ME 301 Mechanical Systems I |
3 Credits |
This course introduces fundamentals of mechanical systems
analysis and design. Specific topics include: preliminary
design and analysis of mechanical systems; machine elements
and their functions; force and life analysis of mechanical
systems;basic design of mechanical systems for stability
stress and deflections.
and deflections.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Mechanical Systems I |
3 |
Fall 2022-2023 |
Mechanical Systems I |
3 |
Summer 2021-2022 |
Mechanical Systems I |
3 |
Fall 2021-2022 |
Mechanical Systems I |
3 |
Summer 2020-2021 |
Mechanical Systems I |
3 |
Fall 2020-2021 |
Mechanical Systems I |
3 |
Fall 2019-2020 |
Mechanical Systems I |
3 |
Fall 2018-2019 |
Mechanical Systems I |
3 |
Fall 2017-2018 |
Mechanical Systems I |
3 |
Fall 2016-2017 |
Mechanical Systems I |
3 |
Fall 2015-2016 |
Mechanical Systems I |
3 |
Fall 2014-2015 |
Mechanical Systems I |
3 |
Fall 2013-2014 |
Mechanical Systems I |
3 |
Fall 2012-2013 |
Mechanical Systems I |
3 |
Fall 2011-2012 |
Mechanical Systems I |
3 |
Fall 2010-2011 |
Mechanical Systems I |
3 |
Fall 2009-2010 |
Mechanical Systems I |
3 |
Fall 2008-2009 |
Mechanical Systems I |
3 |
Fall 2007-2008 |
Mechanical Systems I |
3 |
Fall 2006-2007 |
Mechanical Systems I |
3 |
Fall 2005-2006 |
Mechanical Systems I |
3 |
Fall 2004-2005 |
Mechanical Systems I |
3 |
Fall 2003-2004 |
Mechanical Systems I |
3 |
Fall 2002-2003 |
Mechanical Systems I |
3 |
Fall 2001-2002 |
Mechanical Systems I |
3 |
|
Prerequisite: ENS 204 - Undergraduate - Min Grade D |
Corequisite: ME 301R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 301R Mechanical Systems I - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Mechanical Systems I - Recitation |
0 |
Fall 2022-2023 |
Mechanical Systems I - Recitation |
0 |
Summer 2021-2022 |
Mechanical Systems I - Recitation |
0 |
Fall 2021-2022 |
Mechanical Systems I - Recitation |
0 |
Summer 2020-2021 |
Mechanical Systems I - Recitation |
0 |
Fall 2020-2021 |
Mechanical Systems I - Recitation |
0 |
Fall 2019-2020 |
Mechanical Systems I - Recitation |
0 |
Fall 2018-2019 |
Mechanical Systems I - Recitation |
0 |
Fall 2017-2018 |
Mechanical Systems I - Recitation |
0 |
Fall 2016-2017 |
Mechanical Systems I - Recitation |
0 |
Fall 2015-2016 |
Mechanical Systems I - Recitation |
0 |
Fall 2014-2015 |
Mechanical Systems I - Recitation |
0 |
Fall 2013-2014 |
Mechanical Systems I - Recitation |
0 |
Fall 2012-2013 |
Mechanical Systems I - Recitation |
0 |
Fall 2011-2012 |
Mechanical Systems I - Recitation |
0 |
Fall 2010-2011 |
Mechanical Systems I - Recitation |
0 |
Fall 2009-2010 |
Mechanical Systems I - Recitation |
0 |
Fall 2008-2009 |
Mechanical Systems I - Recitation |
0 |
Fall 2007-2008 |
Mechanical Systems I - Recitation |
0 |
Fall 2006-2007 |
Mechanical Systems I - Recitation |
0 |
Fall 2005-2006 |
Mechanical Systems I - Recitation |
0 |
Fall 2004-2005 |
Mechanical Systems I - Recitation |
0 |
Fall 2003-2004 |
Mechanical Systems I - Recitation |
0 |
Fall 2002-2003 |
Mechanical Systems I - Recitation |
0 |
Fall 2001-2002 |
Mechanical Systems I - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 301 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 302 Mechanical Systems II |
3 Credits |
This course deals with design and selection of mechanical
elements such as welded joints, bolts, bearings, spur
gears, shafts, brakes; alternative fatigue design methods
with consideration of creep, yielding, fracture; basics
of finite element analysis with emphasis on beam and plate
models.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Mechanical Systems II |
3 |
Spring 2022-2023 |
Mechanical Systems II |
3 |
Spring 2021-2022 |
Mechanical Systems II |
3 |
Spring 2020-2021 |
Mechanical Systems II |
3 |
Spring 2019-2020 |
Mechanical Systems II |
3 |
Spring 2018-2019 |
Mechanical Systems II |
3 |
Spring 2017-2018 |
Mechanical Systems II |
3 |
Spring 2016-2017 |
Mechanical Systems II |
3 |
Spring 2015-2016 |
Mechanical Systems II |
3 |
Spring 2014-2015 |
Mechanical Systems II |
3 |
Spring 2013-2014 |
Mechanical Systems II |
3 |
Spring 2012-2013 |
Mechanical Systems II |
3 |
Spring 2011-2012 |
Mechanical Systems II |
3 |
Spring 2010-2011 |
Mechanical Systems II |
3 |
Spring 2009-2010 |
Mechanical Systems II |
3 |
Spring 2008-2009 |
Mechanical Systems II |
3 |
Spring 2007-2008 |
Mechanical Systems II |
3 |
Spring 2006-2007 |
Mechanical Systems II |
3 |
Spring 2005-2006 |
Mechanical Systems II |
3 |
Spring 2004-2005 |
Mechanical Systems II |
3 |
Spring 2003-2004 |
Mechanical Systems II |
3 |
Spring 2002-2003 |
Mechanical Systems II |
3 |
Spring 2001-2002 |
Mechanical Systems II |
3 |
|
Prerequisite: __ |
Corequisite: ME 302L |
and ME 302R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 302L Mechanical Systems II - Lab. |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Mechanical Systems II - Lab. |
0 |
Spring 2022-2023 |
Mechanical Systems II - Lab. |
0 |
Spring 2021-2022 |
Mechanical Systems II - Lab. |
0 |
Spring 2020-2021 |
Mechanical Systems II - Lab. |
0 |
Spring 2017-2018 |
Mechanical Systems II - Lab. |
0 |
Spring 2016-2017 |
Mechanical Systems II - Lab. |
0 |
Spring 2015-2016 |
Mechanical Systems II - Lab. |
0 |
Spring 2014-2015 |
Mechanical Systems II - Lab. |
0 |
Spring 2013-2014 |
Mechanical Systems II - Lab. |
0 |
Spring 2012-2013 |
Mechanical Systems II - Lab. |
0 |
Spring 2011-2012 |
Mechanical Systems II - Lab. |
0 |
Spring 2010-2011 |
Mechanical Systems II - Lab. |
0 |
Spring 2009-2010 |
Mechanical Systems II - Lab. |
0 |
Spring 2008-2009 |
Mechanical Systems II - Lab. |
0 |
Spring 2007-2008 |
Mechanical Systems II - Lab. |
0 |
Spring 2006-2007 |
Mechanical Systems II - Lab. |
0 |
Spring 2005-2006 |
Mechanical Systems II - Lab. |
0 |
Spring 2004-2005 |
Mechanical Systems II - Lab. |
0 |
Spring 2003-2004 |
Mechanical Systems II - Lab. |
0 |
Spring 2001-2002 |
Mechanical Systems II - Lab. |
0 |
|
Prerequisite: __ |
Corequisite: ME 302 |
and ME 302R |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 302R Mechanical Systems II - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Mechanical Systems II - Recitation |
0 |
Spring 2022-2023 |
Mechanical Systems II - Recitation |
0 |
Spring 2021-2022 |
Mechanical Systems II - Recitation |
0 |
Spring 2020-2021 |
Mechanical Systems II - Recitation |
0 |
Spring 2019-2020 |
Mechanical Systems II - Recitation |
0 |
Spring 2018-2019 |
Mechanical Systems II - Recitation |
0 |
Spring 2017-2018 |
Mechanical Systems II - Recitation |
0 |
Spring 2016-2017 |
Mechanical Systems II - Recitation |
0 |
Spring 2015-2016 |
Mechanical Systems II - Recitation |
0 |
Spring 2014-2015 |
Mechanical Systems II - Recitation |
0 |
Spring 2013-2014 |
Mechanical Systems II - Recitation |
0 |
Spring 2012-2013 |
Mechanical Systems II - Recitation |
0 |
Spring 2011-2012 |
Mechanical Systems II - Recitation |
0 |
Spring 2010-2011 |
Mechanical Systems II - Recitation |
0 |
Spring 2009-2010 |
Mechanical Systems II - Recitation |
0 |
Spring 2008-2009 |
Mechanical Systems II - Recitation |
0 |
Spring 2007-2008 |
Mechanical Systems II - Recitation |
0 |
Spring 2006-2007 |
Mechanical Systems II - Recitation |
0 |
Spring 2005-2006 |
Mechanical Systems II - Recitation |
0 |
Spring 2004-2005 |
Mechanical Systems II - Recitation |
0 |
Spring 2003-2004 |
Mechanical Systems II - Recitation |
0 |
Spring 2002-2003 |
Mechanical Systems II - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 302 |
and ME 302L |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 303 Control System Design |
3 Credits |
This courses introduces fundamental approaches to control
system design. Specific topics include: cascade compensation
networks; design in frequency domain; design using the Root
Locus; systems with a prefilter; design of state variable
feedback systems; controllability; observability; pole
placement using state feedback; Ackermann's formula;
; limitations of state variable feedback ; state observers;
the design of robust control systems.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Control System Design |
3 |
Fall 2022-2023 |
Control System Design |
3 |
Fall 2021-2022 |
Control System Design |
3 |
Fall 2020-2021 |
Control System Design |
3 |
Fall 2019-2020 |
Control System Design |
3 |
Fall 2018-2019 |
Control System Design |
3 |
Fall 2017-2018 |
Control System Design |
3 |
Fall 2016-2017 |
Control System Design |
3 |
Fall 2015-2016 |
Control System Design |
3 |
Fall 2014-2015 |
Control System Design |
3 |
Fall 2013-2014 |
Control System Design |
3 |
Fall 2012-2013 |
Control System Design |
3 |
Fall 2011-2012 |
Control System Design |
3 |
Fall 2010-2011 |
Control System Design |
3 |
Fall 2009-2010 |
Control System Design |
3 |
Fall 2008-2009 |
Control System Design |
3 |
Fall 2007-2008 |
Control System Design |
3 |
Fall 2006-2007 |
Control System Design |
3 |
Fall 2005-2006 |
Control System Design |
3 |
Fall 2004-2005 |
Control System Design |
3 |
Fall 2003-2004 |
Control System Design |
3 |
Fall 2002-2003 |
Control System Design |
3 |
Fall 2001-2002 |
Control System Design |
3 |
|
Prerequisite: ENS 206 - Undergraduate - Min Grade D |
Corequisite: ME 303R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 303R Control System Design - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Control System Design - Recitation |
0 |
Fall 2022-2023 |
Control System Design - Recitation |
0 |
Fall 2021-2022 |
Control System Design - Recitation |
0 |
Fall 2020-2021 |
Control System Design - Recitation |
0 |
Fall 2019-2020 |
Control System Design - Recitation |
0 |
Fall 2018-2019 |
Control System Design - Recitation |
0 |
Fall 2017-2018 |
Control System Design - Recitation |
0 |
Fall 2016-2017 |
Control System Design - Recitation |
0 |
Fall 2015-2016 |
Control System Design - Recitation |
0 |
Fall 2014-2015 |
Control System Design - Recitation |
0 |
Fall 2013-2014 |
Control System Design - Recitation |
0 |
Fall 2012-2013 |
Control System Design - Recitation |
0 |
Fall 2011-2012 |
Control System Design - Recitation |
0 |
Fall 2010-2011 |
Control System Design - Recitation |
0 |
Fall 2009-2010 |
Control System Design - Recitation |
0 |
Fall 2008-2009 |
Control System Design - Recitation |
0 |
Fall 2007-2008 |
Control System Design - Recitation |
0 |
Fall 2006-2007 |
Control System Design - Recitation |
0 |
Fall 2005-2006 |
Control System Design - Recitation |
0 |
Fall 2004-2005 |
Control System Design - Recitation |
0 |
Fall 2003-2004 |
Control System Design - Recitation |
0 |
Fall 2002-2003 |
Control System Design - Recitation |
0 |
Fall 2001-2002 |
Control System Design - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 303 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 304 Motion Control Systems |
3 Credits |
Upon completion of this course students will be able to
deal with control design for the systems with plant
nonlinearities. The subjects will include: Lyapunov
stability (Lyapunov direct method, BIBO systems,
passivity); frequency methods (describing function,
limit cycles, small gain theorem); motion control (1
dof systems, typical nonlinearities, friction, backlash,
dead zone, systems with discontinuities); MIMO
systems (converters and machines, robotic
manipulators control, mobile robots, trajectory
tracking, obstacle avoidance).
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2022-2023 |
Motion Control Systems |
3 |
Spring 2016-2017 |
Motion Control Systems |
3 |
Spring 2015-2016 |
Motion Control Systems |
3 |
Spring 2013-2014 |
Motion Control Systems |
3 |
Spring 2012-2013 |
Motion Control Systems |
3 |
Spring 2011-2012 |
Motion Control Systems |
3 |
Spring 2010-2011 |
Motion Control Systems |
3 |
Spring 2009-2010 |
Motion Control Systems |
3 |
Spring 2008-2009 |
Motion Control Systems |
3 |
Spring 2006-2007 |
Motion Control Systems |
3 |
Spring 2005-2006 |
Motion Control Systems |
3 |
Spring 2004-2005 |
Motion Control Systems |
3 |
Spring 2003-2004 |
Motion Control Systems |
3 |
Spring 2002-2003 |
Motion Control Systems |
3 |
|
Prerequisite: __ |
Corequisite: ME 304L |
and ME 304R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 304L Motion Control Systems Lab |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2022-2023 |
Motion Control Systems Lab |
0 |
Spring 2016-2017 |
Motion Control Systems Lab |
0 |
Spring 2015-2016 |
Motion Control Systems Lab |
0 |
Spring 2013-2014 |
Motion Control Systems Lab |
0 |
Spring 2012-2013 |
Motion Control Systems Lab |
0 |
Spring 2011-2012 |
Motion Control Systems Lab |
0 |
Spring 2010-2011 |
Motion Control Systems Lab |
0 |
Spring 2009-2010 |
Motion Control Systems Lab |
0 |
Spring 2008-2009 |
Motion Control Systems Lab |
0 |
Spring 2006-2007 |
Motion Control Systems Lab |
0 |
Spring 2005-2006 |
Motion Control Systems Lab |
0 |
Spring 2004-2005 |
Motion Control Systems Lab |
0 |
|
Prerequisite: __ |
Corequisite: ME 304 |
and ME 304R |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 304R Motion Control Systems - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2022-2023 |
Motion Control Systems - Recitation |
0 |
Spring 2016-2017 |
Motion Control Systems - Recitation |
0 |
Spring 2015-2016 |
Motion Control Systems - Recitation |
0 |
Spring 2013-2014 |
Motion Control Systems - Recitation |
0 |
Spring 2012-2013 |
Motion Control Systems - Recitation |
0 |
Spring 2011-2012 |
Motion Control Systems - Recitation |
0 |
Spring 2010-2011 |
Motion Control Systems - Recitation |
0 |
Spring 2009-2010 |
Motion Control Systems - Recitation |
0 |
Spring 2008-2009 |
Motion Control Systems - Recitation |
0 |
Spring 2006-2007 |
Motion Control Systems - Recitation |
0 |
Spring 2005-2006 |
Motion Control Systems - Recitation |
0 |
Spring 2004-2005 |
Motion Control Systems - Recitation |
0 |
Spring 2003-2004 |
Motion Control Systems - Recitation |
0 |
Spring 2002-2003 |
Motion Control Systems - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 304 |
and ME 304L |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 305 Power Electronics |
3 Credits |
This course deals with application of power semiconductor
devices to the efficient conversion of electrical energy.
Specific topics include circuit analysis, signal analysis
and energy concepts in the power electronics systems;
semiconductor switching devices (IGBTs, Thyristors, Diods
etc.); topologies and design of switching
power converters (AC-DC, DC-DC and DC-AC); control of
switching power converters; application examples and case
study.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Power Electronics |
3 |
Spring 2022-2023 |
Power Electronics |
3 |
Spring 2021-2022 |
Power Electronics |
3 |
Spring 2020-2021 |
Power Electronics |
3 |
Spring 2019-2020 |
Power Electronics |
3 |
Spring 2018-2019 |
Power Electronics |
3 |
Spring 2017-2018 |
Power Electronics |
3 |
Spring 2016-2017 |
Power Electronics |
3 |
Spring 2015-2016 |
Power Electronics |
3 |
Fall 2014-2015 |
Power Electronics |
3 |
Fall 2012-2013 |
Power Electronics |
3 |
Fall 2011-2012 |
Power Electronics |
3 |
Fall 2010-2011 |
Power Electronics |
3 |
Fall 2009-2010 |
Power Electronics |
3 |
Fall 2007-2008 |
Power Electronics |
3 |
Fall 2006-2007 |
Power Electronics |
3 |
Fall 2004-2005 |
Power Electronics |
3 |
Fall 2003-2004 |
Power Electronics |
3 |
Fall 2002-2003 |
Power Electronics |
3 |
Fall 2001-2002 |
Power Electronics |
3 |
|
Prerequisite: __ |
Corequisite: ME 305L |
and ME 305R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 305L Power Electronics - Lab |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Power Electronics - Lab |
0 |
Spring 2022-2023 |
Power Electronics - Lab |
0 |
Spring 2021-2022 |
Power Electronics - Lab |
0 |
Spring 2020-2021 |
Power Electronics - Lab |
0 |
Spring 2019-2020 |
Power Electronics - Lab |
0 |
Spring 2018-2019 |
Power Electronics - Lab |
0 |
Spring 2017-2018 |
Power Electronics - Lab |
0 |
Spring 2016-2017 |
Power Electronics - Lab |
0 |
Spring 2015-2016 |
Power Electronics - Lab |
0 |
Fall 2014-2015 |
Power Electronics - Lab |
0 |
Fall 2012-2013 |
Power Electronics - Lab |
0 |
Fall 2011-2012 |
Power Electronics - Lab |
0 |
Fall 2010-2011 |
Power Electronics - Lab |
0 |
Fall 2009-2010 |
Power Electronics - Lab |
0 |
Fall 2007-2008 |
Power Electronics - Lab |
0 |
Fall 2006-2007 |
Power Electronics - Lab |
0 |
Fall 2004-2005 |
Power Electronics - Lab |
0 |
|
Prerequisite: __ |
Corequisite: ME 305 |
and ME 305R |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 305R Power Electronics - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2014-2015 |
Power Electronics - Recitation |
0 |
Fall 2012-2013 |
Power Electronics - Recitation |
0 |
Fall 2011-2012 |
Power Electronics - Recitation |
0 |
Fall 2010-2011 |
Power Electronics - Recitation |
0 |
Fall 2009-2010 |
Power Electronics - Recitation |
0 |
Fall 2007-2008 |
Power Electronics - Recitation |
0 |
Fall 2006-2007 |
Power Electronics - Recitation |
0 |
Fall 2004-2005 |
Power Electronics - Recitation |
0 |
Fall 2003-2004 |
Power Electronics - Recitation |
0 |
Fall 2002-2003 |
Power Electronics - Recitation |
0 |
Fall 2001-2002 |
Power Electronics - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 305 |
and ME 305L |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 307 Fluid Dynamics |
3 Credits |
This course will cover basic and applied fluid mechanics.
Specific topics include fluid properties, statics,
kinematics, and dynamics: conservation of mass, momentum,
and energy in integral and differential equation form;
hydrodynamics; real fluids, laminar and turbulent flows;
boundary layer model and approximate analysis;
measurement methods in fluid flow.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Fluid Dynamics |
3 |
Fall 2022-2023 |
Fluid Dynamics |
3 |
Fall 2021-2022 |
Fluid Dynamics |
3 |
Fall 2020-2021 |
Fluid Dynamics |
3 |
Fall 2019-2020 |
Fluid Dynamics |
3 |
Fall 2018-2019 |
Fluid Dynamics |
3 |
Fall 2017-2018 |
Fluid Dynamics |
3 |
Fall 2016-2017 |
Fluid Dynamics |
3 |
Fall 2015-2016 |
Fluid Dynamics |
3 |
Fall 2014-2015 |
Fluid Dynamics |
3 |
Fall 2013-2014 |
Fluid Dynamics |
3 |
Fall 2012-2013 |
Fluid Dynamics |
3 |
Fall 2011-2012 |
Fluid Dynamics |
3 |
Fall 2010-2011 |
Fluid Dynamics |
3 |
Fall 2009-2010 |
Fluid Dynamics |
3 |
Fall 2008-2009 |
Fluid Dynamics |
3 |
Fall 2007-2008 |
Fluid Dynamics |
3 |
Fall 2006-2007 |
Fluid Dynamics |
3 |
Spring 2005-2006 |
Fluid Dynamics |
3 |
Fall 2004-2005 |
Fluid Dynamics |
3 |
|
Prerequisite: NS 101 - Undergraduate - Min Grade D |
and MATH 102 - Undergraduate - Min Grade D |
Corequisite: ME 307R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 307R Fluid Dynamics - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Fluid Dynamics - Recitation |
0 |
Fall 2022-2023 |
Fluid Dynamics - Recitation |
0 |
Fall 2021-2022 |
Fluid Dynamics - Recitation |
0 |
Fall 2020-2021 |
Fluid Dynamics - Recitation |
0 |
Fall 2019-2020 |
Fluid Dynamics - Recitation |
0 |
Fall 2018-2019 |
Fluid Dynamics - Recitation |
0 |
Fall 2017-2018 |
Fluid Dynamics - Recitation |
0 |
Fall 2016-2017 |
Fluid Dynamics - Recitation |
0 |
Fall 2015-2016 |
Fluid Dynamics - Recitation |
0 |
Fall 2014-2015 |
Fluid Dynamics - Recitation |
0 |
Fall 2013-2014 |
Fluid Dynamics - Recitation |
0 |
Fall 2012-2013 |
Fluid Dynamics - Recitation |
0 |
Fall 2011-2012 |
Fluid Dynamics - Recitation |
0 |
Fall 2010-2011 |
Fluid Dynamics - Recitation |
0 |
Fall 2009-2010 |
Fluid Dynamics - Recitation |
0 |
Fall 2008-2009 |
Fluid Dynamics - Recitation |
0 |
Fall 2007-2008 |
Fluid Dynamics - Recitation |
0 |
Fall 2006-2007 |
Fluid Dynamics - Recitation |
0 |
Spring 2005-2006 |
Fluid Dynamics - Recitation |
0 |
Fall 2004-2005 |
Fluid Dynamics - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 307 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 308 Industrial Control |
3 Credits |
This is an course that covers industrial control systems.
The specific topics include: control systems architectures;
transducers and actuators; communications in industrial
control systems - industrial LANs; sequential control
- programmable logic controllers; direct digital control and
supervisory control; structures of SCADA
systems; case studies.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Industrial Control |
3 |
Spring 2022-2023 |
Industrial Control |
3 |
Fall 2022-2023 |
Industrial Control |
3 |
Spring 2021-2022 |
Industrial Control |
3 |
Fall 2021-2022 |
Industrial Control |
3 |
Spring 2020-2021 |
Industrial Control |
3 |
Fall 2020-2021 |
Industrial Control |
3 |
Spring 2019-2020 |
Industrial Control |
3 |
Fall 2019-2020 |
Industrial Control |
3 |
Spring 2018-2019 |
Industrial Control |
3 |
Fall 2018-2019 |
Industrial Control |
3 |
Spring 2017-2018 |
Industrial Control |
3 |
Fall 2017-2018 |
Industrial Control |
3 |
Spring 2016-2017 |
Industrial Control |
3 |
Fall 2016-2017 |
Industrial Control |
3 |
Spring 2015-2016 |
Industrial Control |
3 |
Fall 2015-2016 |
Industrial Control |
3 |
Spring 2014-2015 |
Industrial Control |
3 |
Fall 2014-2015 |
Industrial Control |
3 |
Fall 2013-2014 |
Industrial Control |
3 |
Spring 2012-2013 |
Industrial Control |
3 |
Fall 2012-2013 |
Industrial Control |
3 |
Spring 2011-2012 |
Industrial Control |
3 |
Fall 2011-2012 |
Industrial Control |
3 |
Spring 2010-2011 |
Industrial Control |
3 |
Fall 2010-2011 |
Industrial Control |
3 |
Spring 2009-2010 |
Industrial Control |
3 |
Fall 2009-2010 |
Industrial Control |
3 |
Spring 2008-2009 |
Industrial Control |
3 |
Fall 2008-2009 |
Industrial Control |
3 |
Spring 2007-2008 |
Industrial Control |
3 |
Fall 2007-2008 |
Industrial Control |
3 |
Spring 2006-2007 |
Industrial Control |
3 |
Spring 2005-2006 |
Industrial Control |
3 |
Spring 2004-2005 |
Industrial Control |
3 |
Spring 2003-2004 |
Industrial Control |
3 |
Spring 2002-2003 |
Industrial Control |
3 |
Spring 2001-2002 |
Industrial Control |
3 |
|
Prerequisite: __ |
Corequisite: ME 308L |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 308L Industrial Control-Lab |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Industrial Control-Lab |
0 |
Spring 2022-2023 |
Industrial Control-Lab |
0 |
Fall 2022-2023 |
Industrial Control-Lab |
0 |
Spring 2021-2022 |
Industrial Control-Lab |
0 |
Fall 2021-2022 |
Industrial Control-Lab |
0 |
Spring 2020-2021 |
Industrial Control-Lab |
0 |
Fall 2020-2021 |
Industrial Control-Lab |
0 |
Spring 2019-2020 |
Industrial Control-Lab |
0 |
Fall 2019-2020 |
Industrial Control-Lab |
0 |
Spring 2018-2019 |
Industrial Control-Lab |
0 |
Fall 2018-2019 |
Industrial Control-Lab |
0 |
Spring 2017-2018 |
Industrial Control-Lab |
0 |
Fall 2017-2018 |
Industrial Control-Lab |
0 |
Spring 2016-2017 |
Industrial Control-Lab |
0 |
Fall 2016-2017 |
Industrial Control-Lab |
0 |
Spring 2015-2016 |
Industrial Control-Lab |
0 |
Fall 2015-2016 |
Industrial Control-Lab |
0 |
Spring 2014-2015 |
Industrial Control-Lab |
0 |
Fall 2014-2015 |
Industrial Control-Lab |
0 |
Fall 2013-2014 |
Industrial Control-Lab |
0 |
Spring 2012-2013 |
Industrial Control-Lab |
0 |
Fall 2012-2013 |
Industrial Control-Lab |
0 |
Spring 2011-2012 |
Industrial Control-Lab |
0 |
Fall 2011-2012 |
Industrial Control-Lab |
0 |
Spring 2010-2011 |
Industrial Control-Lab |
0 |
Fall 2010-2011 |
Industrial Control-Lab |
0 |
Spring 2009-2010 |
Industrial Control-Lab |
0 |
Fall 2009-2010 |
Industrial Control-Lab |
0 |
Spring 2008-2009 |
Industrial Control-Lab |
0 |
Fall 2008-2009 |
Industrial Control-Lab |
0 |
Spring 2007-2008 |
Industrial Control-Lab |
0 |
Fall 2007-2008 |
Industrial Control-Lab |
0 |
Spring 2006-2007 |
Industrial Control-Lab |
0 |
|
Prerequisite: __ |
Corequisite: ME 308 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 309 Heat and Mass Transfer |
3 Credits |
The topics are: Modes of heat transfer, energy
equation, conduction, resistances, fins, lumped
capacity, transient conduction, introduction to
convection, properties of fluids, dimensional analysis,
fluid statics, stress in fluids, conservation equations,
laminar boundary layers, internal flows, external flows,
natural convection, condensation, introduction to mass
transfer, species conservation, evaporative cooling,
introduction to radiation heat transfer, black bodies,
gray body networks, spectral surfaces, solar radiation.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Heat and Mass Transfer |
3 |
Spring 2022-2023 |
Heat and Mass Transfer |
3 |
Spring 2021-2022 |
Heat and Mass Transfer |
3 |
Spring 2020-2021 |
Heat and Mass Transfer |
3 |
Spring 2019-2020 |
Heat and Mass Transfer |
3 |
Spring 2018-2019 |
Heat and Mass Transfer |
3 |
Spring 2017-2018 |
Heat and Mass Transfer |
3 |
Spring 2016-2017 |
Heat and Mass Transfer |
3 |
Spring 2014-2015 |
Heat and Mass Transfer |
3 |
Spring 2013-2014 |
Heat and Mass Transfer |
3 |
Spring 2012-2013 |
Heat and Mass Transfer |
3 |
Spring 2011-2012 |
Heat and Mass Transfer |
3 |
Spring 2010-2011 |
Heat and Mass Transfer |
3 |
Spring 2009-2010 |
Heat and Mass Transfer |
3 |
Spring 2008-2009 |
Heat and Mass Transfer |
3 |
Spring 2007-2008 |
Heat and Mass Transfer |
3 |
Spring 2006-2007 |
Heat and Mass Transfer |
3 |
Fall 2005-2006 |
Heat and Mass Transfer |
3 |
Fall 2003-2004 |
Heat and Mass Transfer |
3 |
Fall 2002-2003 |
Heat and Mass Transfer |
3 |
|
Prerequisite: ME 307 - Undergraduate - Min Grade D |
Corequisite: ME 309R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 309R Heat and Mass Transfer - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2022-2023 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2021-2022 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2020-2021 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2019-2020 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2018-2019 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2017-2018 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2016-2017 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2014-2015 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2013-2014 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2012-2013 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2011-2012 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2010-2011 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2009-2010 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2008-2009 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2007-2008 |
Heat and Mass Transfer - Recitation |
0 |
Spring 2006-2007 |
Heat and Mass Transfer - Recitation |
0 |
Fall 2005-2006 |
Heat and Mass Transfer - Recitation |
0 |
Fall 2003-2004 |
Heat and Mass Transfer - Recitation |
0 |
Fall 2002-2003 |
Heat and Mass Transfer - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 309 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 312 Analysis and Synthesis of Mechanisms |
3 Credits |
This course is designed to equip students with
fundamental theories and methodologies that are used
in kinematic and dynamic analysis, and synthesis of
mechanisms commonly encountered in machine
design. Covered topics include: Analytical, graphical and
computational techniques for displacement, velocity,
and acceleration analyses; static and dynamic approaches
for force analysis; kinematics and dynamics of
cam-follower, screw, belt/chain drive mechanisms
and gear trains; mechanism design process; graphical,
analytical, and computational methods for
mechanism synthesis.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Analysis and Synthesis of Mechanisms |
3 |
Fall 2022-2023 |
Analysis and Synthesis of Mechanisms |
3 |
Fall 2021-2022 |
Analysis and Synthesis of Mechanisms |
3 |
Fall 2020-2021 |
Analysis and Synthesis of Mechanisms |
3 |
Spring 2017-2018 |
Analysis and Synthesis of Mechanisms |
3 |
Spring 2016-2017 |
Analysis and Synthesis of Mechanisms |
3 |
Fall 2015-2016 |
Analysis and Synthesis of Mechanisms |
3 |
Fall 2014-2015 |
Analysis and Synthesis of Mechanisms |
3 |
Spring 2012-2013 |
Analysis and Synthesis of Mechanisms |
3 |
Spring 2010-2011 |
Analysis and Synthesis of Mechanisms |
3 |
Spring 2009-2010 |
Analysis and Synthesis of Mechanisms |
3 |
Spring 2008-2009 |
Analysis and Synthesis of Mechanisms |
3 |
Spring 2007-2008 |
Analysis and Synthesis of Mechanisms |
3 |
Spring 2006-2007 |
Analysis and Synthesis of Mechanisms |
3 |
|
Prerequisite: ENS 204 - Undergraduate - Min Grade D |
Corequisite: ME 312R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 312R Analysis and Synthesis of Mechanisms-Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Fall 2022-2023 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Fall 2021-2022 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Fall 2020-2021 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Spring 2017-2018 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Spring 2016-2017 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Fall 2015-2016 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Fall 2014-2015 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Spring 2012-2013 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Spring 2010-2011 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Spring 2009-2010 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Spring 2008-2009 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Spring 2007-2008 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
Spring 2006-2007 |
Analysis and Synthesis of Mechanisms-Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 312 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 395 Internship Project |
0 Credit |
All ME FENS students are required to complete an
internship project (ME 395) with a minimum duration
of 8 weeks after 3rd year and to have a satisfactory
(S) standing so as to receive their BSc degrees. The
main objectives of the internship project are (i) to
give the students a chance to gain first-hand working
experience in an industrial setting, (ii) to enhance
their technical and communications skills, (iii) to
enable them to interact with engineers and technicians
effectively. At the same time, the internship projects
help the students' professional development. Students
determine their internship companies/institutions
based on their interests and programs they are
enrolled in. At the end of the project, students are
required to prepare and submit a final project report
and make a presentation. Students have to be
enrolled in a ME Diploma Program in order to register
for this course. See the Internship Project Guideline for
further details.
|
Last Offered Terms |
Course Name |
SU Credit |
Summer 2023-2024 |
Internship Project |
0 |
Spring 2023-2024 |
Internship Project |
0 |
Fall 2023-2024 |
Internship Project |
0 |
Summer 2022-2023 |
Internship Project |
0 |
Fall 2022-2023 |
Internship Project |
0 |
Summer 2021-2022 |
Internship Project |
0 |
Spring 2021-2022 |
Internship Project |
0 |
Fall 2021-2022 |
Internship Project |
0 |
Summer 2020-2021 |
Summer Project (PROJ302) |
0 |
Spring 2020-2021 |
Summer Project (PROJ302) |
0 |
Fall 2020-2021 |
Summer Project (PROJ302) |
0 |
Summer 2019-2020 |
Summer Project (PROJ302) |
0 |
Summer 2018-2019 |
Summer Project (PROJ302) |
0 |
Summer 2017-2018 |
Summer Project (PROJ302) |
0 |
Summer 2016-2017 |
Summer Project (PROJ302) |
0 |
Summer 2015-2016 |
Summer Project (PROJ302) |
0 |
Summer 2014-2015 |
Summer Project (PROJ302) |
0 |
Summer 2013-2014 |
Summer Project (PROJ302) |
0 |
Summer 2012-2013 |
Summer Project (PROJ302) |
0 |
Summer 2011-2012 |
Summer Project (PROJ302) |
0 |
Summer 2010-2011 |
Summer Project (PROJ302) |
0 |
Summer 2009-2010 |
Summer Project (PROJ302) |
0 |
Summer 2008-2009 |
Summer Project (PROJ302) |
0 |
Summer 2007-2008 |
Summer Project (PROJ302) |
0 |
Summer 2006-2007 |
Summer Project (PROJ302) |
0 |
Summer 2005-2006 |
Summer Project (PROJ302) |
0 |
Summer 2004-2005 |
Summer Project (PROJ302) |
0 |
Summer 2003-2004 |
Summer Project (PROJ302) |
0 |
Summer 2002-2003 |
Summer Project (PROJ302) |
0 |
Summer 2001-2002 |
Summer Project (PROJ302) |
0 |
|
Prerequisite: (PROJ 102 - Undergraduate - Min Grade D) |
or (PROJ 201 - Undergraduate - Min Grade D) |
Corequisite: __ |
ECTS Credit: 5 ECTS (2 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 402 Plasmonics |
3 Credits |
This course will cover the fundamentals of plasmonics
and surface plasmons. This class will
provide the basic knowledge for understanding
and manipulating surface plasmons and localized plasmons.
In addition, emerging applications involving
various plasmonics systems will be discussed. Surface
plasmons on a single interface, thin film plasmons,
localized plasmons on nanoparticles, and plasmonic
nano-antennas will be discussed. This course is intended
to teach students the principals of plasmonics
encountered in different applications. Therefore, this
course can be of interest for students in many
departments. In addition to homework and exams,
an individual project will be assigned to students to
apply their new knowledge of plasmonic systems.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2021-2022 |
Plasmonics |
3 |
Fall 2020-2021 |
Plasmonics |
3 |
Fall 2019-2020 |
Plasmonics |
3 |
Fall 2018-2019 |
Plasmonics |
3 |
Fall 2017-2018 |
Plasmonics |
3 |
Fall 2016-2017 |
Plasmonics |
3 |
Fall 2015-2016 |
Plasmonics |
3 |
Fall 2014-2015 |
Plasmonics |
3 |
Fall 2013-2014 |
Plasmonics |
3 |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 403 Introduction to Robotics |
3 Credits |
This course is intended to present fundamentals of robotic
systems. Specific subjects include: position and orientation
in 3-D space; manipulator forward and inverse kinematics;
velocities and forces - Jacobian's relations;
manipulator dynamics; stiffness and compliance control;
trajectory control; mobile robots - selected topics.
A team project will emphasize the variety of robotics system
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Robotics |
3 |
Spring 2022-2023 |
Introduction to Robotics |
3 |
Spring 2021-2022 |
Introduction to Robotics |
3 |
Spring 2020-2021 |
Introduction to Robotics |
3 |
Spring 2019-2020 |
Introduction to Robotics |
3 |
Fall 2018-2019 |
Introduction to Robotics |
3 |
Fall 2017-2018 |
Introduction to Robotics |
3 |
Fall 2016-2017 |
Introduction to Robotics |
3 |
Spring 2015-2016 |
Introduction to Robotics |
3 |
Spring 2014-2015 |
Introduction to Robotics |
3 |
Fall 2013-2014 |
Introduction to Robotics |
3 |
Fall 2012-2013 |
Introduction to Robotics |
3 |
Fall 2011-2012 |
Introduction to Robotics |
3 |
Fall 2010-2011 |
Introduction to Robotics |
3 |
Fall 2009-2010 |
Introduction to Robotics |
3 |
Fall 2008-2009 |
Introduction to Robotics |
3 |
Fall 2007-2008 |
Introduction to Robotics |
3 |
Fall 2006-2007 |
Introduction to Robotics |
3 |
Fall 2005-2006 |
Introduction to Robotics |
3 |
Fall 2004-2005 |
Introduction to Robotics |
3 |
Fall 2003-2004 |
Introduction to Robotics |
3 |
Fall 2002-2003 |
Introduction to Robotics |
3 |
|
Prerequisite: ENS 206 - Undergraduate - Min Grade D |
Corequisite: ME 403L |
and ME 403R |
ECTS Credit: 7 ECTS (7 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 403L Introduction to Robotics - Lab |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Robotics - Lab |
0 |
Spring 2022-2023 |
Introduction to Robotics - Lab |
0 |
Spring 2021-2022 |
Introduction to Robotics - Lab |
0 |
Spring 2020-2021 |
Introduction to Robotics - Lab |
0 |
Spring 2019-2020 |
Introduction to Robotics - Lab |
0 |
Fall 2018-2019 |
Introduction to Robotics - Lab |
0 |
Fall 2017-2018 |
Introduction to Robotics - Lab |
0 |
Fall 2016-2017 |
Introduction to Robotics - Lab |
0 |
Spring 2015-2016 |
Introduction to Robotics - Lab |
0 |
Spring 2014-2015 |
Introduction to Robotics - Lab |
0 |
Fall 2012-2013 |
Introduction to Robotics - Lab |
0 |
Fall 2009-2010 |
Introduction to Robotics - Lab |
0 |
Fall 2004-2005 |
Introduction to Robotics - Lab |
0 |
Fall 2003-2004 |
Introduction to Robotics - Lab |
0 |
|
Prerequisite: __ |
Corequisite: ME 403 |
and ME 403R |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 403R Introduction to Robotics - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Robotics - Recitation |
0 |
Spring 2022-2023 |
Introduction to Robotics - Recitation |
0 |
Spring 2021-2022 |
Introduction to Robotics - Recitation |
0 |
Spring 2020-2021 |
Introduction to Robotics - Recitation |
0 |
Spring 2019-2020 |
Introduction to Robotics - Recitation |
0 |
Fall 2018-2019 |
Introduction to Robotics - Recitation |
0 |
Fall 2017-2018 |
Introduction to Robotics - Recitation |
0 |
Fall 2016-2017 |
Introduction to Robotics - Recitation |
0 |
Spring 2015-2016 |
Introduction to Robotics - Recitation |
0 |
Spring 2014-2015 |
Introduction to Robotics - Recitation |
0 |
Fall 2013-2014 |
Introduction to Robotics - Recitation |
0 |
Fall 2012-2013 |
Introduction to Robotics - Recitation |
0 |
Fall 2011-2012 |
Introduction to Robotics - Recitation |
0 |
Fall 2010-2011 |
Introduction to Robotics - Recitation |
0 |
Fall 2009-2010 |
Introduction to Robotics - Recitation |
0 |
Fall 2008-2009 |
Introduction to Robotics - Recitation |
0 |
Fall 2007-2008 |
Introduction to Robotics - Recitation |
0 |
Fall 2006-2007 |
Introduction to Robotics - Recitation |
0 |
Fall 2005-2006 |
Introduction to Robotics - Recitation |
0 |
Fall 2004-2005 |
Introduction to Robotics - Recitation |
0 |
Fall 2002-2003 |
Introduction to Robotics - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 403 |
and ME 403L |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 405 Mechanical Vibrations |
3 Credits |
• Basic concepts of vibrations
• Analysis of single degree of freedom (SDOF)
systems by using complex vector representation
• Coulomb and structural damping
• Vibration measurement, vibration measuring devices
and vibration criteria
• Frequency Response Functions (FRF)
and system identification
• Response of SDOF to periodic excitation
• Response of SDOF to non-periodic excitation
• Free vibration of multi degree of freedom (MDOF)
systems
• Harmonic response of multi degree of freedom (MDOF)
systems
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Mechanical Vibrations |
3 |
Fall 2022-2023 |
Mechanical Vibrations |
3 |
Fall 2021-2022 |
Mechanical Vibrations |
3 |
Spring 2020-2021 |
Mechanical Vibrations |
3 |
Fall 2019-2020 |
Mechanical Vibrations |
3 |
Fall 2018-2019 |
Mechanical Vibrations |
3 |
Fall 2017-2018 |
Mechanical Vibrations |
3 |
Fall 2016-2017 |
Mechanical Vibrations |
3 |
Fall 2003-2004 |
Mechanical Vibrations |
3 |
|
Prerequisite: ENS 214 - Undergraduate - Min Grade D |
Corequisite: ME 405R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 405R Mechanical Vibrations Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2019-2020 |
Mechanical Vibrations Recitation |
0 |
Fall 2018-2019 |
Mechanical Vibrations Recitation |
0 |
Fall 2003-2004 |
Mechanical Vibrations - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 405 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 407 Embedded Systems |
3 Credits |
The Embedded Systems course will provide the
fundamental knowledge about embedded systems
design methods and technology. Integration of the
measurement and actuators with embedded controller,
the implementation of the control algorithms and
interfacing the embedded controllers to LAN. A
semester long project will support the course.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2018-2019 |
Embedded Systems |
3 |
Spring 2017-2018 |
Embedded Systems |
3 |
Fall 2016-2017 |
Embedded Systems |
3 |
Fall 2015-2016 |
Embedded Systems |
3 |
Fall 2013-2014 |
Embedded Systems |
3 |
Fall 2012-2013 |
Embedded Systems |
3 |
Fall 2011-2012 |
Embedded Systems |
3 |
Fall 2010-2011 |
Embedded Systems |
3 |
Fall 2009-2010 |
Embedded Systems |
3 |
Fall 2008-2009 |
Embedded Systems |
3 |
Fall 2007-2008 |
Embedded Systems |
3 |
Fall 2006-2007 |
Embedded Systems |
3 |
Fall 2005-2006 |
Embedded Systems |
3 |
Fall 2004-2005 |
Embedded Systems |
3 |
Fall 2003-2004 |
Embedded Systems |
3 |
Fall 2002-2003 |
Embedded Systems |
3 |
|
Prerequisite: __ |
Corequisite: ME 407L |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 407L Embedded Systems - Lab |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2018-2019 |
Embedded Systems - Lab |
0 |
Spring 2017-2018 |
Embedded Systems - Lab |
0 |
Fall 2016-2017 |
Embedded Systems - Lab |
0 |
Fall 2015-2016 |
Embedded Systems - Lab |
0 |
Fall 2013-2014 |
Embedded Systems - Lab |
0 |
Fall 2012-2013 |
Embedded Systems - Lab |
0 |
Fall 2011-2012 |
Embedded Systems - Lab |
0 |
Fall 2010-2011 |
Embedded Systems - Lab |
0 |
Fall 2009-2010 |
Embedded Systems - Lab |
0 |
Fall 2008-2009 |
Embedded Systems - Lab |
0 |
Fall 2007-2008 |
Embedded Systems - Lab |
0 |
Fall 2006-2007 |
Embedded Systems - Lab |
0 |
Fall 2005-2006 |
Embedded Systems - Lab |
0 |
Fall 2004-2005 |
Embedded Systems - Lab |
0 |
Fall 2002-2003 |
Embedded Systems - Lab |
0 |
|
Prerequisite: __ |
Corequisite: ME 407 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 408 Mechatronics System Design |
3 Credits |
This course introduces mechatronics approach to smart
product design. Specific topics inludes: the nature
of mechatronics design; overview of mechatronic devices;
overview of the integrated systems design; mechatronics
product development strategy; design methods; case studies;
reverse engineering (disassembly and analysis of
commercially available mechatronic devices). The course
imparts knowledge that will enable students
to design a 'smart product' that meets market needs.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Mechatronics System Design |
3 |
Fall 2023-2024 |
Mechatronics System Design |
3 |
Spring 2022-2023 |
Mechatronics System Design |
3 |
Fall 2022-2023 |
Mechatronics System Design |
3 |
Spring 2021-2022 |
Mechatronics System Design |
3 |
Fall 2021-2022 |
Mechatronics System Design |
3 |
Spring 2020-2021 |
Mechatronics System Design |
3 |
Spring 2018-2019 |
Mechatronics System Design |
3 |
Spring 2017-2018 |
Mechatronics System Design |
3 |
Spring 2003-2004 |
Mechatronics System Design |
4 |
|
Prerequisite: (CS 201 - Undergraduate - Min Grade D |
and ENS 203 - Undergraduate - Min Grade D |
and ME 301 - Undergraduate - Min Grade D |
and ME 303 - Undergraduate - Min Grade D) |
Corequisite: ME 408L |
ECTS Credit: 6 ECTS (8 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 408L Mechatronics System Design Lab |
0 Credit |
Laboratory sessions will be based on simple demonstrations
and hands-on applications of mechatronic subsystem
modules and their working principles towards the
implementation of the assigned design project. Examples
include FEA simulations, specific actuators,
controllers and electronic components.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2020-2021 |
Mechatronics System Design Lab |
0 |
Spring 2018-2019 |
Mechatronics System Design Lab |
0 |
Spring 2017-2018 |
Mechatronics System Design Lab |
0 |
|
Prerequisite: __ |
Corequisite: ME 408 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 409 Foundations of Microsystems |
3 Credits |
This course deals with modeling micromechanical systems,
micromotion, and transport in the microscopic world.
Spacific topics include: micron and sub-micron positioning
technology; ultra precision; kinematics and dynamics of
micromotion; modeling microactuators and microsensors;
micro-flows and heat transfer; MEMS CAD systems.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2022-2023 |
Foundations of Microsystems |
3 |
Fall 2019-2020 |
Foundations of Microsystems |
3 |
Spring 2017-2018 |
Foundations of Microsystems |
3 |
Fall 2016-2017 |
Foundations of Microsystems |
3 |
Fall 2015-2016 |
Foundations of Microsystems |
3 |
Fall 2014-2015 |
Foundations of Microsystems |
3 |
Fall 2013-2014 |
Foundations of Microsystems |
3 |
Fall 2012-2013 |
Foundations of Microsystems |
3 |
Fall 2011-2012 |
Foundations of Microsystems |
3 |
Fall 2010-2011 |
Foundations of Microsystems |
3 |
Fall 2009-2010 |
Foundations of Microsystems |
3 |
Fall 2008-2009 |
Foundations of Microsystems |
3 |
Fall 2007-2008 |
Foundations of Microsystems |
3 |
Fall 2005-2006 |
Foundations of Microsystems |
3 |
Fall 2004-2005 |
Foundations of Microsystems |
3 |
Fall 2003-2004 |
Microsystems Technologies |
3 |
|
Prerequisite: __ |
Corequisite: ME 409R |
ECTS Credit: 7 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 409R Foundations of Microsystems-Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2022-2023 |
Foundations of Microsystems-Recitation |
0 |
Fall 2019-2020 |
Foundations of Microsystems-Recitation |
0 |
Spring 2017-2018 |
Foundations of Microsystems-Recitation |
0 |
Fall 2016-2017 |
Foundations of Microsystems-Recitation |
0 |
Fall 2015-2016 |
Foundations of Microsystems-Recitation |
0 |
Fall 2014-2015 |
Foundations of Microsystems-Recitation |
0 |
Fall 2013-2014 |
Foundations of Microsystems-Recitation |
0 |
Fall 2012-2013 |
Foundations of Microsystems-Recitation |
0 |
Fall 2011-2012 |
Foundations of Microsystems-Recitation |
0 |
Fall 2010-2011 |
Foundations of Microsystems-Recitation |
0 |
Fall 2009-2010 |
Foundations of Microsystems-Recitation |
0 |
Fall 2008-2009 |
Foundations of Microsystems-Recitation |
0 |
Fall 2007-2008 |
Foundations of Microsystems-Recitation |
0 |
Fall 2005-2006 |
Foundations of Microsystems-Recitation |
0 |
Fall 2004-2005 |
Foundations of Microsystems-Recitation |
0 |
Fall 2003-2004 |
Microsystems Technologies-Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 409 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 412 Introduction to the Finite Element Method |
3 Credits |
The course emphasizes the fundamental concepts in finite
element analysis, and practical implementation of a working
program. The course is divided into two halves. The first
half is concentrated on the basic theoretical of the finite
element method. The second half will be focused on issues
concerning the implementation. Advanced topics will be
discussed if time permits. The methods studied in this
course are practical procedures that are employed
extensively in the mechanical, civil, ocean, aeronautical
and electrical industries. Increasingly, the methods are
used in computer-aided design.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2022-2023 |
Introduction to the Finite Element Method |
3 |
Spring 2020-2021 |
Introduction to the Finite Element Method |
3 |
Spring 2018-2019 |
Introduction to the Finite Element Method |
3 |
Spring 2017-2018 |
Introduction to the Finite Element Method |
3 |
Spring 2003-2004 |
Nonlinear Control Systems |
3 |
Spring 2002-2003 |
Nonlinear Control Systems |
3 |
|
Prerequisite: __ |
Corequisite: ME 412L |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 412L Introduction to the Finite Element Method Lab. |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
|
Prerequisite: __ |
Corequisite: ME 412 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 415 Computational Analysis and Simulation |
3 Credits |
Focus of the course is on the state-of-the-art
computational modeling techniques used in
disciplines such as structural mechanics, fluid
mechanics, heat transfer and electromagnetics.
Emphasis is on the numerical solution methods of
partial differential equations and their use
in computational analysis and simulations for engineering
design. There will be a number of case studies
and examples to enhance the lectures with examples.
Topics covered are: basic numerical methods for
root-finding, solution of linear system of equations
and ordinary-differential equations, finite-difference
solution of parabolic, elliptic and hyperbolic partial-
differential equations and finite-element solution
of elliptic PDEs such as Poisson equation in 1D.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Computational Analysis and Simulation |
3 |
Spring 2022-2023 |
Computational Analysis and Simulation |
3 |
Spring 2021-2022 |
Computational Analysis and Simulation |
3 |
Spring 2020-2021 |
Computational Analysis and Simulation |
3 |
Spring 2019-2020 |
Computational Analysis and Simulation |
3 |
Spring 2018-2019 |
Computational Analysis and Simulation |
3 |
Spring 2015-2016 |
Computational Analysis and Simulation |
3 |
Spring 2014-2015 |
Computational Analysis and Simulation |
3 |
Spring 2013-2014 |
Computational Analysis and Simulation |
3 |
Spring 2012-2013 |
Computational Analysis and Simulation |
3 |
Spring 2011-2012 |
Computational Analysis and Simulation |
3 |
Fall 2010-2011 |
Computational Analysis and Simulation |
3 |
|
Prerequisite: MATH 201 - Undergraduate - Min Grade D |
or MATH 202 - Undergraduate - Min Grade D |
Corequisite: ME 415R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 415R Computational Analysis and Simulation-Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Computational Analysis and Simulation-Recitation |
0 |
Spring 2022-2023 |
Computational Analysis and Simulation-Recitation |
0 |
Spring 2021-2022 |
Computational Analysis and Simulation-Recitation |
0 |
Spring 2020-2021 |
Computational Analysis and Simulation-Recitation |
0 |
Spring 2019-2020 |
Computational Analysis and Simulation-Recitation |
0 |
Spring 2018-2019 |
Computational Analysis and Simulation-Recitation |
0 |
Spring 2015-2016 |
Computational Analysis and Simulation-Recitation |
0 |
Spring 2014-2015 |
Computational Analysis and Simulation-Recitation |
0 |
Spring 2013-2014 |
Computational Analysis and Simulation-Recitation |
0 |
Spring 2012-2013 |
Computational Analysis and Simulation-Recitation |
0 |
Spring 2011-2012 |
Computational Analysis and Simulation-Recitation |
0 |
Fall 2010-2011 |
Computational Analysis and Simulation-Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 415 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 420 Renewable and Sustainable Energy Systems |
3 Credits |
Topics covered are fundamentals of the renewable
and sustainable energy systems technology,
thermo-economic analysis and the current research
trends in improving the energy production
from terrestrial water and air flows, solar
irradiation, nuclear fission and controlled plasma
for fusion, energy conversion alternatives such
as hydrogen fuel cells, small and large scale energy
storage such as electric batteries, thermal and
compressed-gas, and the current research on the
electric transmission grids and an introductory
economic analysis of the domestic electric use
in the future.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Renewable and Sustainable Energy Systems |
3 |
Spring 2022-2023 |
Renewable and Sustainable Energy Systems |
3 |
Spring 2021-2022 |
Renewable and Sustainable Energy Systems |
3 |
Spring 2020-2021 |
Renewable and Sustainable Energy Systems |
3 |
Spring 2019-2020 |
Renewable and Sustainable Energy Systems |
3 |
Spring 2018-2019 |
Renewable and Sustainable Energy Systems |
3 |
Spring 2017-2018 |
Renewable and Sustainable Energy Systems |
3 |
Spring 2015-2016 |
Renewable and Sustainable Energy Systems |
3 |
Spring 2013-2014 |
Renewable and Sustainable Energy Systems |
3 |
Spring 2012-2013 |
Renewable and Sustainable Energy Systems |
3 |
Fall 2011-2012 |
Renewable and Sustainable Energy Systems |
3 |
Spring 2010-2011 |
Renewable and Sustainable Energy Systems |
3 |
|
Prerequisite: ENS 207 - Undergraduate - Min Grade D |
or (ME 307 - Undergraduate - Min Grade D |
and ME 309 - Undergraduate - Min Grade D) |
or (ME 307 - Undergraduate - Min Grade D |
and ENS 202 - Undergraduate - Min Grade D) |
or (ME 309 - Undergraduate - Min Grade D |
and ENS 202 - Undergraduate - Min Grade D) |
Corequisite: ME 420R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 420R Renewable and Sustainable Energy Systems Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Renewable and Sustainable Energy Systems Recitation |
0 |
Spring 2022-2023 |
Renewable and Sustainable Energy Systems Recitation |
0 |
Spring 2021-2022 |
Renewable and Sustainable Energy Systems Recitation |
0 |
Spring 2020-2021 |
Renewable and Sustainable Energy Systems Recitation |
0 |
Spring 2019-2020 |
Renewable and Sustainable Energy Systems Recitation |
0 |
Spring 2018-2019 |
Renewable and Sustainable Energy Systems Recitation |
0 |
Spring 2017-2018 |
Renewable and Sustainable Energy Systems Recitation |
0 |
Spring 2015-2016 |
Renewable and Sustainable Energy Systems Recitation |
0 |
Spring 2013-2014 |
Renewable and Sustainable Energy Systems Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ME 420 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 425 Autonomous Mobile Robotics |
3 Credits |
The course covers fundamental problems of autonomous
mobile robotics including locomotion, reception,
localization, planning and navigation. In the context
of locomotion, legged, wheeled, flying and swimming
mobile robots will be discussed. In the
reception part, various sensors that are used
on mobile robots will be introduced and several sensor
fusion algorithms will be presented. Localization
problems will be tackled in a probabilistic framework
using Markov and Kalman Filtering techniques. Simultaneous
Localization and Mapping (SLAM) problem and its variations
will also be introduced and discussed. Finally
planning and navigation strategies will be covered.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Autonomous Mobile Robotics |
3 |
Fall 2022-2023 |
Autonomous Mobile Robotics |
3 |
Fall 2021-2022 |
Autonomous Mobile Robotics |
3 |
Fall 2020-2021 |
Autonomous Mobile Robotics |
3 |
Fall 2019-2020 |
Autonomous Mobile Robotics |
3 |
Spring 2018-2019 |
Autonomous Mobile Robotics |
3 |
Spring 2017-2018 |
Autonomous Mobile Robotics |
3 |
Spring 2015-2016 |
Autonomous Mobile Robotics |
3 |
Spring 2014-2015 |
Autonomous Mobile Robotics |
3 |
Spring 2013-2014 |
Autonomous Mobile Robotics |
3 |
Spring 2012-2013 |
Autonomous Mobile Robotics |
3 |
|
Prerequisite: ENS 206 - Undergraduate - Min Grade D |
or ENS 211 - Undergraduate - Min Grade D |
Corequisite: ME 425L |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 425L Autonomous Mobile Robotics Lab. |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Autonomous Mobile Robotics Lab. |
0 |
Fall 2022-2023 |
Autonomous Mobile Robotics Lab. |
0 |
Fall 2021-2022 |
Autonomous Mobile Robotics Lab. |
0 |
Fall 2020-2021 |
Autonomous Mobile Robotics Lab. |
0 |
Fall 2019-2020 |
Autonomous Mobile Robotics Lab. |
0 |
Spring 2018-2019 |
Autonomous Mobile Robotics Lab. |
0 |
Spring 2017-2018 |
Autonomous Mobile Robotics Lab. |
0 |
Spring 2015-2016 |
Autonomous Mobile Robotics Lab. |
0 |
Spring 2014-2015 |
Autonomous Mobile Robotics Lab. |
0 |
Spring 2013-2014 |
Autonomous Mobile Robotics Lab. |
0 |
|
Prerequisite: __ |
Corequisite: ME 425 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 435 Scaling in Engineering Systems |
3 Credits |
The course introduces the scaling laws for engineering
systems including multi-scale systems and
consists of different scales (nano-, micro-, or
macro-scales). When system modeling, design and
fabrication processes are being performed, scaling and
interaction of different scales become prominent.
This course covers the fundamental properties
of scales, design theories, modeling methods and
manufacturing issues with different applications.
Examples of engineering systems include micro
-/macro-robotics, micro-/macro-actuators,
MEMS, microfluidics, micromanipulators (AFM, microinjection
technologies), robotic surgery (da Vinci robots),
biosensors, MRI machines, and solar energy panels.
Students will master the materials through problem sets,
scientific discussions with experts from industry
or medicine, and will improve their project
presentation skills.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2022-2023 |
Scaling in Engineering Systems |
3 |
Fall 2021-2022 |
Scaling in Engineering Systems |
3 |
Fall 2020-2021 |
Scaling in Engineering Systems |
3 |
Fall 2019-2020 |
Scaling in Engineering Systems |
3 |
Fall 2018-2019 |
Scaling in Engineering Systems |
3 |
Fall 2017-2018 |
Scaling in Engineering Systems |
3 |
Fall 2016-2017 |
Scaling in Engineering Systems |
3 |
Spring 2015-2016 |
Scaling in Engineering Systems |
3 |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 437 Biomechatronics |
3 Credits |
-Introduction to biomechatronics (Motivation and
highlights of biomechatronic technologies),
-Human as a physiological system,
-Biological actuators,
-Biological sensors,
-Biological feedback mechanism,
-Brain and brain machine interfaces,
-Active and passive prosthetic limbs,
-Orthotics, Exoskeletons, Exomusculatures,
-Biocompatibility and biocompatible materials in
biomechatronics,
-Implants,
-Medical robotics,
-Diagnostic devices.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2022-2023 |
Biomechatronics |
3 |
Spring 2019-2020 |
Biomechatronics |
3 |
Fall 2018-2019 |
Biomechatronics |
3 |
Fall 2017-2018 |
Biomechatronics |
3 |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ME 441 Advanced Vehicle Systems |
3 Credits |
1. Introduction a. History
b. Introduction to different systems
c. Comparison to conventional vehicles, advantages
d. Current situation (technology, market, emission benefits)
2. Vehicle Dynamics and Performance Fundamentals, Modelling
a. Longitudinal Dynamics
b. Propulsion and Breaking
c. Handling d. Ride Comfort 3. Powertrains a. Components
b. Configurations i. Electric Vehicle
ii. Hybrid Electric Vehicles (series, parallel,
split configurations) c. Regenerative Braking
4. Batteries a. Basics/Fundamentals
b. Types, differences, advantages/disadvantages
c. Battery modeling d. Battery Management Systems
5. Internal Combustion Engines a. ICE fundamentals
b. Types c. Fuel Economy d. Emission control
6. Alternative Energy Sources a. Fuel Cells
i. Fundamentals ii. Types iii. Hydrogen Storage
b. Supercapacitors and Ultracapacitors
7. Electric Motor a. DC Motors b. Induction Motors
c. Switch Reluctance Motors d. Control Basics
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Advanced Vehicle Systems |
3 |
Spring 2022-2023 |
Advanced Vehicle Systems |
3 |
Spring 2021-2022 |
Advanced Vehicle Systems |
3 |
Spring 2020-2021 |
Advanced Vehicle Systems |
3 |
Spring 2018-2019 |
Advanced Vehicle Systems |
3 |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|