CDS 101/110a, Fall 2006 - Course Project: Difference between revisions

Revision as of 14:16, 24 October 2006

The following projects can be done as a course project for CDS 101/110. Projects marked as "DGC" are appropriate for use as a project in CS/EE/ME 75.

Active Projects

Lateral control in forward and reverse, with gain scheduling (DGC) - Design a controller that matains the lateral position of the vehicle when it is moving either forwards or backwards and schedules the gains based on speed. This requires a rederivation of the dynamics of the vehicle that model the motion when moving backwards and determining how to switch between forward and reverse motion. The specifications for the controller will be based on the needs of the 2007 Urban Challenge.

Team 1
Kenny Oslund (75)

Christine Perry

Mahi Pal
Team 2

Lane following (DGC) - Design a controller that uses information about the right and left lane boundaries to remain centered in the middle of the lane. The location of the left and right lane boundaries will eventually be given by a vision system, but for the course project simulated lane boundaries will be used.

Team 1
Chris Schantz (75)

Johnny Zhang (75)

Steve Gray (75)
Team 2
Mohamed Ali

Gustavo

Tom Duong (75 only)

Stopping at a line (DGC) - Design a controller that brings the vehicle to a stop within 1 meter of a stop line painted on the ground. The location of the stop line will be a combination of GPS data (when far from the stop line) and vision-based data (when near the stop line).

Team 1
Jessica Gonzalez (75)

Francisco Zabala (75)

Dominic Rizzo
Team 2
Sanjeev

MIke I

Harrison

Reactive obstacle avoidance (DGC) - Design a controller that uses direct information from a laser range finder (LADAR) to bring the vehicle to a stop and/or swerve to avoid a "pop-up" obstacle. For CS/EE/ME 75 students, this could be a good project for someone on the sensing team.

Team 1
Ghryn

Klimka

Chris Y
Team 2

Open Projects

Looking down a road (DGC) - Design a pointing system that can point a camera down a road to the left or right of a vehicle. The location of the road must be determined based on visual data (could be combined with a EE/CNS 148 project). For CS/EE/ME 75 students, this could be a good project for someone on the sensing team.

@@ Line 1: / Line 1: @@
 The following projects can be done as a course project for CDS 101/110.  Projects marked as "DGC" are appropriate for use as a project in CS/EE/ME 75.
-* '''Lateral control in forward and reverse''' (DGC) - Design a controller that matains the lateral position of the vehicle when it is moving either forwards or backwards.  This requires a rederivation of the dynamics of the vehicle that model the motion when moving backwards and determining how to switch between forward and reverse motion.  The specifications for the controller will be based on the needs of the 2007 Urban Challenge.
+== Active Projects ==
-* '''Gain scheduled controller''' (DGC) - Design a controller that schedules the gains based on the speed of the vehicle.  The specifications for the controller will be based on the needs of the 2007 Urban Challenge.
+* '''Lateral control in forward and reverse, with gain scheduling''' (DGC) - Design a controller that matains the lateral position of the vehicle when it is moving either forwards or backwards and schedules the gains based on speed.  This requires a rederivation of the dynamics of the vehicle that model the motion when moving backwards and determining how to switch between forward and reverse motion.  The specifications for the controller will be based on the needs of the 2007 Urban Challenge.
+<blockquote>
+{| width=100%
+|- valign=top
+| Team 1
+* Kenny Oslund (75)
+* Christine Perry
+* Mahi Pal
+| Team 2
+|}
+</blockquote>
 * '''Lane following''' (DGC) - Design a controller that uses information about the right and left lane boundaries to remain centered in the middle of the lane.  The location of the left and right lane boundaries will eventually be given by a vision system, but for the course project simulated lane boundaries will be used.
+<blockquote>
+{| width=100%
+|- valign=top
+| Team 1
+* Chris Schantz (75)
+* Johnny Zhang (75)
+* Steve Gray (75)
+| Team 2
+* Mohamed Ali
+* Gustavo
+* Tom Duong (75 only)
+|}
+</blockquote>
 * '''Stopping at a line''' (DGC) - Design a controller that brings the vehicle to a stop within 1 meter of a stop line painted on the ground.  The location of the stop line will be a combination of GPS data (when far from the stop line) and vision-based data (when near the stop line).
+<blockquote>
+{| width=100%
+|- valign=top
+| Team 1
+* Jessica Gonzalez (75)
+* Francisco Zabala (75)
+* Dominic Rizzo
+| Team 2
+* Sanjeev
+* MIke I
+* Harrison
+|}
+</blockquote>
+* '''Reactive obstacle avoidance''' (DGC) - Design a controller that uses direct information from a laser range finder (LADAR) to bring the vehicle to a stop and/or swerve to avoid a "pop-up" obstacle.  For CS/EE/ME 75 students, this could be a good project for someone on the sensing team.
+<blockquote>
+{| width=100%
+|- valign=top
+| Team 1
+* Ghryn
+* Klimka
+* Chris Y
+| Team 2
+|}
+</blockquote>
+== Open Projects ==
 * '''Looking down a road''' (DGC) - Design a pointing system that can point a camera down a road to the left or right of a vehicle.  The location of the road must be determined based on visual data (could be combined with a EE/CNS 148 project).    For CS/EE/ME 75 students, this could be a good project for someone on the sensing team.
-* '''Reactive obstacle avoidance''' (DGC) - Design a controller that uses direct information from a laser range finder (LADAR) to bring the vehicle to a stop and/or swerve to avoid a "pop-up" obstacle.  For CS/EE/ME 75 students, this could be a good project for someone on the sensing team.

CDS 101/110a, Fall 2006 - Course Project: Difference between revisions

Revision as of 14:16, 24 October 2006

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