Vinutha Kallem, April 2008: Difference between revisions
No edit summary |
|||
| (9 intermediate revisions by 7 users not shown) | |||
| Line 8: | Line 8: | ||
{{agenda begin}} | {{agenda begin}} | ||
{{agenda item|9:30a|Richard}} | {{agenda item|9:30a|Richard}} | ||
{{agenda item|10:00a| | {{agenda item|10:00a|Julia}} | ||
{{agenda item|10:45a|Seminar prep}} | {{agenda item|10:45a|Seminar prep}} | ||
{{agenda item|11:00a|Seminar}} | {{agenda item|11:00a|Seminar}} | ||
{{agenda item|12:15p|Lunch: | {{agenda item|12:15p|Lunch: Nok et al}} | ||
{{agenda item|1:30p|Mani Chandy}} | {{agenda item|1:30p|Mani Chandy}} | ||
{{agenda item|2:00p| | {{agenda item|2:00p|Nok}} | ||
{{agenda item|3:15p| | {{agenda item|3:15p|Ling}} | ||
{{agenda item|4:00p| | {{agenda item|4:00p|Elisa}} | ||
{{agenda item|4:45p| | {{agenda item|4:45p|Sawyer}} | ||
{{agenda end}} | {{agenda end}} | ||
| width=50% | | | width=50% | | ||
==== Tuesday ==== | ==== Tuesday ==== | ||
{{agenda begin}} | {{agenda begin}} | ||
{{agenda item|9:30a| | {{agenda item|9:30a|Dionysios}} | ||
{{agenda item|10:15a| | {{agenda item|10:15a|Shuo}} | ||
{{agenda item|11:00a|Erik Winfree}} | {{agenda item|11:00a|Erik Winfree}} | ||
{{agenda item|11:30p|Richard}} | {{agenda item|11:30p|Richard}} | ||
{{agenda item|12:00p|Lunch: | {{agenda item|12:00p|Lunch: Mary et al}} | ||
{{agenda item|1:30p|Depart for airport}} | {{agenda item|1:30p|Depart for airport}} | ||
{{agenda end}} | {{agenda end}} | ||
Latest revision as of 17:39, 28 April 2008
Vinutha Kallem is a PhD student at Johns Hopkins who is visiting on 28-29 April 2008.
Schedule
Monday
|
Tuesday
|
Abstract
TASK-INDUCED REDUCTION WITH APPLICATIONS TO NEEDLE STEERING
Vinutha Kallem
Mechanical Engineering Department
Johns Hopkins University
Monday, April 28, 2008
11:00 AM to 12:00 PM
Steele Bldg. Room 114 (CDS Library)
What if sensitive organs prevents a physician from accessing a percutaneous target using a straight, rigid needle? One promising solution involves steering flexible bevel-tip needles. These needles introduce exciting robotics and control systems challenges because the needle tip evolves on a Lie group, and the system exhibits a high degree of nonholonomy.
In this work, we present image-guided controllers for steerable needles to improve the accuracy of needle insertions. We build upon a previously proposed needle steering model to develop nonlinear observer-based controllers to drive the needle tip to a desired subspace. These controllers are designed to work in conjunction with subspace planners for the needle tip to reach a desired location in human tissue. We show that the tasks of these controllers induces symmetry, thus resulting in a reduced system which greatly simplifies controller and observer design. We propose a method to perform such reductions for generic nonholonomic kinematic systems on Lie groups with left-invariant vector fields. This technique is used to develop controllers for curve-following of a unicycle and subspace-following in needle steering. We show that this "task-induced" reduction lifts to mechanical systems.
