JOHN C HENDERSON
Nursing at Fairlight St, Melbourne, FL
License number
Florida 179257
Issued Date
Dec 22, 2008
Effective Date
Dec 22, 2008
Expiration Date
May 31, 2018
Category
Health Care
Type
Certified Nursing Assistant
Address
Address
2
1875 Fairlight St, Melbourne, FL 32907
13695 Hwy 1, Sebastian, FL 32958
13695 Hwy 1, Sebastian, FL 32958
Phone
(772) 633-4349
Personal information
See more information about JOHN C HENDERSON at radaris.comName
Address
Phone
5012 NW 18Th Pl, Gainesville, FL 32605
4871 Jennifer Ln, Milton, FL 32571
4903 Barcelona Ave, Sarasota, FL 34235
5081 Kingsley Rd, North Port, FL 34287
5069 W Irl Brnson Memorial Hwy, Kissimmee, FL 34746
Professional information
Scientist At Harris Corporation
Position:
Software Engineer IV at Harris Corporation Government Communications Systems, Scientist at Harris Corporation
Location:
Melbourne, Florida Area
Industry:
Defense & Space
Work:
Harris Corporation Government Communications Systems
- Melbourne, Florida Area since Jun 2011
-
Software Engineer IV
Harris Corporation
since Apr 2009
-
Scientist
Harris Corporation
Sep 2007 - Apr 2009
-
Software Engineer IV
Harris Corp GCSD
Mar 1997 - Aug 2007
-
Electrical Engineer 4
Education:
Auburn University 1992 - 1997
Ph.D., Electrical Engineering Auburn University 1990 - 1991
MSEE, Electrical Engineering Auburn University 1985 - 1990
Bachelor of Electrical Engineering, Electrical Engineering
Ph.D., Electrical Engineering Auburn University 1990 - 1991
MSEE, Electrical Engineering Auburn University 1985 - 1990
Bachelor of Electrical Engineering, Electrical Engineering
Interests:
Married January 2004 to Sarah and have one son, Luke, born September 2006. Currently living in Rockledge, FL and work in Palm Bay, FL.
System And Method For Efficient Non-Overlapping Partitioning Of Rectangular Regions Of Interest In Multi-Channel Detection
US Patent:
7551786, Jun 23, 2009
Filed:
Jan 9, 2008
Appl. No.:
11/971841
Inventors:
Richard Hugh Anderson - Melbourne FL, US
Paul David Anderson - Melbourne FL, US
Edward Ray Beadle - Melbourne FL, US
John Hubert Henderson - Melbourne FL, US
John Fitzgerald Dishman - Palm Bay FL, US
Paul David Anderson - Melbourne FL, US
Edward Ray Beadle - Melbourne FL, US
John Hubert Henderson - Melbourne FL, US
John Fitzgerald Dishman - Palm Bay FL, US
Assignee:
Harris Corporation - Melbourne FL
International Classification:
G06K 9/36, H04L 29/00
US Classification:
382232, 375259
Abstract:
A system and method in a multi-channel detection system for multi-rate filter bank applications for converting overlapping rectangular two-dimensional (2D) regions into a new set of non-overlapping rectangular regions for the efficient reconstruction of a signal wherein each non-overlapping region has a maximum extent in a major dimension is described. Overlapping regions are split into marked regions in a non-uniform grid and merged along the major dimension and along the minor dimension to form non-overlapping regions wherein no two non-overlapping rectangular regions have an adjacent edge orthogonal to the major dimension thereby increasing the efficiency of data compression and reducing error-rates.
System And Method For Efficient Non-Overlapping Partitioning Of Rectangular Regions Of Interest In Multi-Channel Detection
US Patent:
7372998, May 13, 2008
Filed:
May 14, 2003
Appl. No.:
10/437069
Inventors:
Richard Hugh Anderson - Melbourne FL, US
Paul David Anderson - Melbourne FL, US
Edward Ray Beadle - Melbourne FL, US
John Hubert Henderson - Melbourne FL, US
John Fitzgerald Dishman - Palm Bay FL, US
Paul David Anderson - Melbourne FL, US
Edward Ray Beadle - Melbourne FL, US
John Hubert Henderson - Melbourne FL, US
John Fitzgerald Dishman - Palm Bay FL, US
Assignee:
Harris Corporation - Melbourne FL
International Classification:
G06K 9/36, H04L 29/00
US Classification:
382232, 375259
Abstract:
A system and method in a multi-channel detection system for multi-rate filter bank applications for converting overlapping rectangular two-dimensional (2D) regions into a new set of non-overlapping rectangular regions for the efficient reconstruction of a signal wherein each non-overlapping region has a maximum extent in a major dimension is described. Overlapping regions are split into marked regions in a non-uniform grid and merged along the major dimension and along the minor dimension to form non-overlapping regions wherein no two non-overlapping rectangular regions have an adjacent edge orthogonal to the major dimension thereby increasing the efficiency of data compression and reducing error-rates.