Audrius Berzanskis from 764 Cambridge St APT 8, Cambridge, MA 02141, age 55

Resumes

Chief Executive Officer

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Location:

506 Beacon St, Boston, MA 02215

Industry:

Information Technology And Services

Work:

Magiq Technologies Apr 2008 - Aug 2015
Chief Operations Officer
Magiq Technologies Apr 2008 - Aug 2015
Chief Executive Officer
Magiq Technologies Apr 2000 - Apr 2008
Vp, Software
Technical University of Jena Jan 1996 - Mar 2000
Post Doc
Università Degli Studi Dell'insubria Jun 1998 - Feb 2000
Researcher

Education:

Vilnius Technical University 1994 - 1996
Master of Science, Masters, Computer Science Vilniaus Universitetas / Vilnius University 1988 - 1996
Doctorates, Doctor of Philosophy, Physics, Philosophy

Skills:

Telecommunications
Optics
Semiconductors
R&D
Simulations
Analog
Business Development
Business Strategy
C
C++
Change Management
Cloud Computing
Consulting

Publications

Us Patents

Method Of Integrating Qkd With Ipsec

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US Patent:

7602919, Oct 13, 2009

Filed:

Mar 16, 2005

Appl. No.:

11/082068

Inventors:

Audrius Berzanskis - Cambridge MA, US
Harri Hakkarainen - Los Gatos CA, US
Keun Lee - Newburyport MA, US
Muhammad Raghib Hussain - Pleasanton CA, US

Assignee:

MagiQ Technologies, Inc - New York NY

International Classification:

H04L 9/12
H04L 29/06

US Classification:

380277, 380278, 713150

Abstract:

A method of integrating quantum key distribution (QKD) with Internet protocol security (IPSec) to improve the security of IPSec. Standard IPSec protocols impose limits on the frequency at which keys can be changed. This makes efforts to improve the security of IPSec by employing quantum keys problematic. The method includes employing multiple security associations (SA) in in-bound and outbound SA Tables in a manner that enables a high key flipping rate and that enables combining quantum keys with classical keys generated by Internet Key Exchange (IKE), thereby enabling QKD-based IPSec.

Qkd With Classical Bit Encryption

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US Patent:

7620182, Nov 17, 2009

Filed:

Feb 13, 2004

Appl. No.:

10/577625

Inventors:

Audrius Berzanskis - Cambridge MA, US
Jonathan Young - Newburyport MA, US

Assignee:

MagiQ Technologies, Inc. - New York NY

International Classification:

H04K 1/00
H04L 9/00

US Classification:

380256, 380277, 380 44

Abstract:

A method for enhancing the security of a quantum key distribution (QKD) system having QKD stations Alice and Bob. The method includes encrypting key bits generated by a true random number generator (TRNG) and sent to a polarization or phase modulator to encode weak optical pulses as qubits to be shared between Alice and Bob. Key bit encryption is achieved by using a shared password and a stream cipher. Bob obtains at least a subset of the original key bits used by Alice by utilizing the same stream cipher and the shared password.

Qkd Cascaded Network With Loop-Back Capability

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US Patent:

7787625, Aug 31, 2010

Filed:

Jun 30, 2005

Appl. No.:

11/629247

Inventors:

Harry Vig - North Billerica MA, US
Audrius Berzanskis - Cambridge MA, US

Assignee:

MagiQ Technologies, Inc. - New York NY

International Classification:

H04L 9/00

US Classification:

380256, 713150, 713189, 380255, 380257, 380259, 380277, 380278, 380281, 380283

Abstract:

A quantum key distribution (QKD) cascaded network with loop-back capability is disclosed. The QKD system network includes a plurality of cascaded QKD relays each having two QKD stations Alice and Bob. Each QKD relay also includes an optical switch optically coupled to each QKD station in the relay, as well as to input ports of the relay. In a first position, the optical switch allows for communication between adjacent relays and in a second position allows for pass-through communication between the QKD relays that are adjacent the relay whose switch is in the first position.

Systems And Methods For Enhanced Quantum Key Formation Using An Actively Compensated Qkd System

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US Patent:

7853020, Dec 14, 2010

Filed:

Sep 19, 2007

Appl. No.:

11/901773

Inventors:

A. Craig Beal - Watertown MA, US
Michael J. Lagasse - Nahant MA, US
Audrius Berzanskis - Cambridge MA, US

Assignee:

Mogiq Technologies, Inc. - Somerville MA

International Classification:

H04L 9/08

US Classification:

380283

Abstract:

Systems and methods for enhanced quantum key distribution (QKD) using an actively compensated QKD system. The method includes exchanging quantum signals between first and second QKD stations and measuring the quantum signal error. An error signal Srepresentative of the system visibility error is then generated. An error-signal threshold Sthat defines a system visibility error limit is then selected. Those qubits measured with the condition S>Sare called “above-threshold” qubits, while those qubits measured with the condition S≦Sare called “below-threshold” qubits. Only below-threshold qubits are stored and used to form the final quantum key. This is accomplished by sending a blanking signal Sto the memory unit where the qubits are stored. The blanking signal prevents above-threshold qubits from being stored therein. The raw quantum key so formed has few errors and thus forms a longer final quantum key for a given number of exchanged quantum signals.

Medic Voice Data System

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US Patent:

8233631, Jul 31, 2012

Filed:

Apr 15, 2010

Appl. No.:

12/798974

Inventors:

Audrius Berzanskis - Cambridge MA, US

Assignee:

MagiQ Technologies, Inc. - Somerville MA

International Classification:

A61B 7/04

US Classification:

381 67

Abstract:

A medical voice data system includes a hand-held recording device, an electronic information carrier (EIC), and a host station. The hand-held device records medical information from a user that is examining a person in an extreme environment such as battlefield or disaster area. EICs are stored within a housing interior and can be dispensed therefrom by the user. Recording electronics within the housing interior are operably connected to at least one of the EICs. A microphone is operably connected to the recording electronics to record on a EIC medical information about the injured person. The EIC is configured to be attached to and travel with the person as they are evacuated so that the recorded medical information is immediately available to medical personnel at a care center via the host station. The medical voice data system may also employ a wireless EIC. A host station is used to receive and process the recorded information and convert it to text-based medical record.

Key Management And User Authentication For Quantum Cryptography Networks

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US Patent:

8340298, Dec 25, 2012

Filed:

Apr 16, 2007

Appl. No.:

12/225560

Inventors:

Robert Gelfond - New York NY, US
Audrius Berzanskis - Cambridge MA, US

Assignee:

MagiQ Technologies, Inc. - Somerville MA

International Classification:

H04L 9/00
H04L 9/08
H04L 29/06

US Classification:

380277, 380259, 380262, 380268, 380278, 380279, 380 44, 380 46, 380 47, 713153, 713155, 713156, 713161, 713169, 713170, 713171, 713173, 713175, 726 2, 726 3, 726 4, 726 6, 726 10, 726 26, 726 28, 726 30

Abstract:

Key management and user authentication systems and methods for quantum cryptography networks that allow for users securely communicate over a traditional communication link (TC-link). The method includes securely linking a centralized quantum key certificate authority (QKCA) to each network user via respective secure quantum links or “Q-links” that encrypt and decrypt data based on quantum keys (“Q-keys”). When two users (Alice and Bob) wish to communicate, the QKCA sends a set of true random bits (R) to each user over the respective Q-links. They then use R as a key to encode and decode data they send to each other over the TC-link.

Standards-Compliant Encryption With Qkd

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US Patent:

20050063547, Mar 24, 2005

Filed:

May 3, 2004

Appl. No.:

10/837775

Inventors:

Audrius Berzanskis - Cambridge MA, US
Paul Jankovich - Northboro MA, US

International Classification:

H04L009/00

US Classification:

380278000

Abstract:

An encryption system and method that utilizes quantum key distribution (QKD) and that is compliant with industry and/or governmental standards for encryption is disclosed. One example embodiment of the system includes first and second transmitters/receivers operatively connected to respective first and second encryption/decryption (e/d) processors. The e/d processors are connected to a classical key distribution system as well as to a QKD system. The QKD system symmetrically provides quantum keys qi to the e/d processors, and the classical encryption system symmetrically provides classical keys ci to the e/d processors. The e/d processors then form session keys ki via the operation ki=ci XOR qi. The session keys are then used to encrypt and decrypt plaintext messages sent between two transmitting/receiving stations.

Key Expansion For Qkd

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US Patent:

20060059343, Mar 16, 2006

Filed:

Feb 5, 2004

Appl. No.:

10/544172

Inventors:

Audrius Berzanskis - Cambridge MA, US
Alexei Trifonov - Boston MA, US

Assignee:

Magiq Technologies Inc. - New York NY

International Classification:

H04L 9/00

US Classification:

713171000

Abstract:

A method of encrypting information using an encryption pad based on keys exchanged between quantum key distribution (QKD) stations is disclosed. The method includes establishing raw keys between two stations using QKD, processing the keys to establish a plurality of matching privacy amplified keys at each station and buffering the keys in a shared key schedule. The method also includes the option of expanding one or more of the keys in the shared key schedule using a stream cipher to create a supply of expanded keys that serve as pads for one-time-pad encryption.

Audrius Berzanskis

Audrius Berzanskis Phones & Addresses

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Resumes

Resumes

Chief Executive Officer

Business Records

Publications

Us Patents

Method Of Integrating Qkd With Ipsec

Qkd With Classical Bit Encryption

Qkd Cascaded Network With Loop-Back Capability

Systems And Methods For Enhanced Quantum Key Formation Using An Actively Compensated Qkd System

Medic Voice Data System

Key Management And User Authentication For Quantum Cryptography Networks

Standards-Compliant Encryption With Qkd

Key Expansion For Qkd

Audrius Berzanskis