JLG Industries - Hagerstown, MD since May 2011
Project Lead / Senior Electrical Engineer
DENSO Jan 2008 - May 2011
Application/Design Engineer
DENSO Mar 2003 - Dec 2007
Design Engineer
DENSO Jan 2002 - Dec 2003
Co-op
Education:
Frostburg State University 2011 - 2013
Master of Business Administration (MBA), Business Administration and Management, General
Lawrence Technological University 1999 - 2002
BSEE, Electrical and Electronics Engineering
Skills:
Product Design Engineering Automotive Pro Engineer Project Management Cad Ms Project Project Planning Dfmea Lean Manufacturing Inventor Continuous Improvement Gd&T Project Engineering Testing Engineering Management Microsoft Project Process Improvement Leadership Management
Interests:
Civil Rights and Social Action Science and Technology Education Environment
Oct 2013 to 2000 Project ManagerJLG Industries, Inc Hagerstown, MD May 2011 to Oct 2013 Project LeadDenso International America, Inc Southfield, MI Jan 2004 to May 2011 Application/Design Engineer
Education:
Frostburg State University Frostburg, MD 2011 to 2013 Master of Business AdministrationLawrence Technological University Southfield, MI 1999 to 2003 Bachelor of Science in Electrical Engineering
Skills:
Project Management, Critical Thinking, Product Test Planning, Technical Reports, Presentations, Test Data Analysis, Develop SOP Documents, Assembly Drawings, System Drawings
Joshua Conte - White Lake MI, US Akira Oga - West Bloomfield MI, US Robert Wunsche - Clarkston MI, US
Assignee:
DENSO INTERNATIONAL AMERICA, INC. - Southfield MI
International Classification:
G06F 15/00
US Classification:
702130
Abstract:
A method of controlling an initial external temperature display in a vehicle may include comparing an ignition-off time with a first threshold and displaying a current reading from an outside ambient temperature sensor when the ignition-off time equals or exceeds the first threshold. The method further includes comparing at least one secondary condition with at least one secondary parameter when the ignition-off time falls below the first threshold and selecting and displaying a reading based on the comparison of the at least one secondary condition with the at least one secondary parameter. This comparison can include comparing a previous ignition-on time with a second threshold and comparing a sum of the ignition-off time and a stored amount with a third threshold when the previous ignition-on time equals or falls below the second threshold. Alternatively, this comparison can include comparing an engine water temperature with a temperature threshold.
Joshua Conte 2000 graduate of Cheyenne High School in Las vegas, NV is on Classmates.com. See pictures, plan your class reunion and get caught up with ...