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jobs [2014/08/29 09:21] – eye tracking theses added ahaidu | jobs [2015/06/19 12:58] – winkler | ||
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If you are looking for a bachelor/ | If you are looking for a bachelor/ | ||
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+ | == HiWi-Position: | ||
+ | |||
+ | When dealing with real-world robot tasks, simulation that is close to reality is key to test behavior-driven, | ||
+ | |||
+ | Requirements: | ||
+ | * Experience in ROS | ||
+ | * Passion for Robotics | ||
+ | * Ideally programming skills in Lisp, Prolog, and Java | ||
+ | |||
+ | Contact: [[team: | ||
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- | == Depth-Adaptive Superpixels | + | == Kitchen Activity Games in a Realistic Robotic Simulator |
- | {{ :research:dt_dasp.png?200|}} | + | {{ :research:gz_env1.png? |
- | We are currently investigating a new set of sensors (RGB-D-T), which is a combination of a kinect with a thermal image camera. Within this project we want to enhance the Depth-Adaptive Superpixels (DASP) to make use of the thermal sensor data. Depth-Adaptive Superpixels oversegment an image taking into account the depth value of each pixel. | + | |
- | Since the current | + | Developing new activities and improving |
Requirements: | Requirements: | ||
- | | + | * Good programming skills in C/C++ |
- | | + | * Basic physics/ |
- | * Experience with CUDA is helpful | + | * Gazebo simulator basic tutorials |
- | Contact: [[team:jan-hendrik_worch|Jan-Hendrik Worch]] | + | Contact: [[team:andrei_haidu|Andrei Haidu]] |
+ | == Integrating Eye Tracking in the Kitchen Activity Games (BA/MA)== | ||
+ | {{ : | ||
- | == Physical Simulation of Humans (BA/MA)== | + | Integrating the eye tracker in the [[http://gazebosim.org/|Gazebo]] based Kitchen Activity Games framework and logging |
- | {{ : | + | |
- | + | ||
- | For tracking people, | + | |
Requirements: | Requirements: | ||
* Good programming skills in C/C++ | * Good programming skills in C/C++ | ||
- | * Optional: Experience in working with physics libraries such as Bullet | + | * Gazebo simulator basic tutorials |
- | Contact: [[team:jan-hendrik_worch|Jan-Hendrik Worch]] | + | Contact: [[team:andrei_haidu|Andrei Haidu]] |
- | == Kitchen Activity Games in a Realistic Robotic Simulator | + | == Hand Skeleton Tracking Using Two Leap Motion Devices |
- | {{ :research:gz_env1.png? | + | {{ :research:leap_motion.jpg? |
- | Developing new activities | + | Improving the skeletal tracking offered by the [[https:// |
+ | |||
+ | The tracked hand can then be used as input for the Kitchen Activity Games framework. | ||
Requirements: | Requirements: | ||
* Good programming skills in C/C++ | * Good programming skills in C/C++ | ||
- | * Basic physics/ | ||
- | * Gazebo simulator basic tutorials | ||
Contact: [[team: | Contact: [[team: | ||
- | == Integrating Eye Tracking | + | == Fluid Simulation |
- | {{ :research:eye_tracker.png? | + | {{ :research:fluid.png? |
- | Integrating the eye tracker | + | [[http:// |
- | and logging | + | |
+ | Currently there is an [[http:// | ||
+ | |||
+ | The computational method for the fluid simulation is SPH (Smoothed-particle Dynamics), however newer and better methods | ||
+ | and should be implemented (PCISPH/ | ||
+ | |||
+ | The interaction between | ||
+ | |||
+ | Another topic would be the visualization | ||
+ | |||
+ | Here is a [[https:// | ||
Requirements: | Requirements: | ||
* Good programming skills in C/C++ | * Good programming skills in C/C++ | ||
- | * Gazebo simulator basic tutorials | + | |
+ | * Basic physics/ | ||
+ | | ||
Contact: [[team: | Contact: [[team: | ||
+ | |||
+ | |||
+ | == Automated sensor calibration toolkit (BA/MA)== | ||
+ | |||
+ | Computer vision is an important part of autonomous robots. For robots the image sensors are the main source of information of the surrounding world. Each camera is different, even if they are from the same production line. For computer vision, especially for robots manipulating their environment, | ||
+ | |||
+ | The topic for this thesis is to develop an automated system for calibrating cameras, especially RGB-D cameras like the Kinect v2. | ||
+ | |||
+ | {{ : | ||
+ | The system should: | ||
+ | * be independent of the camera type | ||
+ | * estimate intrinsic and extrinsic parameters | ||
+ | * calibrate depth images (case of RGB-D) | ||
+ | * integrate capabilities from Halcon [1] | ||
+ | * operate autonomously | ||
+ | |||
+ | Requirements: | ||
+ | * Good programming skills in Python and C/C++ | ||
+ | * ROS, OpenCV | ||
+ | |||
+ | [1] http:// | ||
+ | |||
+ | Contact: [[team: | ||
+ | |||
+ | == On-the-fly 3D CAD model creation (MA)== | ||
+ | |||
+ | Create models during runtime for unknown textured objets based on depth and color information. Track the object and update the model with more detailed information, | ||
+ | |||
+ | Requirements: | ||
+ | * Good programming skills in C/C++ | ||
+ | * strong background in computer vision | ||
+ | * ROS, OpenCV, PCL | ||
+ | |||
+ | Contact: [[team: | ||
+ | |||
+ | == Simulation of a robots belief state to support perception(MA) == | ||
+ | |||
+ | Create a simulation environment that represents the robots current belief state and can be updated frequently. Use off-screen rendering to investigate the affordances these objects possess, in order to support segmentation, | ||
+ | |||
+ | Requirements: | ||
+ | * Good programming skills in C/C++ | ||
+ | * strong background in computer vision | ||
+ | * Gazebo, OpenCV, PCL | ||
+ | |||
+ | Contact: [[team: | ||
+ | |||
+ | == Multi-expert segmentation of cluttered and occluded scenes == | ||
+ | |||
+ | Objects in a human environment are usually found in challenging scenes. They can be stacked upon eachother, touching or occluding, can be found in drawers, cupboards, refrigerators and so on. A personal robot assistant in order to execute a task, needs to detect these objects and recognize them. In this thesis a multi-modal approach to interpreting cluttered scenes is going to be investigated, | ||
+ | |||
+ | Requirements: | ||
+ | * Good programming skills in C/C++ | ||
+ | * strong background in 3D vision | ||
+ | * basic knowledge of ROS, OpenCV, PCL | ||
+ | |||
+ | Contact: [[team: |
Prof. Dr. hc. Michael Beetz PhD
Head of Institute
Contact via
Andrea Cowley
assistant to Prof. Beetz
ai-office@cs.uni-bremen.de
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