Adjunct Professor Cyber Security

MOSHIUR RAHMAN, Ph.D

******.*******@*****.***

*** ********* ***** ****: 732-***-****

Marlboro, New Jersey 07746 Work: 732-***-****

An innovative candidate that offers expertise in Information Service Assurance Systems and Software Engineering, Communications, Cyber Security, Satellite and Artificial Intelligence

PROFESSIONAL PROFILE

A knowledgeable contender with an array of experience as a Principal Scientist/a Lead Systems Engineer, an Operational Manager, a Software Engineer, and an Adjunct Professor. Recognized as an individual with highly developed ideas and proven skills in Systems Engineering, Cyber Security, and Mission critical as it relates to Systems Engineering programs. Known for the role in the mentoring and development of highly skilled and passionate engineers. Selected Accomplishments include:

95 patents granted 358 patents filed 430 patents submitted

2013 – Present: LMTS (Lead Member of Technical Staff-LMTS), AT&T, Operations Research

IT SE Manager/support the development of key service assurance systems engineering products (AT&T satellite and wireless networks) to include system specifications, functional analysis and decomposition, and analyses to support program milestones and the subsequent activities where these products are assessed and matured.

Provide technical integration with other engineering disciplines, wireless mobility network System elements, and cross-program elements, including risk-based insight/oversight through assessment of requirements and verification activities.

Lead and/or support satellite and mobility operation support System elements and/or subsystem design trades and analysis necessary to validate the requirements, maintain control of the design baseline, and continually track compliance of the design to the requirements during design, development, testing, and evaluation.

Guide cross-org multi-functional teams and provide leadership over planning and strategy

Provide technical oversight/insight into contractor systems engineering products.

Provide support for requirement/testing V&V including V&V planning, execution, coordination, and integration for system-level requirements to assure design compliance through collaborating with engineering teams; ensure the logical and systematic conversion of customer or product requirements into total systems solutions

Communicate issues, best practices, lessons learned, and other technical positions related to network service assurance systems engineering, requirement management, and V&V practices and procedures.

Gauge the effectiveness and efficiency of existing OSS systems: developed and implemented strategies for improving or further leveraging systems.

Develop integrated schedules/tracking mechanisms to manage the work and identify risks and opportunities.

Implement Model-Based Systems Engineering (MBSE) best practices, approaches, techniques, and tools.

Identify, describe, and communicate potential risks related to the products, processes and interactions in the systems engineering processes and document them in the AT&T Risk Management System.

Work with executive team members, decision-makers, and stakeholders to define network operations of telemetry monitoring systems strategy, goals, and requirements for satellite and mobility networks.

Lead a team throughout the conversion of the customer (network operations) and product requirements into the total system’s design of the satellite and wireless Operations Support Systems

Manage SE teams, including mentoring the interns and entry-level systems engineers

1995 – 2012: Principal Member of Technical Staff (PTSM), AT&T

Led planning, modeling, validation, engineering, and verification activities for the satellite and wireless network management.

Led data analytics project to shape and influence the general thinking, and the near and long term vision for satellite network surveillance analytics using open source SW (R, Java and Python)

Defined and detailed the design of satellite communications’ Analytics mS implementation architecture context and data flows.

Delivered improved quality analytics mSvcs for the satellite service assurance, which obviated the need for the costly vendor solutions; led the successful completion of analytics vendor tools evaluation by working with internal and external team.

Defined and designed the first system’s architecture, functional flows and connectivity between distributed satellite network data centers, the Analytics Server, and a BI (Business Intelligence) dashboard.

Led TD (Technology Development) Analytics Team by having many internal brainstorming sessions – shared and explained the TA (Technology Architect) Open DCAE analytics and design strategy and technical direction.

‘think tank’ for satellite security network analytics strategy planning, goal setting and execution, which greatly contributed to funded satellite, wireless network operations satellite and mobility networks Analytics Program.

Guided the Analytics Team to design the foundation architecture and data flow for Satellite Ops. Analytics.

Developed core competency business and technical aspect predictive / descriptive and streamlining analytics for satellite data networks by designing relevant use cases and POCs; completed satellite cloud security analytics POC using IBM Info sphere.

Led SW design and programming for OSS for network monitoring and surveillance using: C, C++, Java, Python, and R

Managed fault and performance of the AT&T Direct TV and wireless operations as it pertains to surveillance systems.

Data Analytics systems architecture and requirements for the satellite and wireless networks.

Led architecture and requirements for the applied real-time analytics systems to be used in AT&T wireless and satellite TV operations.

Led 15 SEs for FM Analytics Microservices from concept to realization, including systems requirements generation, validation and verification. Directed FM Cross org mServices strategy and planning team.

Designed and developed (R and Python) Big Data Analytics Platform for the wireless operations.

Selected to manage the IP and LTE joint team of E2E VoLTE Cross Domain Correlation Architecture.

Designed and developed mobility, TV, and IMS fault management systems.

Directed One AT&T MOE Femtocell GFP-Mobility architecture and requirements.

Led the GFP Mobility Statistical Alarm Correlation Task Force Team for 4G alarms to develop correlator/engine for the fault management platform.

Managed a team in support of requirements generation for LTE, IMS cvOIP, Satellite Direct TV and IPTV U-verse.

Led a team of 14 engineers selected to develop architecture requirements and high-level design for fault management of AT&T light-speed networks supporting cVoIP.

Developed the statistical correlation methodology and an advanced statistical correlation model for network management.

Led cross-organizational team in technical planning, system integration, verification, validation, and effectiveness analyses for E2E service assurance operations systems.

Led throughout the planning, modeling, validating, engineering and verifying all activities. Managed service and systems development technical planning (VoIP).

2007- Present: Adjunct Professor, Stevens Institute – Hoboken, New Jersey

Teaching- 1) TCP/IP Socket programming and 2) Quantum Computing and Networking

2008- Present: Adjunct Professor, NJIT – Newark, New Jersey

Teaching- TCP/IP Socket programming

EDUCATION

Stevens Institute of Technology, Hoboken, NJ – Ph.D in Electrical Engineering

Studies included – Telecommunications: Wireless IP Mobility using high speed broadband access

Wayne State University, Detroit, MI – M.S. in Electrical Engineering

Studies included – Electrical & Computer Engineering

Odessa Polytechnic Institute, Odessa, SU – M.S. in Radio Electronics Engineering

B.S. in Radio Electronics Engineering

PUBLICATIONS

Rahman M. and Harmantzis F. Broadband-facilitated Inter-WLAN Mobility architecture. International Journals of wireless Information Networks. July 2006, Issue 3. Pages 173-192.

Rahman M. and Harmantzis F. Low-Latency Handoff inter-WLAN IP Mobility with Broadband Network Control. Computer Communications; The International Journal for the Computer and Telecommunications Industry. September 2006.

Rahman M. and Harmantzis F. Gateway Performance for Network Controlled WLAN IP Mobility. International Journal of Communication Systems, November 2006.

Rahman M. and Harmantzis F. IP Mobility with High Speed Access and Network Intelligence. (IEEE WIRELES Communications and networking Conference WCNC.) Atlanta, Georgia, March 21, 2004, issue 4, pages 2159-2164.

Rahman M. and Harmantzis F. IEEE 802.11 Inter-WLAN Mobility Control with Broadband Supported Distribution System Integrating WLAN and WAN. 11th International Conference on Telecommunications, Ceara, Brazil, August 1, 2004.

Rahman M. and Harmantzis F. and Gunasekaran V. QoS for Inter-WALN IP Mobility with High-speed Accessed Network Server. IEEE WCNC. New Orleans, Louisiana, March 13 – 17, 2005, issue 1, pages 1564 – 1569.

LEADERSHIP

2000 – 2005, President, Bangladesh Jhenidah Ex-Cadets Association, North America.

1978 – 1980, President, Bangladesh Student Association, Odessa Polytechnic Institute, SU

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