Dr. Basile Panoutsopoulos

Professor Basile Panoutsopoulos
Department of Computer Electronics and Graphics Technology
School of Engineering and Technology
Central Connecticut State University
1615 Stanley Street
New Britain, CT 06050

Telephone: (860) 832-1816

Facsimile: (860) 832-1806
Office: Copernicus 2361400
email: Basile.Panoutsopoulos@ieee.org

OBJECTIVES:

Ph.D. (E.E.) The City University of New York

M.S. (App. Math.) New Jersey Institute of Technology

M.E. (E.E.) The City College of the City University of New York

EXPERIENCE:

2010-Present

1992-2010

2007-2008

2002-2003

1984-1996

1991-1992

1991

1986-1989

Central Connecticut State University, New Britain, CT 06050. 

http://www.ccsu.edu

Assistant Professor, Department of Computer Electronics and Graphics Technology

Naval Undersea Warfare Center, Newport, RI 02841

http://www.npt.nuwc.navy.mil/

Electronics Engineer, Electromagnetics Department, Antenna Branch

Career-Conditional appointment (1992-1995)

Career Tenure Group (1995-2010)

University of Rhode

Per Course Instructor, Department of Electrical, Computer, and Biomedical Engineering

Penn State Harrisburg – Capital College, Middletown, PA 17057

http://www.cl.psu.edu/set/

Assistant Professor, Programs in Electrical Engineering and Electrical Engineering Technology, School of Science, Engineering, and Technology

The City College, CUNY, New York, NY 10031

http://www-ee.ccny.cuny.edu/newpage/

Adjunct Assistant Professor, Department of Electrical Engineering

York College, CUNY, Jamaica, NY 11451

http://www.york.cuny.edu/math/

Adjunct Assistant Professor, Department of Mathematics and Computer Studies

Queensborough Community College, CUNY, Bayside, NY 11364

http://www.qcc.cuny.edu/Physics/Default.htm

Adjunct Lecturer, Department of Physics

Manhattan College, Riverdale, N. Y. 10471

http://www.engineering.manhattan.edu/ece/index.htm

Instructor, Department of Electrical Engineering

Electric Circuits: (CET 236 – Spring 2011) This section of the course is under development to become eventually a new course CET 2xx Electrical and Electronic Engineering for non major course. Other faculty was consulted on the topics they would like the non major graduate to have an understanding when communicating with their major colleagues. The course includes Lecture and Laboratory. These have been enhanced as Lecture (Presentation – Discussion - Recitation) Laboratory (Analytical – Simulation – Experimental). I am in the process of preparing:
- Presentations in Electrical and Electronic Engineering (Devices, Circuits, Systems)
- Recitation Lessons in Electrical and Electronic Engineering (Devices, Circuits, Systems)
- Experiments in Electrical and Electronic Engineering.

Electronic Circuits: (CET 323 – Fall 2010) This course is under development. The course includes Lecture and Laboratory. These have been enhanced as Lecture (Presentation – Discussion - Recitation) Laboratory (Analytical – Simulation – Experimental). I am in the process of preparing:
- Presentations in Analog Electronics: Devices, Circuits, Systems 
- Recitation Lessons in Analog Electronics: Devices, Circuits, Systems
- Experiments in Analog Electronics: Devices, Circuits, and Systems.

Signals and Systems: (CET 346 – Spring 2011) This course is under development. The course includes Lecture and Laboratory. These have been enhanced as Lecture (Presentation – Discussion - Recitation) Laboratory (Analytical – Simulation – Experimental). I am in the process of preparing:
- Presentations in Signals and Systems
- Recitation Lessons in Signals and Systems
- Experiments in Signals and Systems.

Electronic Communications: (CET 443 – Spring 2011) This course is under development. The course includes Lecture and Laboratory. These have been enhanced as Lecture (Presentation – Discussion - Recitation) Laboratory (Analytical – Simulation – Experimental). I am in the process of preparing:
- Presentations in Telecommunication Electronics: Devices, Circuits, Systems
- Recitation Lessons in Telecommunication Electronics: Devices, Circuits, Systems
- Experiments in Telecommunication Electronics: Devices, Circuits, and Systems. The laboratory part is based in part on the analysis, simulation, and implementation of a AM-FM Radio Receiver and AM Transmitter and FM Transmitter.

Senior Seminar: (CET 497 Spring 2010) This is the first part of a sequence of two courses that brings together the knowledge, understanding, and abilities of the soon to be graduate. All students get general instructions and individual consultation in order to prepare a successful proposal. SBIR

Senior Project: This is the second part of the sequence of two courses 

Electromagnetic Theory I, II: Emphasized Basic Electromagnetic Theory with Practical Applications. Specifications and Manufacturers Data in Practical Analysis and Design problems were introduced.

Set of teaching notes: Design Topics in Electromagnetics.

Manual on: How to Use the SMITH Simulator.

Computer Programs: Computer Simulation in Electromagnetics.

Electromagnetic Theory: Organized this graduate course in Electromagnetic Theory introducing current analytical and numerical techniques for the solution of practical applications of Electromagnetic Theory. Computer programs were used in analysis and synthesis practical problems.

Computer Programs: Computational Techniques in Electromagnetics.

Microwave Engineering Design: Introduced the philosophy of design. Microwave Devices and Circuits were designed analytically, simulated and improved using PUFF, a microwave simulator. Manufacturers’ data were used.

Set of teaching notes: Design Topics In Microwave Engineering.

Computer Programs: Microwave Computer Aided Analysis and Synthesis.

Antenna Theory: Developed this upper senior / graduate course to include Theory and Practice, Analysis and Synthesis, and Numerical Techniques.

Set of teaching notes: Theory, Practice and Computational Techniques in Antennas.

Computer Programs: Antenna Computer Aided Analysis and Synthesis.

Computer Aided Design: Developed this senior level elective course introducing an Industrial Environment in the classroom. Design projects were developed. The Analytical Design; Computer Simulation; and Prototype Verification sequence were emphasized. Textbooks, handbooks, papers, manufacturers’ data books, and product catalogs, were used. Topics such as Flowcharting, Programming, Modeling, Numerical Methods, and Optimization Techniques were introduced.  Presentations were employed.

Manual on: How to Use the SPICE Simulator in the VAX and DG Computers.

Manual on: How to Use the NCAR Plotting Subroutine in the VAX and DG Computers.

Set of teaching notes: Computer Aided Analysis and Synthesis of Electronic Circuit.

Communication Electronics: Developed this upper senior / graduate course to include Theory and Practice, Analysis and Synthesis, based on an AM-FM Radio Communication System.

Signal Analysis: Mathematical models of physical signals and systems were presented. Mathematical methods for systems analysis were examined. The relationship between mathematical methods and realization by electronic means were emphasized.

Energy Sources: Engineering Economics Principles. Alternative energy sources and their impact on the world development were examined.

Electronic Devices and Semiconductor Materials: Physical Electronics for Analysis and Synthesis of Semiconductor Devices.

Set of teaching notes: A MathCAD Approach in Analysis and Synthesis of Semiconductor Devices.

Microwave, Power, and Electronic I, II, III, IV Laboratories.

General Physics: A course in general physics with emphasis on fundamental principles and real world applications.

Set of teaching notes: Simulation of Physical Phenomena Using Mathcad.

Introduction to Computer Programming - PASCAL: An introduction to structured computer programming using the PASCAL programming language.

INDUSTRIAL

EXPERIENCE:

Virtual Test Facility (VTF): Manager of the facility from 1998-2007.

The VTF is the place were engineers design, simulate, develop and optimize the performance of antennas, microwave circuits, electronic circuits, printed circuits, and systems as part of the research and development effort of the Electromagnetics Department. This is the area were engineers will meet with the customers, discuss requirements, and develop a prototype.

My responsibilities include preparation and presentation of yearly budgets, software evaluation, maintenance, approval and purchasing, hardware, evaluation, maintenance, approval and purchasing. The facility has a budget of about $250K.

Of course in addition to being the Manager, I am a customer, too.

Small Business Innovation Research Program (SBIR): Evaluator and Monitor for NUWC from 1998-Present.

This is a Navy wide program. I submitted topics for inclusion in the program and I actively participated in the evolution of submitted proposals. Duties include monitoring of the projects through monthly and final reports, and on-site visits to get first hand information and assess progress of the work done. Two of the projects successfully completed Phase I ($60K + $30K) and awarded Phase II ($600K + $250K), while another project was terminated at Phase II (it was not awarded Phase III).

In addition, I am an evaluator of submitted proposal by small business. One such proposal was selected and awarded Phase I money for the latest solicitation topic “Radio Room RF Integrating Switching Matrix”.

Principal Investigator (PI):

For the FY06. I was funded through the Capital Purchase Program (CPP) for the proposal “Modernization of Virtual test Facility – VTF.” The project includes a one-year 90K funding to upgrade the current hardware and software of the Virtual Test Facility.

FY 2008: Capital Purchase Program (B&P)
Topic: Embedded Helical Antenna in a Radome Material.
The project was funded with 30K to investigate the feasibility of such a structure

FY 2007 – Program: Bid and Propose (B&P)

Topic: Radiating Structures as Ultra Wideband Antennas.

Project funding: 17K.

FY 2007 - Program: Capital Purchase Program (CPP)

Topic: Enhanced Modeling Capabilities of the Virtual Test Facility – VTF.

The project was funding with 120K to upgrade the current hardware and software.

FY 2007 - Program: Capital Purchase Program (CPP)

Topic: Enhancements of the Fishers Island and Overwater Arch Facilities.

The project was funding with 120K to upgrade the current hardware and software.

FY 2006 - Program: Bid and Propose

Topic: Radiating Structures as Ultra Wideband Antennas.

The project was funding with 40K.

FY 2006 - Program: Transition Engineering

Topic: Embedded Conformal Monopole Sleeve Antenna in the OE-538 Radome Structure: Modeling and Simulation.

The project was funding with 40K.

FY 2006 - Program: Capital Purchase Program (CPP)

Topic: Modernization of Virtual Test Facility – VTF.

The project includes a one-year 90K funding to upgrade the current hardware and software of the Virtual Test Facility.

FY 2000 – Program: In-House Laboratory Independent Research

FY 2001 – Program: In-House Laboratory Independent Research

During the Fiscal years 2000 and 2001 (FY00 and FY01).

I was funded through the (ILIR) to conduct research in the area of “Fractal antennas”. Two conference and one journal publications was the result of this effort. I am currently working in this area with additional publications in preparation.

Team Member: From 1992-2010.

As a team member, I worked and continue to work on a variety of projects. Some of the projects require work as a member of a team, while others require individual work. In both cases, the final result always gets a peer review. Typical projects I participated in include:

            Antenna Matching Networks

            Plasma Antennas

            Optical Switching

            Radar Bearing Improvement

            Radar Cross Section

            Numerical evaluation of fields of conductor current distribution

In addition I was involved in:

            Writing proposals for funded work.

            Ordering equipment for new installations.

            Developing in house programs for engineering applications.

Procurement – Purchasing: From 1992-2006.

In addition to engineering work, there is a need for other associated functions, such as, renting and purchasing of equipment, preparation of proposals, writing of specifications, etc. which I have been participating in.

Reviewer:

The International Journal of Modern Engineering. Member of the International Review Board.

Chapters in Books:

B. Panoutsopoulos. Standards and Calibration in IEEE Press/Wiley Handbook of Applied Electrical Engineering. Submitted for review. To be published in 2007.

B. Panoutsopoulos. Error Analysis in IEEE Press/Wiley Handbook of Applied Electrical Engineering. Submitted for review. To be published in 2007.

Books:

B. Panoutsopoulos. Classical Electromagnetic Theory and Practice. - Textbook. Under preparation.

B. Panoutsopoulos. Classical Electromagnetic Theory and Practice. – Student’s Solution Manual. Under preparation.

B. Panoutsopoulos. Classical Electromagnetic Theory and Practice. - Experiments. Under preparation.

Presentations:

B. Panoutsopoulos. Fractal Antennas: Theory and Applications. Brown Bag Seminar. Electromagnetics Department. Thursday 9^th January 2003. Mezzanine. Building 1319.

B. Panoutsopoulos. Measurements and Error Analysis, Part I. Brown Bag Seminar. Electromagnetics Department. Thursday 24^th February 2004, Room 321, Building 1319.

B. Panoutsopoulos. Measurements and Error Analysis, Part II. Brown Bag Seminar. Electromagnetics Department. Thursday 10^th March 2004, Room 321, Building 1319.

Papers (under Preparation):

Dillen Steve and Basile Panoutsopoulos: Bringing the Real World into Academia: An Experiment in a local Area Broadband Cable Distribution Network. In Preparation.

Maggie Yihong Chen, Brie Howley, Xiaolong Wang, Panoutsopoulos Basile, and Ray Chen. 2-D Scalable Optical Controlled Phased Array Antenna System. Invited Paper. Photonics West 2006.

B. Panoutsopoulos. The SPICE Transmission Line model and some of its applications: In Preparation.

B. Panoutsopoulos. Personal Computer Assisted Instruction of an Introductory Digital Logic Course. In Preparation.

B. Panoutsopoulos. Simulators and Computer Algebra Systems A New Computer Aided Design Approach in Electrical Engineering. In Preparation.

Papers:

Maggie Yihong Chen, Brie Howley, Xiaolong Wang, Panoutsopoulos Basile, and Ray Chen. 2-D Scalable Optical Controlled Phased Array Antenna System. Invited Paper. Photonics West 2006. Proceedings of SPIE -- Volume 6126. Photonics Packaging and Integration VI, Allen M. Earman, Ray T. Chen, Editors, 61260I (Feb. 28, 2006).

Xiaolong Wang, Brie Howley, Yihong Chen, Panoutsopoulos Basile and Ray Chen. Fully-integrated 4 bit True Time Delay Module using Polymer Optical Switches and Waveguide Delay Lines. 2006 Integrated Photonics and Applications Topical Meeting and Nanophotonics Topical Meeting. Uncasville, Connecticut, USA.

Xiaolong Wang, Brie Howley, Yihong Chen, Ray Chen, and Panoutsopoulos Basile. Polymer Based Thermo-optic Switch for Optical True Time Delay. SPIE Photonics West Conference, 2005.

Maggie Yihong Chen, Brie Howley, Xiaolong Wang, Panoutsopoulos Basile, and Ray Chen. Integration of Optical Components for Time Delay Module in Advanced Radar Applications. Invited Talk. International Conference on Optical Communication and Networks (ICOCN) 2005.

B. Panoutsopoulos. The Koch Fractal Monopole Antenna in Wireless Network Applications. 2004 Wireless Networking Symposium (WNCG) October 20-22, 2004. The University of Texas at Austin, TX, USA.

B. Panoutsopoulos. Fractal Antennas in Wireless Network Applications. 2003 Wireless Networking Symposium (WNCG) October 22-24, 2003. The University of Texas at Austin, TX, USA.

B. Panoutsopoulos. Printed Circuit Fractal Antennas. IEEE International Conference on Consumer Electronics. June 17-19, 2003 – Los Angeles, California, USA.

Basile Panoutsopoulos and Julie A. Lacomb. Fractal and Direct-Write Antenna NUWC Division Newport Technical Digest. September 2002.

B. Panoutsopoulos. Shelf-Life Storage Characteristics of Nickel - Cadmium Batteries in the AN/BRT-6. Report. Naval Undersea Warfare Center, Division Newport. 1996.

B. Panoutsopoulos. Tether Dynamics for a Wind Loaded Antenna. Report. Naval Undersea Warfare Center, Division Newport. 1995.

B. Panoutsopoulos. Numerical Evaluation of the Electric Field around and the Surface Current Density on a Circular Perfect Conductor Due to an Incident Plane. Electromagnetic Wave. Report. Naval Undersea Warfare Center, Division Newport. 1995.

B. Panoutsopoulos. Calculation of Reserve Buoyancy for a Buoy Assembly. Report. Naval Undersea Warfare Center, Division Newport. 1994.

B. Panoutsopoulos. Lecture and Laboratory - Analysis and Synthesis: An Integrated Approach. American Society for Engineering Education. Middle Atlantic Section 1994 Fall Meeting.

B. Panoutsopoulos. Simulation of Digital Logic Gates and Generation of Timing Diagrams and Truth Tables. International Conference on Simulation in Engineering Education. '94.

B. Panoutsopoulos. A Computer Aided Approach to Synthesis and Simulation in Design Projects. American Society for Engineering Education. Middle Atlantic Section 1993 Fall Meeting.

B. Panoutsopoulos. Conservation of Energy: Illustration Through the Operation of a Roller Coaster on a Cosinusoidal Track. Applied Mathcad. Vol. 2, No 3, Fall 1993.

M. Ali, B. Panoutsopoulos, S. A. Ahmed. Potential and Limitations of Energy Transfer Processes in Pulsed and CW Dye Laser Mixtures: Comparison of Theory and Experiments. Journal of Applied Optics. Vol. 31, No. 33, pp. 1100-1107, 20 November 1992.

B. Panoutsopoulos, M. Ali, S. A. Ahmed. Experimental Verification of a Theoretical Model for Continuous Wave Energy Transfer Dye Mixture Lasers in the Near Infrared. Journal of Applied Optics. Vol. 31, No. 9, pp. 1213-1216, 20 March 1992.

M. Ali, B. Panoutsopoulos, S. A. Ahmed. On the Feasibility of Generating Argon CW Laser Pumped Energy Transfer Dye Laser Emission in the Near IR Spectral Region. Journal of Applied Optics. Vol. 30, No. 3, pp. 312-316, 20 Jan. 1991.

B. Panoutsopoulos, M. Ali, S. A. Ahmed. CW Energy Dye Laser in the Near Infrared, Simulation and Experimental Results. CLEO '91. Proceedings, Session CTHR3, pp. 429-430, Washington, DC, 1991.

S. A. Ahmed, B. Panoutsopoulos, M. Ali. Theory, Simulation and Performance of CW Energy Transfer Dye Mixture Lasers. Laserion. June 1991, International Laser Symposion, Munchen, Germany.

B. Panoutsopoulos. Analog Simulation Using a Personal Computer. Computers in Education '91. Conference New Orleans, LA.

Teaching and development of instructional material for learning  the “Modern Greek Language and Culture.”

I am teaching classes and continuously develop multimedia material to assist children and adults alike in learning Modern Greek. There is a strong Greek community in the area that dates back to the end of the nineteenth - beginning of the twentieth century. When I moved to the area, due to my work transfer from New London, CT, to Newport, RI, I was offered to teach classes at the Greek School. I accepted the position on a volunteer basis. Currently, the school has a paid instructor for the children while I continue as a volunteer to teach adult classes. It was in this effort and due to the limited amount of interaction (one to two hours, a week), that I developed the multimedia software products using Visual Basic, accompanied by workbooks. You can get a feeling of the material at:

www.Lily-Technology.com

Organization of a Bookstore for the Saint Spyridon Orthodox Church, Newport, RI.

When I moved to Newport, RI, (1996) and joined the local Greek-American community and Church, I proposed and established a bookstore. It specializes in books on Hellenism and the Christian Orthodox faith, which are otherwise difficult to be found in local major bookstores. The bookstore has been running successfully since its inception on 1996. A similar successful effort was initiated in the Saint Sophia Community and Church in New London, CT. I established and operated that bookstore from 1992-1996, and it is still in operation. A picture from the 1995 festival can been seen at:

http://www.lily-technology.com/bookstore.html

America Hellenic Educational Progressive Association (AHEPA).

Currently serving my fourth, one-year term as president after serving two years as vice president. The American Hellenic Educational Progressive Association (AHEPA) is by far the largest Greek American organization. The mission of AHEPA family is to promote Hellenism, Education, Philanthropy, Civic Responsibility, and Individual Excellence. In addition, the local chapter in Newport, provides scholarships, donates books to the local libraries and colleges, organizes a yearly dance, etc. Lately we pledged $20K to the local hospital (Newport Hospital) and assist in the establishment of the Hellenic Studies Center at the university of Rhode Island.

SEMINARS -

Over the period of my employment at NUWC, I attended a variety of engineering, managerial, and personnel seminars.

2007 Privacy Act Training
2007 Annual Ethics Training
2007 Operational Risk Management Training
2007 ONR's Undersea Enterprise
2007 Mandatory Spear-phishing Awareness Training
2006 Undersea Target Recognition Using Blue-Green Lasers: Methods and Practical Issues
2006 NUWC FY06 Internal S&T Investment Showcase Poster Session
2006 Presentation: Metamaterials for Miniaturization of Narrow Band and Ultra-Wideband Antennas 
Counterintelligence (CI) Training
2006 Continuous Learning Certificate of Achievement
2006 Annual Lead Awareness Training

2005 Antenna Measurement Technique Association (AMTA), Newport, RI

2005 Annual Ethics Training

2005 Financial Management Training

2005 ILSMIS Requisition Training

2005 The Fox and the Hedgehog – Overview of Code 34 Tech Council and Center Reorganization

2005 Environmental Awareness Training

2005 Wireless Sonar Array Development

2005 Annual Information Assurance Awareness Training

2005 Electrooptical Tactical Design Aids

2004 DOD Government purchase card tutorial

2004 Anti Terrorism Level 1 Awareness Training

2004 Prevention of Sexual Harassment Training

2004 Innovation and Intellectual Property

2004 Fundamentals of Systems Acquisition Management

2004 EC-004 - Antenna Modeling Offered by the ARRL

2004 Affirmative Procurement

2003 Pay, Leave and Work Schedule Policy Training

2003 Environmental Awareness Training

2003 Annual Computer Security Training for End Users

2003 Government Purchase Card Tutorial

2002 Thermally Sprayed Mesoscale Integrated Conformal Electronics (MICE), SUNY Stony Brook

2000 Environmental Awareness

2000 Annual Ethics Training

1999 Standards of Conduct, Personal Services, Government Ethics

1999 Personnel Demo Training

1999 FY99 Information Awareness Training

1999 ISO 14001 Environmental Management System Training

1998 Project Management Planning Scheduling and Control

1998 Diversity Training

1997 Prevention of Sexual Harassment Training

1996 FY97 Mandatory Security / Safety Update / Environmental / Fundamentals

1996 Total Quality Management / Team Skills and Concepts Course

1996 Total Quality Management / Process Quality Management and Improvement Workshop

1996 Bankcard Course

1995 Visual Basic Programming

1995 FY96 Environmental / Security / Equal Opportunity Training

1994 Prevention of Sexual Harassment Training

1994 Antennas: Principles Design and Measurements

1993 Mandatory Training – Ethics Environmental Espionage

1992 Prevention of Sexual Harassment Training

1992 Security Training Refresher

1992 New Employee Safety Orientation

1992 CPR

AWARDS:

2000 - 2006 

1993 – 1998

1995

1995

1993

Bonus Point Award (New DEMO personnel system).

Naval Undersea Warfare Center, Division Newport, Newport, RI.

Performance Award, Electromagnetics Division, Antenna Branch

Naval Undersea Warfare Center, Division Newport, Newport, RI.

Who is Who in Science and Engineering

Who is Who in American Education

Who is Who in Science and Technology in America

IEEE - Senior Member (The Institute of Electrical and Electronic Engineers)

ASEE (American Society for Engineering Education)

HKN (Eta Kappa Nu)

The Order of Engineer

SKILLS:

(Working knowledge or familiarity)

CST – Microwave Studio, Ansoft – HFSS, Ansoft – Designer, 

Numerical Electromagnetics Code (NEC)

Mathematica, Mathcad, MATLAB

PSpice, MicroCAP, Micrologic, B²SPICE, B²LOGIC

QuickBasic, Visual Basic, C, FORTRAN, Assembly, Pascal

Prof. Samir Ahmed

Herbet Keyzer Professor

Department of Electrical Engineering

The City College of C.U.N.Y.

138th Street and Convent Avenue

New York, N.Y. 10031

Tel.: (212) 650-7250

Prof. Leonid Roytman

Department of Electrical Engineering

The City College of C.U.N.Y.

138th Street and Convent Avenue

New York, N.Y. 10031

Tel.: (212) 650-7246

Dr. Demetrios Kokkinos

Verizon, Inc. Room: 2F7

500 Westchester Avenue

White Plains, NY10604

Tel.: (914) 644-2521

Prof. Robert Borrmann, Chairperson

Department of Electrical Engineering

Manhattan College

Manhattan College Parkway

New York, N.Y. 10471

Tel.: (718) 862-7160

Prof. Jamal Manassah

Department of Electrical Engineering

The City College of C.U.N.Y.

138th Street and Convent Avenue

New York, N.Y. 10031

Tel.: (212) 650-8367

Mr. Stanley Nowak

Periscope

Naval Undersea Warfare Center

Newport, RI 02841

Here you can see past work done and get a feeling of what I plan to contribute to your school. Of course, all pages are under continuous renovation!