Yuriy B. Okunev - Dover NJ

Assignee:

Lucent Technologies, Inc. - Murray Hill NJ

International Classification:

H04Q 736
H01Q 128

US Classification:

455431

Abstract:

A multi-beam antenna for a wireless communication network, a method of creating cells for a wireless communication network with a multi-beam antenna held aloft by an aeronautical vehicle and a wireless infrastructure. The multi-beam antenna projects: (1) a first antenna beam to create a first cell upon a generally circular first terrestrial area below the multi-beam antenna and (2) a second antenna beam to create a second cell upon a generally circular second terrestrial area below the multi-beam antenna, the first cell having a smaller radius than, and substantially concentric with, the second cell.

Radio Frequency Interface To Sensor

View page

US Patent:

20220190855, Jun 16, 2022

Filed:

Mar 8, 2022

Appl. No.:

17/689095

Inventors:

- Farmington CT, US
Joseph V. Mantese - Ellington CT, US
Gurkan Gok - Milford CT, US
Goran Djuknic - New York NY, US
Coy Bruce Wood - Ellington CT, US
Joseph B. Wysocki - Somers CT, US
John A. Needham - Southington CT, US

International Classification:

H04B 1/10
H04B 1/40
G07C 5/08
H04B 1/02

Abstract:

A radio frequency waveguide communication system includes a controller configured to output a radio frequency signal, and at least one connected node configured to output a node signal indicative of monitored parameter of a machine. The radio frequency waveguide communication system includes a waveguide and a radio frequency interface module. The waveguide is in signal communication with the controller and is configured to guide the radio frequency signal toward the at least one connected node. The radio frequency interface module is configured to establish signal communication between the controller and the at least one connected node, and includes at least one detachable portion configured to detach from the at least one waveguide.

Radio Frequency Waveguide Communication In High Temperature Environments

View page

US Patent:

20220190861, Jun 16, 2022

Filed:

Mar 2, 2022

Appl. No.:

17/684829

Inventors:

- Farminton CT, US
Joseph V. Mantese - Ellington CT, US
Goran Djuknic - New York NY, US
Gurkan Gok - Milford CT, US
Brenda J. Lisitano - Middletown CT, US
Coy Bruce Wood - Ellington CT, US
Sanjay Bajekal - Bothell WA, US

International Classification:

H04B 1/38
H04L 67/12
G05B 15/02
F02C 9/00
H01P 3/12

Abstract:

A system includes a network of nodes. A controller of the system is operable to communicate with the network of nodes through one or more electromagnetic signals. A plurality of waveguides is configured to guide transmission of the one or more electromagnetic signals. A radio frequency transceiver is configured to establish communication between the controller and a first waveguide of the plurality of waveguides. A membrane is configured to support communication between the first waveguide and at least one node of the plurality of nodes.

Goran M Djuknic

Goran Djuknic Phones & Addresses

Work

Education

Skills

Interests

Industries

Resumes

Resumes

Associate Director

Publications

Us Patents

Method Of Measuring A Pattern Of Electromagnetic Radiation

Retrieval And Manipulation Of Electronically Stored Information Via Pointers Embedded In The Associated Printed Material

System And Method For Generating Single Sideband, Constant Envelope, Spread Spectrum Signals With Multiple Spreading Codes

System And Method For Generating Multicarrier Spread Spectrum Signals With Constant Envelope

Coherent And Non-Coherent Hybrid Direct Sequence/Frequency Hopping Spread Spectrum Systems With High Power And Bandwidth Efficiency And Methods Thereof

Cell-Clustering Arrangements And Corresponding Antenna Patterns For Wireless Communication Networks Employing High-Altitude Aeronautical Antenna Platforms

Radio Frequency Interface To Sensor

Radio Frequency Waveguide Communication In High Temperature Environments