Difference between revisions of "Current UGR Projects"
From ESE497 Wiki
Jump to navigationJump to search(9 intermediate revisions by 3 users not shown) | |||
Line 1: | Line 1: | ||
* [[UGR Report Template | Wiki UGR Report Template]] | * [[UGR Report Template | Wiki UGR Report Template]] | ||
* [[Completed UGR Reports|Completed UGR Reports]] | * [[Completed UGR Reports|Completed UGR Reports]] | ||
+ | == Fall 2011 == | ||
+ | * [[Eye Tracking for ALS Patients |Eye Tracking for ALS Patients (Saba,Sana,Phani)]] | ||
+ | * [[Obstacle Avoidance with Robots and Kinect |Obstacle Avoidance with Robots and Kinect (Mike, Ed)]] | ||
+ | * [[Quadrocopter |Quadrocopter (Eitan, Ed)]] | ||
+ | * [[Chemical Sensors Fall 2011| Source Localization using Chemical Sensing (Anisha, Josh, Zhao, Vanessa)]] | ||
+ | * [[BCI-KurtusKahleFL2011| BCI - Spatial Filtering (Kurtus, Elad)]] | ||
+ | * [[Analysis_of_Brain_Signal_Generation_for_EEG| Analysis of Brain Signal Generation for EEG (DoHyun, Tommy, Elad)]] | ||
+ | |||
== Spring 2011 == | == Spring 2011 == | ||
* [[CubeSat: Image Selection and Compression|CubeSat - Image Selection and Compression (Alex Gu, Phani)]] | * [[CubeSat: Image Selection and Compression|CubeSat - Image Selection and Compression (Alex Gu, Phani)]] |
Latest revision as of 03:58, 21 February 2012
Contents
Fall 2011
- Eye Tracking for ALS Patients (Saba,Sana,Phani)
- Obstacle Avoidance with Robots and Kinect (Mike, Ed)
- Quadrocopter (Eitan, Ed)
- Source Localization using Chemical Sensing (Anisha, Josh, Zhao, Vanessa)
- BCI - Spatial Filtering (Kurtus, Elad)
- Analysis of Brain Signal Generation for EEG (DoHyun, Tommy, Elad)
Spring 2011
- CubeSat - Image Selection and Compression (Alex Gu, Phani)
- Image Modeling and Selection (Michael, Phani)
- Source Localization using Chemical Sensing (SP11) (Anisha, Jessi,Vanessa)
- Campus Mapping using Remotely Controlled Vehicle (SP11) (Evan, Alex B.,Sandeep)
- Sonar Tracking SP2011 (Chady,Phani)
- Temperature Estimation with Ultrasound (Chuck, Martin Arthur)
Fall 2010
- Acoustic Source Localization Using Mobile Platforms (Chady,Murat)
- Source Localization using Chemical Sensing (Anisha, Jessi,Vanessa)
- Adaptive Source Localization on sbRio Platform(Zach, Rafael, Phani)
- Trilateration in Robotic Sensing using Acoustic Sensors(Chuck,Joe,Pato)
- Campus Mapping using Remotely Controlled Vehicle (Evan, Alex B.,Satya)
- CubeSat Projects (Michael, Alex G., Andrew)
- 3D Mapping with Infrared Sensors (Lisa, Bill Feero)