JAMES A SMITH
Engineering in Amherst, MA
License number
Massachusetts 30609
Issued Date
Jul 24, 1981
Expiration Date
Jun 30, 2016
Type
Civil Engineer
Address
Address
Amherst, MA 01002
Professional information
Help Desk / Lab Manager - College Of Humanities And Fine Arts At University Of Massachusetts Amherst
Position:
Help Desk / Lab Manager - College of Humanities and Fine Arts at University of Massachusetts Amherst
Location:
Pittsfield, Massachusetts Area
Industry:
Information Technology and Services
Work:
University of Massachusetts Amherst
- Amherst, Ma since Sep 2012
-
Help Desk / Lab Manager - College of Humanities and Fine Arts
Best Buy
Jan 2012 - Dec 2012
-
Project Team Specialist
Best Buy
Aug 2009 - Jan 2012
-
Computer Sales Associate
Geek Squad
Apr 2008 - Aug 2009
-
Agent on Deck/Double Agent (On-site/In-home Technician)
Geek Squad
Nov 2003 - Oct 2005
-
Senior Agent of Counter Intelligence (Department Supervisor)
Geek Squad
Nov 2003 - Oct 2005
-
Counter Intelligence Agent (PC Tech)
Best Buy
Aug 2003 - Nov 2003
-
Wireless Senior (Asst. Supervisor)
Best Buy
Aug 2002 - Aug 2003
-
PC Technician
KB Toys World Headquarters
Jun 2001 - Aug 2001
-
Network Services Intern
Taconic High School
Sep 1999 - May 2001
-
Computer Network Management Program
Education:
UMass Lowell 2013 - 2017
Bachelor's degree, Information Technology: Business Minor Taconic High School 1998 - 2001
Diploma, Computer Network Management Berkshire Community College
Bachelor's degree, Information Technology: Business Minor Taconic High School 1998 - 2001
Diploma, Computer Network Management Berkshire Community College
Method And System For Allocating Traffic Demands In A Ring Network
US Patent:
7710878, May 4, 2010
Filed:
Jan 10, 2003
Appl. No.:
10/339887
Inventors:
Peter Kubat - Sudbury MA, US
James MacGregor Smith - Amherst MA, US
James MacGregor Smith - Amherst MA, US
Assignee:
Verizon Laboratories Inc. - Waltham MA
International Classification:
G08C 15/00
US Classification:
370237, 370424, 370452
Abstract:
A method of allocating a plurality of traffic demands on a network having a plurality of stations connected by a bi-directional ring is disclosed. The method comprises selecting a first traffic demand from the plurality of traffic demands. The method then acquires a first existing traffic volume for a first direction of the bi-directional ring and a second existing traffic volume for a second direction of the bi-directional ring. Either the first or second direction is selected for transmitting the first traffic demand based on the smallest incremental increase in the load of the bi-directional ring.