Difference between revisions of "ME115 2016"

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m (Closed Loop Mechanisms/4-Bar Linkages)
m (Announcements For ME 115(b))
 
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| Nikola Georgiev
 
| Nikola Georgiev
 
| 205 Gates-Thomas
 
| 205 Gates-Thomas
| Wed. Feb. 17, SFL Group Study room 220 (#2-2), 4-5:00 pm <br> Thurs. Feb. 18, SFL Group Study Room 220 (#2-2) 6-7 pm
+
| Thurs. Apr, 7, SFL Group Study Room 229 (#2-3) 8 pm
 
| [mailto:georgiev@caltech.edu georgiev at caltech dot edu]
 
| [mailto:georgiev@caltech.edu georgiev at caltech dot edu]
 
| 626-395-????
 
| 626-395-????
Line 40: Line 40:
  
 
== Announcements  For ME 115(b) ==
 
== Announcements  For ME 115(b) ==
 +
* '''06/01/16:''' The Final Exam is [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/final.16b.pdf available here] .  The instructions are included on the first page.  To complete the exam, you will have to download and watch the following videos:
 +
** The [http://robotics.caltech.edu/~jwb/courses/ME115/Videos/Spider_Mechanism.mp4 Spider Mechanism Video] (in mp4 format).
 +
** The [http://robotics.caltech.edu/~jwb/courses/ME115/Videos/Rostock_Mechanism.mp4 Rostock Video] (in mp4 format).
 +
* '''05/14/16:''' The first video lecture can be downloaded [http://robotics.caltech.edu/~jwb/courses/ME115/Lectures/Lecture1.mov from here] in .mov format
 +
* '''05/14/16:''' The second video lecture can be [http://robotics.caltech.edu/~jwb/courses/ME115/Lectures/Lecture2.mp4 downloaded here] in .mp4 format
 +
* '''05/04/16:''' The [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/final_project_b.16.pdf Final Project Guidelines]
 +
* '''04/06/16:''' The T.A. office hours will be Thurs, 8:00 pm onward, in Room 229 (#2-#3) of Sherman-Fairchild Library
  
 
== Course Text and References ==
 
== Course Text and References ==
Line 84: Line 91:
 
| -N/A-
 
| -N/A-
 
| -N/A-
 
| -N/A-
| rowspan=4 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set1b.16.pdf Homework 1]
+
| rowspan=3 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set1b.16.pdf Homework 1] <br> [http://robotics.caltech.edu/~jwb/courses/ME115/homework/sol1b.16.pdf Solution 1]
 +
 
 
|-
 
|-
 
| 30 March (W)
 
| 30 March (W)
Line 90: Line 98:
 
| Murray, Li Sastry (MLS), Section 3.4
 
| Murray, Li Sastry (MLS), Section 3.4
 
| -N/A-
 
| -N/A-
 +
 
|-
 
|-
 
| 1 April (F)
 
| 1 April (F)
Line 99: Line 108:
 
| align=center rowspan=4 | 2  
 
| align=center rowspan=4 | 2  
 
| colspan=5|
 
| colspan=5|
 +
 
==== Closed Loop Mechanisms and Parallel Mechanisms ====
 
==== Closed Loop Mechanisms and Parallel Mechanisms ====
 
|-
 
|-
Line 105: Line 115:
 
| MLS, Section 3.5
 
| MLS, Section 3.5
 
| -N/A-
 
| -N/A-
| rowspan=4 align=center | -No Homework-
+
| rowspan=3 align=center | -No Homework-
  
 
|-
 
|-
Line 115: Line 125:
 
|-
 
|-
 
| 8 April (F)
 
| 8 April (F)
| The Delta Mechanism/Intro to Grasping
+
| Parallel Mechanisms: structure Equations and Singularities
| [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/DeltaKinematics.pdf Paper on Delta Kinematics]
+
| MLS Section 3.5
| [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/DeltaRobotHistory.pdf History of Delta Mechanism]; [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/DeltaMechanismSingularities.pdf Singularities of Delta Mechanisms];
+
|  
  
 
|-
 
|-
Line 123: Line 133:
 
| colspan=5|
 
| colspan=5|
  
==== Closed Loop Mechanisms/4-Bar Linkages ====
+
==== Parallel Mechanisms to Redundant manipulators ====
  
 
|-
 
|-
 
| 11 April (M)
 
| 11 April (M)
| Special Configurations
+
| The Delta Mechanism
| MLS, Section 3.5
+
| [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/DeltaKinematics.pdf Paper on Delta Kinematics]
| -N/A-
+
| [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/DeltaRobotHistory.pdf History of Delta Mechanism]; [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/DeltaMechanismSingularities.pdf Singularities of Delta Mechanisms];
| rowspan=4 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set2b.16.pdf Homework 2]
+
| rowspan=3 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set2b.16.pdf Homework 2] <br> [http://robotics.caltech.edu/~jwb/courses/ME115/homework/sol2b.2016.pdf Solution #2]
  
 
|-
 
|-
 
| 13 April (W)
 
| 13 April (W)
| Special Configurations/4-Bar Linkage Design
+
| Redundant Mechanisms and PseudoInverse
 
| -N/A-
 
| -N/A-
| [http://www.mekanizmalar.com/fourbar01.html 4-Bar Coupler Curve]; [http://www.mekanizmalar.com/joules.html 4-Bar cyclist]; [http://www.mekanizmalar.com/hoekens_linkage.html Hoeken\'s 4-Bar D-path generator] [http://www.mekanizmalar.com/tchebicheff.html Tchebychef straight-line 4bar]; [http://www.mekanizmalar.com/watts.html Watt Straight-Line 4-Bar]; [http://www.mekanizmalar.com/theo_jansen.html Jansen Walker Mechanism]; [http://www.mekanizmalar.com/pantograf.html Pantograph]; [http://www.mekanizmalar.com/drafting.html Drafting Linkage]; [http://www.mekanizmalar.com/transport01.html Conveyor Indexing]; [http://www.mekanizmalar.com/stone_crusher.html Stone Crusher];
+
|  
 +
 
 
|-
 
|-
 
| 15 April (F)
 
| 15 April (F)
| ''4-Bar Synthesis: Graphical Techniques and Standard Dyad Equation''
+
| Redundancy resolution and trajectory planning
| -N/A-
+
| Notes on the [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/pseudo.pdf Moore-Penrose Pseudo Inverse]
 
| -N/A-
 
| -N/A-
 +
 
|-
 
|-
 
| align=center rowspan=4 | 4  
 
| align=center rowspan=4 | 4  
 
| colspan=5|
 
| colspan=5|
  
==== Closed Loop Mechanisms/4-Bar Linkages ====
+
==== From Redundant Manipulators to Grasping ====
 
|-
 
|-
| 23 April (M)
+
| 18 April (M)
| Standard Dyad Method for Rigid Body Guidance
+
| The Moore-Penrose Pseudo Inverse and SVD
| -N/A-
+
| MLS Chapt 3, Section 5.1
| -N/A-
+
| rowspan=4 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set3b.12.pdf Homework 3]
+
|-
+
| 25 April (W)
+
| 4-Position Rigid Body Guidance
+
| -N/A-
+
 
|  
 
|  
 +
| rowspan=3 align=center |
 +
 
|-
 
|-
| 27 April (F)
+
| 20 April (W)
| Parallel Mechanisms
+
| Redundancy Resolution and Obstacle Avoidance Example <br> Intro to Grasping
| -N/A-
+
| MLS Chapt 3, Section 5.1
| -N/A-
+
| [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/MaciejewskiKleinRedundantObstacleAvoidance.pdf Maciejewski & Klein]
 
|-
 
|-
| align=center rowspan=4 | 5
+
| 22 April (F)
| colspan=5|
+
| Contact Models
==== From Deltas to Grasping ====
+
|-
+
| 30 April (M)
+
| The Delta Mechanism/Intro to Grasping
+
| [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/DeltaKinematics.pdf Paper on Delta Kinematics]
+
| [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/DeltaRobotHistory.pdf History of Delta Mechanism]; [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/DeltaMechanismSingularities.pdf Singularities of Delta Mechanisms];
+
| rowspan=4 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set4b.12.pdf Homework 4]
+
|-
+
| 2 May (W)
+
Contact Models
+
|  Section 5.2 of the MLS text
+
| -N/A-
+
|-
+
| 4 May (F)
+
| The Grasp Map and Secure grasps
+
 
| Section 5.2 of the MLS Text
 
| Section 5.2 of the MLS Text
 
| -N/A-
 
| -N/A-
 +
 
|-
 
|-
| align=center rowspan=4 | 6
+
| align=center rowspan=4 | 5
 
| colspan=5|
 
| colspan=5|
 +
 
==== Force Closure Grasps ====
 
==== Force Closure Grasps ====
 
|-
 
|-
| 7 May (M)
+
| 25 April (M)
| ''No Class'' (due to travel)
+
| Finger Contact Models
| -N/A-
+
| Section 2.1 of MLS Chapter5
 
| -N/A-  
 
| -N/A-  
| rowspan=4 align=center | -N/A-
+
| rowspan=3 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set3b.16.pdf Homework 3] <br> [http://robotics.caltech.edu/~jwb/courses/ME115/homework/sol3b.16.pdf Solution 3]
 +
 
 
|-
 
|-
| 9 May (W)
+
| 27 April (W)
| Force Closure Grasps  
+
| The Grasp Map<br> Secure Multi-Fingered Grasps  
| Section 5.3 of the MLS Text
+
| Section 2.2 of MLS Chapter 5
| -N/A-
+
| N/A-
 +
 
 
|-
 
|-
| 11 May (F)
+
| 29 April (F)
 
| Force Closure (continued)
 
| Force Closure (continued)
 
| Section 5.3, 5.4 of the MLS Text
 
| Section 5.3, 5.4 of the MLS Text
 
| -N/A-
 
| -N/A-
 +
 
|-
 
|-
| align=center rowspan=4 | 7
+
| align=center rowspan=4 | 6
 
| colspan=5|
 
| colspan=5|
 +
 
==== Force Closure Grasps ====
 
==== Force Closure Grasps ====
 
|-
 
|-
| 13 May (M)
+
| 2 May (M)
| ''No Class'' (due to travel)
+
| Frictionless Force Closure
 
| -N/A-
 
| -N/A-
 
| -N/A-  
 
| -N/A-  
| rowspan=4 align=center | -N/A-
+
| rowspan=3 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set4b.16.pdf Homework 4]; <br> [http://robotics.caltech.edu/~jwb/courses/ME115/homework/sol4b.16.pdf Solution 4]
 
|-
 
|-
| 15 May (W)
+
| 4 May (W)
| ''No Class'' (due to travel)
+
| Force Closure and Internal Forces
 
| -N/A-
 
| -N/A-
 
| -N/A-
 
| -N/A-
 
|-
 
|-
| 17 May (F)
+
| 6 May (F)
| Force Closure (continued)/Number of required fingers
+
| Number of required fingers
 
| Section 5.4 of the MLS Text
 
| Section 5.4 of the MLS Text
 
| -N/A-
 
| -N/A-
 +
 
|-
 
|-
| align=center rowspan=4 | 8
+
| align=center rowspan=4 | 7
 
| colspan=5|
 
| colspan=5|
 +
 
==== Yet more Robotic Grasping  ====
 
==== Yet more Robotic Grasping  ====
 
|-
 
|-
| 21 May (M)
+
| 9 May (M)
 
| Number  of fingers needed to grasp an object
 
| Number  of fingers needed to grasp an object
 
| Section 5.4 of MLS Text
 
| Section 5.4 of MLS Text
 
| -N/A-  
 
| -N/A-  
| rowspan=4 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set5b.12.pdf Homework 5]
+
| rowspan=3 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set5b.16.pdf Homework 5]; <br> [http://robotics.caltech.edu/~jwb/courses/ME115/homework/sol5b.16.pdf Solution 5]
 
|-
 
|-
| 23 May (W)
+
| 11 May (W)
 
| Grasp Planning/Hand Kinematics
 
| Grasp Planning/Hand Kinematics
 
| Section 5.5 of MLS Text
 
| Section 5.5 of MLS Text
 
| -N/A-
 
| -N/A-
 
|-
 
|-
| 25 May (F)
+
| 13 May (F)
 
| Hand Kinematics
 
| Hand Kinematics
 
| Section 5.5 of the MLS Text
 
| Section 5.5 of the MLS Text
 
| -N/A-
 
| -N/A-
 
|-
 
|-
| align=center rowspan=4 | 9
+
| align=center rowspan=4 | 8
 
| colspan=5|
 
| colspan=5|
 +
 
==== Yet more Robotic Grasping  ====
 
==== Yet more Robotic Grasping  ====
 
|-
 
|-
| 28 May (M)
+
| 16 May (M)
 
| Differential Geometry of Curves
 
| Differential Geometry of Curves
| Section 5.6 of MLS text <br> [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/contact.pdf Notes on the Differential Geometry of Curves]  
+
| Section 5.6 of MLS text <br> [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/curves.pdf Notes on the Differential Geometry of Curves]  
 
| -N/A-  
 
| -N/A-  
| rowspan=4 align=center | -N/A-
+
| rowspan=3 align=center | [http://robotics.caltech.edu/~jwb/courses/ME115/homework/set6b.16.pdf Homework #6]
 
|-
 
|-
| 30 May (W)
+
| 18 May (W)
 
| Planar Contact Equations
 
| Planar Contact Equations
 
| Section 5.6 of MLS Text <br> [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/contact.pdf Notes on the Planar Contact Equations]
 
| Section 5.6 of MLS Text <br> [http://robotics.caltech.edu/~jwb/courses/ME115/handouts/contact.pdf Notes on the Planar Contact Equations]
 
| -N/A-
 
| -N/A-
 
|-
 
|-
| 1 June (F)
+
| 20 May (F)
 
| ''No Class'' due to travel  
 
| ''No Class'' due to travel  
 
| -N/A-
 
| -N/A-
 
| -N/A-
 
| -N/A-
 +
 +
|-
 +
| align=center rowspan=4 | 9
 +
| colspan=5|
 +
 +
==== Miscellaneous ====
 +
 +
|-
 +
| 23 May (M)
 +
| Review of planar contact equations <br> Grasp Equations with non-point fingers
 +
| Chapter 5 of MLS
 +
|
 +
| rowspan=3 align=center |
 +
 +
|-
 +
| 25 May (W)
 +
| Gears,Quasistatic Locomotion
 +
| [http://robotics.caltech.edu/~jwb/courses/ME115/Lectures/Gears.pptx Slides on Gears]
 +
| -N/A-
 +
 +
|-
 +
| 27 May (F)
 +
| No Class (travel)
 +
| -N/A-
 +
| -N/A-
 +
 +
|-
 +
| align=center rowspan=3 | 10
 +
| colspan=5|
 +
 +
==== Miscellaneous ====
 +
 +
|-
 +
| 30 May (M)
 +
| ''Institute Holiday''
 +
|
 +
|
 +
| rowspan=3 align=center |
 +
 +
|-
 +
| 1 June (W)
 +
| Quasistatic Locomotion and Whole Body Manipulation
 +
| [http://robotics.caltech.edu/~jwb/courses/ME115/Lectures/WholeBody.ppt Slides on Whole Body Manipulation]
 +
| -N/A-
 +
 
|}
 
|}
  
Line 283: Line 330:
 
| [http://dlxs2.library.cornell.edu/k/kmoddl/pdf/013_002.pdf History of Kinematics Through 1900] (Introductory chapter from <em> Kinematic Synthesis of Linkages</em>)   
 
| [http://dlxs2.library.cornell.edu/k/kmoddl/pdf/013_002.pdf History of Kinematics Through 1900] (Introductory chapter from <em> Kinematic Synthesis of Linkages</em>)   
 
| rowspan=3 align=center | -No Homework-
 
| rowspan=3 align=center | -No Homework-
 +
 
|-
 
|-
 
| 6 Jan (W)
 
| 6 Jan (W)

Latest revision as of 10:30, 13 June 2016

This is the homepage for ME 115(a,b) (Introduction to Kinematic and Robotics) for Winter/Spring 2016.

Course Staff, Hours, Location

Position Name Office Office Hours (changing weekly) Email Phone
Instructor Joel Burdick 245 Gates-Thomas send mail for an appointment jwb at robotics dot caltech dot edu 626-395-4139
Teach Asst. Nikola Georgiev 205 Gates-Thomas Thurs. Apr, 7, SFL Group Study Room 229 (#2-3) 8 pm georgiev at caltech dot edu 626-395-????
Teach Asst. Yoke Peng Leong Annenberg TBD ypleong at caltech dot edu 626-395-????
Administrative Sonya Lincoln 250 Gates-Thomas 7:30am-noon; 1:00pm-4:30pm lincolns at caltech dot edu 626-395-3385


  • Lecture Schedule: Monday, Wednesday, Friday 10:00-11:00 am, Gates-Thomas 135

Announcements For ME 115(b)

  • 06/01/16: The Final Exam is available here . The instructions are included on the first page. To complete the exam, you will have to download and watch the following videos:
  • 05/14/16: The first video lecture can be downloaded from here in .mov format
  • 05/14/16: The second video lecture can be downloaded here in .mp4 format
  • 05/04/16: The Final Project Guidelines
  • 04/06/16: The T.A. office hours will be Thurs, 8:00 pm onward, in Room 229 (#2-#3) of Sherman-Fairchild Library

Course Text and References

The main course text is:

We will refer to this text as MLS (the initials of the authors last names). While the course topics will follow the text subjects, additional material not in the text will often be presented in class. Additional course handouts covering this material will be posted on this website

Course Syllabus

Theoretical Kinematics is the study of motion and the analytical tools to represent motion, while Applied Kinematics is the analysis and synthesis of mechanisms which implement given motions. This course presents a basic overview of theoretical kinematics, while the applied portions focus on robotic mechanisms.

An overview of the course, including course mechanics, grading, etc. The most salient information is repeated below.

Grading

The final grade will be based on homework sets, and a final exam or final project:

  • Homework (70%): Homework sets will be handed out every 7-10 days, and are due at 5 pm on the due date (which will always coincide with a class meeting). Homeworks can be dropped off in class, or deposited in the box outside of 245 Gates-Thomas. Some homeworks will require computation. MATLAB or Mathematica should be sufficient to solve every homework posed in this course, though students can choose their favorite programming language. Code is considered part of your solution and should be included in with the problem set when appropriate.
  • Final exam/project (30%): Students have the option to take a final exam (a limited time take-home format exam which is open book, open note, and computer allowed) or select a final project. The final project must incorporate some aspect of the course, and the topic and scope my be approved by the course instructor. The final exam will due at 5:00 pm the last day of finals. The final project is similarly due at 5:00 pm on the last day of finals.
  • Late Homework Policy: Students may automatically take a 2-day extension on two homeworks during each quarter.

Collaboration Policy

Collaboration on homework assignments is encouraged. You may consult outside reference materials, other students, the TA, or the instructor, but you must cite any use of material from outside references. All solutions that are handed in should be written up individually and should reflect your own understanding of the subject matter. Computer code and graphical plots are considered part of your solution, and therefore should be done individually (you can share ideas, but not code). No collaboration is allowed on the examinations.

Course Schedule for ME115(b)

Week Date Topic Reading Optional Reading Homework
1

From Manipulator Singularities to Closed Loop Mechanisms

28 March (M) Manipulator Singularities (concluded)
Intro to Closed Loop Mechanisms
-N/A- -N/A- Homework 1
Solution 1
30 March (W) Closed Loop Linkages: Structure Equations & Mobility Murray, Li Sastry (MLS), Section 3.4 -N/A-
1 April (F) Closed Loop Linkages: Special Configurations Murray, Li Sastry (MLS), Section 3.4 -N/A-
2

Closed Loop Mechanisms and Parallel Mechanisms

4 April (M) Closed Loop Linkages: Multi-Loop Linkages MLS, Section 3.5 -N/A- -No Homework-
6 April (W) Intro to Parallel Linkages -N/A- -N/A-
8 April (F) Parallel Mechanisms: structure Equations and Singularities MLS Section 3.5
3

Parallel Mechanisms to Redundant manipulators

11 April (M) The Delta Mechanism Paper on Delta Kinematics History of Delta Mechanism; Singularities of Delta Mechanisms; Homework 2
Solution #2
13 April (W) Redundant Mechanisms and PseudoInverse -N/A-
15 April (F) Redundancy resolution and trajectory planning Notes on the Moore-Penrose Pseudo Inverse -N/A-
4

From Redundant Manipulators to Grasping

18 April (M) The Moore-Penrose Pseudo Inverse and SVD MLS Chapt 3, Section 5.1
20 April (W) Redundancy Resolution and Obstacle Avoidance Example
Intro to Grasping
MLS Chapt 3, Section 5.1 Maciejewski & Klein
22 April (F) Contact Models Section 5.2 of the MLS Text -N/A-
5

Force Closure Grasps

25 April (M) Finger Contact Models Section 2.1 of MLS Chapter5 -N/A- Homework 3
Solution 3
27 April (W) The Grasp Map
Secure Multi-Fingered Grasps
Section 2.2 of MLS Chapter 5 N/A-
29 April (F) Force Closure (continued) Section 5.3, 5.4 of the MLS Text -N/A-
6

Force Closure Grasps

2 May (M) Frictionless Force Closure -N/A- -N/A- Homework 4;
Solution 4
4 May (W) Force Closure and Internal Forces -N/A- -N/A-
6 May (F) Number of required fingers Section 5.4 of the MLS Text -N/A-
7

Yet more Robotic Grasping

9 May (M) Number of fingers needed to grasp an object Section 5.4 of MLS Text -N/A- Homework 5;
Solution 5
11 May (W) Grasp Planning/Hand Kinematics Section 5.5 of MLS Text -N/A-
13 May (F) Hand Kinematics Section 5.5 of the MLS Text -N/A-
8

Yet more Robotic Grasping

16 May (M) Differential Geometry of Curves Section 5.6 of MLS text
Notes on the Differential Geometry of Curves
-N/A- Homework #6
18 May (W) Planar Contact Equations Section 5.6 of MLS Text
Notes on the Planar Contact Equations
-N/A-
20 May (F) No Class due to travel -N/A- -N/A-
9

Miscellaneous

23 May (M) Review of planar contact equations
Grasp Equations with non-point fingers
Chapter 5 of MLS
25 May (W) Gears,Quasistatic Locomotion Slides on Gears -N/A-
27 May (F) No Class (travel) -N/A- -N/A-
10

Miscellaneous

30 May (M) Institute Holiday
1 June (W) Quasistatic Locomotion and Whole Body Manipulation Slides on Whole Body Manipulation -N/A-


Course Schedule for ME115(a)

Week Date Topic Reading Optional Reading Homework
1
Introduction and Review of Rigid Body Kinematics
4 Jan (Mon.) Class Overview Course Overview,
Chapter 1 of MLS
History of Kinematics Through 1900 (Introductory chapter from Kinematic Synthesis of Linkages) -No Homework-
6 Jan (W) Planar Rigid Body Kinematics,
Planar displacements
MLS Ch 2.1, Pages 19-23 -N/A-
8 Jan (F) Planar Rigid Body Displacements (continued),
Displacement groups
MLS Ch 2.1, -N/A-
2
From Planar Rigid Body Kinematics to Spherical Kinematics
11 Jan (M) Displacement groups, poles
Planar Displacements (PowerPoint)
-N/A- Homework 1,
Solution 1
13 Jan (W) Centrodes: Ellliptical Trammel,
Trammel, V 1, V 2, compliation

Intro to Spherical Kinematics

MLS Pages 22-26,
Notes on the Elliptical Trammel,
Archemides Trammel (Wikipedia)
Polyhedral Linkages Synthesized Using Cardan Motion Along Radial Lines
15 Jan (F) Spherical Kinematics (continued),
Classical Matrix Groups
MLS Ch 2.2, 2.3,
Notes on the Classical Matrix Groups
-N/A-
3
Spherical Kinematics
18 Jan (M) No Class: Marin Luther King Holiday -N/A- -N/A- No Homework
20 Jan (W) Cayley's Theorem,
MLS 27-31,
Notes on Rotations
-N/A-
22 Jan (F) No Class MLS 31-34 -N/A-
4
Spherical Kinematics (continued)
25 Jan (M) Angle/Axis Representation and Rodriguez Formula MLS 34-39 Notes on Algebras -N/A-
27 Jan (W) No Class -N/A- -N/A-
29 Jan (W) No Class -N/A- -N/A-
5
Spatial Kinematics
1 Feb (M) No Class -N/A- -N/A- Homework 2,
Solution 2
3 Feb (W) Exponential Coordinates and Euler Angles MLS Ch 2.2, 2.3 -N/A-
5 Feb (F) Quaternions MLS Pages 51-52 -N/A-
6
Spatial Kinematics (continued)
8 Feb (M) Quaternions (continued),
Intro to Spatial Kinematics
MLS 34-39 Notes on Algebras Homework 3,
Solution 3
8 Feb (M) Spatial Displacments,
Chasle's Theorem, Exponential Coordinates
MLS Pages 35-50 -N/A-
10 Feb (W) Motion Capture
Rigid Body Velocities
MLS Pages 51-61; Rodriguez' Displacement Equation; -N/A-
12 Feb (F) No Class -N/A- -N/A-


7
Spatial Kinematics: Velocities and Wrenches
15 Feb (M) No Class: President's Day Holiday MLS Ch 2.3; -N/A- Homework 4,
Solution 4
17 Feb (W) Rigid Body Velocities (continued) MLS Ch 2.3 -N/A-
19 Feb(F) Transformation of Velocities
Wrenches and Poinsot's Theorem
MLS Ch 2.4-2.5 -N/A-
8
Robot Manipulators
22 Feb (M) Wrenches (continued),
Screw Theory
-N/A- -N/A- No Homework
22 Feb (M) Robot Manipulators: Introduction MLS Chapter 3, pages 81-94 -N/A-
23 Feb (W) Denavit Hartenberg Convention MLS Chapter 3, pages 81-94 -N/A-
25 Feb(F) Forward Kinematics via the Denavit-Hartenberg Convention MLS Ch 3, DH-Parameters (from Wikipedia),
Scan from Craig Book on D-H Parameters
9
Forward/Inverse Kinematics
29 Feb (M) Denavit-Hartenberg Convention (continued), Examples MLS Ch 3; Rodriguez' Displacement Equation; -N/A- Homework 5,
Solution 5
2 Mar (W) Product of Exponentials Formula MLS Ch 3 -N/A-
4 Mar(F) Inverse Kinematics MLS Ch 3 -N/A-
10
Jacobian Matrix and Singularities
7 Mar (M) Manipulator Jacobian Matrices MLS Ch 3, pages 115-120; -N/A- Optional Homework 6
7 Mar (M) Jacobian Matrix (continued), End-effector forces MLS Ch 3, 121-123; -N/A-
9 Mar (W) Manipulator Singularities MLS Ch 3, pp 123-127 -N/A-

Announcements For ME 115(a)

  • 03/21/16: Here is the Final Exam Solution
  • 03/13/16: Here is the Final Exam. The exam instructions are located on the first page. Good luck!
  • 02/22/16: Here are the Final Project Guidelines
  • 02/19/16: Homework #2 is graded. You can pick it up from Sonya Lincoln, or pick it up in class starting Monday Feb. 22
  • 02/17/16: T.A. Office hours this week:
    • Wed. Feb. 17, SFL Group Study room 220 (#2-2), 4-5:00 pm
    • Thurs. Feb. 18, SFL Group Study Room 220 (#2-2) 6-7:00 pm
  • 02/08/16: T.A. Office hours this week:
    • Mon. Feb. 8, SFL Group Study room 220 (#2-2), 4-5:00 pm
    • Tues. Feb. 9, SFL Group Study Room 220 (#2-2) 8-9:00 pm
  • 02/05/16: We need an extra class per week to catch up with the missed classes. The same lecture will be given twice on Mondays. You need attend only one of the following lectures.
    • 11:00am-noon in 135 Gates-Thomas
    • 7:30-8:30 pm in 135 Gates-Thomas
  • 02/01/16: Class WILL be held on Wednesday, Feb. 3, 2016 at the usual time and location
  • 02/01/16: There will be NO class on Monday, Feb. 1, 2016.
  • 01/15/16: Office hours for Homework 1
    • Nikola Georgiev will hold office hours on Monday January 18 and Tuesday, January 19 from 8-9 pm in the Sherman Fairchild Library Group Study Room 229 (#2-3).
    • Joel Burdick will hold an office hours from 3-4 pm and 4:30-5:30 pm on Tuesday Jan. 19 in Gates-Thomas 245
  • 01/14/16: On Wed. February 17, 2016 class will take place in Gates-Thomas 115 (just for that one lecture).
  • 01/11/16: Homework #1 will be available during the evening of Mon., Jan. 11. Due Wed. Jan 20.
  • 01/09/16: The class time is tentative set (see lecture schedule above)
  • 01/04/16: The class time (and probably location) will be changed in order to allow the maximum number of students to participate. Look for updates.