Siemens
Retired
Ge Mar 1969 - Sep 1978
Senior Engineer
Education:
Penn State University 1969 - 2015
Bachelors, Bachelor of Science In Electrical Engineering, Electronics Engineering, Electronics
University of Hard Knocks 1961 - 2014
Pennsylvania State University 1965 - 1969
Bachelors, Electrical Engineering
Skills:
Microsoft Office Microsoft Excel Microsoft Word Powerpoint Customer Service Research Teamwork Photoshop Social Media Public Speaking C++ English
Interests:
Licensed Ham Radio Operator (Kg6Q) Exploring Certified Scuba Diver Licensed Private Pilot Fishing
Certifications:
Federal Aviation Administration - Faa, License Ssn Padi Federal Communications Commission, License Kg6Q Frn 0019426428 Private Pilot Scuba Diver Ham Radio Operator License Ssn License Kg6Q Frn 0019426428
Aug 2005 to 2000 Maintenance/Mechanic set-up and trouble shoot machinesTruckPro Ocala, FL Feb 2005 to Apr 2005 Warehouse and driverAir Traffic Services Orlando, FL Apr 2004 to Jan 2005 CourierTurret Industries Leetsdale, PA 1993 to 2004 Warehouse Supervisor and Overseer/Machine OperatorRoxy's Auto and Truck Prospect, PA 1980 to 1993 Garage Manager and Mechanic
Us Patents
Programmable Port Sense And Control Signal Preprocessor For A Central Office Switching System
Robert H. Bradshaw - Seminole County FL Dennis L. Edinger - Longwood FL David L. Hinshaw - Longwood FL Pedro A. Lenk - Fern Park FL Thomas H. McKinney - Altamonte Springs FL Jayantkumar R. Shah - Munich, DE
Assignee:
Stromberg-Carlson Corporation - Longwood FL
International Classification:
H04J 312 H04Q 354
US Classification:
179 18ES
Abstract:
A community office switching system includes a three-level hierarchy of distributed processors operating in parallel with one another to control the operation of a central office matrix switch network interconnecting 1,920 ports. At the highest level, a stored-program call control processor controls call progression, establishing paths through the matrix switch network. At the second level, a series of special-purpose, stored-program, port control processors each service 960 ports, sensing and transmitting supervisory signals and communicating the occurrence of significant port events to the call control processor. Each port event control processor dedicates approximately 32 microseconds out of every 32 milliseconds to each of the 960 ports in time-multiplexed fashion, and hence no port can ever be locked out at the port-control-processor level. One from a series of stored programs is executed to service each port precisely one every 32 milliseconds. At the lowest level, a digital filtering processor, associated with each port control processor, samples some signals from each port once every millisecond, filters the sampled signals to give one filtered sample every four milliseconds, and stores the filtered samples for presentation to the associated port control processor once every 32 milliseconds.