Glen E. Archer

Glen E. Archer

Principal Lecturer and Associate Chair, ECE; Faculty Advisor, Blue Marble Security Enterprise; Faculty Advisor, Robotic Systems Enterprise
Glen E. Archer

Educational Background: MA, Information Resources Management, Webster University

BS, Electrical Engineering, Texas Tech University

Professional Experience:

He brings nearly 30 years of experience as a U.S. Air Force officer to the university setting. He served as cryptographic linguist, an Air Training Command Master Instructor, cryptographic systems program manager for the US space program, and foreign air defense command and control systems threat analyst. He retired from the Air force at his final assignment as the Commandant of Cadets at AFROTC Detachment 400 here at Michigan Tech.

Academic Experience:

Associate/Assistant Chair. (August 20, 2012 - Present).

Principal Lecturer – Electrical & Computer Engineering (2011-2018).

Senior Lecturer – Electrical & Computer Engineering (2007-2012).

Associate/Assistant Chair. (August 20, 2007 - May 4, 2012).

Lecturer – Electrical & Computer Engineering (2001-2007).

Assistant Professor – Aerospace Studies (1998-2001).

Areas of Expertise:

Image processing

Undergraduate EE labs

Counter-terrorism

Electronic warfare

Information operations

Courses Taught at Michigan Tech:

AF 1001, Foundations of US Air Force I, 1 course.

AF 1002, Foundations of US Air Force II, 1 course.

AF 101, Aerospace Studies 1, 1 course.

AF 102, Aerospace Studies 1, 1 course.

AF 103, Aerospace Studies 1, 1 course.

AF 2001, USAF Air and Space Power I, 1 course.

AF 2002, USAF Air and Space Power II, 1 course.

AF 204, Aerospace Studies 2, 2 courses.

AF 205, Aerospace Studies 2, 1 course.

AF 206, Aerospace Studies 2, 1 course.

AF 3001, USAF Leadership Studies I, 2 courses.

AF 3002, USAF Leadership Studies II, 1 course.

AF 307, Aerospace Studies 3, 1 course.

AF 308, Aerospace Studies 3, 1 course.

AF 309, Aerospace Studies 3, 1 course.

AF 4001, National Security Affairs I, 2 courses.

AF 4002, National Security Affairs II, 2 courses.

AF 404, Aerospace Studies 4, 3 courses.

AF 405, Aerospace Studies 4, 3 courses.

AF 406, Aerospace Studies 4, 4 courses.

EE 2110, Electric Circuits, 2 courses.

EE 2174, Digital Logic and Lab, 20 courses.

EE 2303, Introduction to ECE Lab, 36 courses.

EE 2304, Logic and Signals Lab, 42 courses.

EE 3010, Circuits and Instrumentation, 181 courses.

EE 3090, Geometrical and Wave Optics, 1 course.

EE 3305, Circuit and Analysis Lab, 44 courses.

EE 3306, Elect. Design w/Microprocessor, 30 courses.

EE 4800, ECE Lab, 5 courses.

EE 4805, Electrical Engineering Project, 1 course.

EE 5805, Directed Study in Elec & Comp, 1 course.

EE 5990, Thesis Research in EE, 1 course.

EE 5991, Project Research in EE, 1 course.

ENG 1000, Foundations for Success, 1 course.

ENG 1960, Blue Marble Security, 1 course.

ENG 2960, Blue Marble Security, 1 course.

ENG 3960, Blue Marble Security, 1 course.

ENG 4950, Blue Marble Security, 1 course.

ENG 4960, Blue Marble Security, 1 course.

ENG 4961, Blue Marble Security, 1 course.

ENT 1960, Blue Marble Security, 16 courses.

ENT 2950, Blue Marble Security, 23 courses.

ENT 2960, Blue Marble Security, 23 courses.

ENT 3950, Blue Marble Security, 28 courses.

ENT 3960, Blue Marble Security, 28 courses.

ENT 3970, Blue Marble Pre-Capstone, 1 course.

ENT 3980, Blue Marble Pre-Capstone, 5 courses.

ENT 4900, Robotics Systems Enterprise, 4 courses.

ENT 4910, Blue Marble Security, 3 courses.

ENT 4950, Blue Marble Security, 27 courses.

ENT 4960, Blue Marble Security, 26 courses.

ENT 4961, Blue Marble Security, 15 courses.

UN 1001, Perspectives on Inquiry, 2 courses.

Published Works:

Archer, G. E., Bos, J., Roggemann, M. C. Published Reconstruction of long horizontal-path images under anisoplanatic conditions using multiframe blind deconvolution. Optical Engineering 52(8), 083108. Bellingham, WA.

2014. Archer, G. E., Bos, J. P., Roggemann, M. C. Published Comparison of bispectrum, multiframe blind deconvolution and hybrid bispectrum-multiframe blind deconvolution image reconstruction techniques for anisoplanatic, long horizontal path imaging. 53, 043109. Optical Engineering.

Glen E. Archer · Jeremy P. Bos · Michael C. Roggemann. “Mean Squared Error Performance of MFBD Non-linear Scene Reconstruction Using Speckle-Imaging in Horizontal Imaging Applications.”  Proceedings of SPIE - The International Society for Optical Engineering 8399:83990Q-1 · May 2012

Solmaz Hajmohammadi · Saeid Nooshabadi · Glen E. Archer · J. P. Bos · Allan Struther. “Parallel hybrid bispectrum-multi-frame blind deconvolution image reconstruction technique.” Mar 2016· Journal of Real-Time Image Processing.