Theses in Robotics
Projects in Advanced Robotics
The main objective of the follwing projects is to give students experience in working with advanced robotics tehcnology. Our group is active in several R&D projects involving human-robot collaboration, intuitive teleoperation of robots, and autonomous navigation of unmanned mobile platforms. Our main software platforms are Robot Operating System (ROS) for developing software for advanced robot systems and Gazebo for running realistic robotic simulations.
For further information, contact Karl Kruusamäe
The following is not an exhaustive list of all available thesis/research topics.
Development of demonstrative and promotional applications for KUKA youBot
The goal of this project is to develop promotional use cases for KUKA youBot, that demonstrate the capabilities of modern robotics and inspire people to get involved with it. The list of possible robotic demos include:
- demonstration of motion planning algorithms for mobile manipulation,
- using 3D vision for human and/or environment detection,
- interactive navigation,
- autonomous path planning,
- different pick-and-place applications,
- and human-robot collaboration.
Development of demonstrative and promotional applications for Universal Robots UR5
Sample demonstrations include:
- autonomous pick-and-place,
- load-assistance for human-robot collaboration,
- packaging,
- physical compliance during human-robot interaction,
- tracing objects surface during scanning,
- robotic kitting,
- grinding of non-flat surfaces.
Development of demonstrative and promotional applications for Clearpath Jackal
Sample demonstrations include:
- human-robot interaction,
- multi-robot mapping,
- autonomous driving,
ROS support and educational materials for open-source mobile robot
The goal of the project is to develop Robot Operating System (ROS) wrapper functions for drivers of an open-source mobile robot platform, that has been successfully used in Robotex competitions. Additionally, educational materials must be developed to integrate the robot platform into ROS ecosystem. The outcome of this work will give a lot of educational uses and rapid prototyping opportunities for the platform.
Detecting features of urban and off-road surroundings
Accurate navigation of self-driving unmanned robotic platforms requires identification of traversable terrain. A combined analysis of point-cloud data with RGB information of the robot's environment can help autonomous systems make correct decisions. The goal of this work is to develop algorithms for terrain classification.
Robotic simulations (in Gazebo)
1) Developing large area simulation worlds for mobile robotics. In order to develop robot navigation algorithms, it is more time- and cost-efficient to test robot behavior in a wide range of realistically simulated worlds. These simulated worlds include both indoor and outdoor environments. This work focuses on designing robot simulation environments using an open-source platform Gazebo.
2) Humans in Gazebo. Integrating walking and gesturing humans to Gazebo.
3) Tracked Robots in Gazebo. Creating and testing tracked robotis in Gaxebo and testing different track configurations.
4) Robot basketball simulation for game strategy and shot accuracy
5) Robotont at the Institute of Technology
Follow-the-leader robotic demo
The idea is to create a robotic demonstration where a mobile robot is using Kinect or similar depth-camera for identifying a person and then starts following that person. The project will be implemented using Robot Operating System (ROS) on either KUKA youbot or similar mobile robot platform.
Detecting hand signals for intuitive human-robot interface
This project involves creating ROS libraries for using either a Leap Motion Controller or an RGB-D camera to detect most common human hand signals (e.g., thumbs up, thumbs down, all clear, pointing into distance, inviting).
Virtual reality user interface (VRUI) for intuitive teleoperation system
Adding virtual reality capability to a gesture- and natural-language-based robot teleoperation system.
Kruusamäe et al. (2016) High-precision telerobot with human-centered variable perspective and scalable gestural interface
Health monitor for intuitive telerobot
Intelligent status and error handling for an intuitive telerobotic system.
Dynamic stitching for achieveing 360° FOV
Automated image stitching of images from multiple camera sources for achieveing 360° field-of-view during mobile telerobotic inspection of remote areas.
3D scanning of industrial objects
Using laser sensors and cameras to create accurate models of inustrial producst for quality control or further processing.
Modeling humans for human-robot interaction
True human-robot collaboration means that the robot must understand the actions, intention, and state of its human partner. This work invovlves using cameras and other human sensors for digitally representing and modelling humans. There are multiple stages for modeling: a) physical models of human kinematics and dynamics; b) higher level-models for recognizing human intent.
ROS wrapper for Estonian Speech Synthesizer
Creating a ROS package that enables robots to speak in Estonian. The basis of the work is the existing Estonian language speech synthesizer that needs to be integrated with ROS sound_play package or a stand-alone ROS wrapper package.
Robotic avatar for telepresence
Integrating hand gestures and head movements to control a robot avatar in virtual reality user interface.
ROS driver for Artificial Muscle actuators
Desigining a controller box and writing software for interfacing artificial muscle actuators [1, 2] ROS.
Upgrading KUKA youBot
KUKA youBot is omnidirectionl mobile manipulator platform. The project involves replacing the current onboard computer with a more capable one, installing newer version of Ubuntu Linux and ROS, testing core capabilities, and creating documentation for the robot.
Development of strategies for inter-robot knowledge representation
An inseparable part for making robots work together is to enable them to share knowledge about surrounding environment and robot's intention. This project focuses on developing and testing the methodologies for inter-robot knowledge representation. This project is developed as a subsystem of TeMoto.
TeMoto based smart home control
The project involves designing a open-source ROS+TeMoto based scalable smart home controller.
Detection of hardware and software resources for smart integration of robots
Vast majority of today’s robotic applications rely on hard-coded device and algorithm usage. This project focuses on developing a Resource Snooper software, that can detect addition or removal of resources for the benefit of dynamic reconfiguration of robotic systems. This project is developed as a subsystem of TeMoto.
Sonification of feedback during teleoperation of robots
Humans are used to receiving auditory feedback in their everyday lives. It helps us make decision and be aware of potential dangers. Telerobotic interfaces can deploy the same idea to improve the Situational Awareness and robotic task efficiency. The thesis project involves a study about different sonification solutions and implementation of it in a telerobotic application using ROS.
Human-Robot and Robot-Robot collaboration applications
Creating a demo or analysis of software capabilities related to human-robot or tobot-robot teams
- human-robot collaborative assembly
- distributed mapping; analysis and demo of existing ROS (e.g., segmap https://youtu.be/JJhEkIA1xSE) packages for multi-robot mapping
Developing ROS driver for a robotic gripper
The goal for this project is to develop ROS drivers for LEHF32K2-64 gripper. The work is concluded by demonstrating the functionalities of the gripper via pick-and-place task.
Mirroring human hand movements on industrial robots
The goal of this project is to integrate continuous control of industrial robot manipulator with a gestural telerobotics interface. The recommended tools for this thesis project are Leap Motion Controller or a standard web camera, Universal Robot UR5 manipulator, and ROS.
ROS2-based robotics demo
Converting ROS demos and tutorials to ROS2.
Completed projects
- Tõnis Tiimus, Visuaalselt esilekutsutud potentsiaalidel põhinev aju-arvuti liides robootika rakendustes (A VEP-based BCI for robotics applications), MS thesis, 2018
- Martin Appo, Hardware-agnostic compliant control ROS package for collaborative industrial manipulators (Riistvarapaindlik ROSi tarkvarapakett tööstuslike robotite mööndlikuks juhtimiseks), MS thesis, 2018
- Hassan Mahmoud Shehawy Elhanash, Optical Tracking of Forearm for Classifying Fingers Poses (Küünarvarre visuaalne jälgimine ennustamaks sõrmede asendeid), MS thesis, 2018
- Kristo Allaje, Draiveripakett käte jälgimise seadme Leap Motion™ kontroller kasutamiseks robootika arendusplatvormil ROS, BS thesis, 2018
- Martin Maidla, Avatud robotiarendusplatvormi Robotont omniliikumise ja odomeetria arendamine, BS thesis, 2018
- Raid Vellerind, Avatud robotiarendusplatvormi ROS võimekuse loomine Tartu Ülikooli Robotexi robootikaplatvormile, BS thesis, 2017