|
|
Robot Control with Voice Commands
Hájek, Pavel ; Kapinus, Michal (referee) ; Španěl, Michal (advisor)
This bachelor's thesis describes design and development of a robot voice control application aiming at platform PR2. It explains the procecess of voice recognition and describes the robot operating system as a target platform. The application uses library Sphinx-4 to translate speech to text, which is than published in ROS. In the end, the set of tests is described. Tests discovered, that the best way to control robot with a few simple commands is developing own grammar.
|
|
|
Interactive Interface for Robot Remote Control for Android
Podmolík, Leopold ; Materna, Zdeněk (referee) ; Španěl, Michal (advisor)
This work describes an application to control a robot running the Robotic Operation System (ROS) remotely using Android-based touch devices. The application was primarily designed for our experimental faculty robot - TB2. Designed user interface shows a video stream coming from the Kinect mounted on the robot and the current 2D map. The robot movement is controlled by a Street View like user interface while rotation of the robot in place is solved by speci c touch gestures on display.
|
|
|
Quadcopter Camera Utilization for Scene Context Monitoring in Outdoor Environment
Běl, Petr ; Materna, Zdeněk (referee) ; Beran, Vítězslav (advisor)
This bachelor thesis deals with design and implementation of user interface for quadcopter control by mobile device. Most important design aspect is ability to scene monitoring by camera carried by quadcopter. Selected criterion was solved by control gestures drawn on device display, thus deletion of unnecessary graphical control elements. Comfort for scene monitoring is ensured by multiple ight modes using same set of gestures. For purpose of connecting robot with mobile device in this work has been chosen platform Robot Operating System. Its transfer to mobile device was implemented by RosJava library for the selected operating system Android. Main contribution of this thesis is creation of mobile application which allows to pilot quadcopter and watch transmitted image from its camera not being disturbed by control elements. This advantage is most important for devices with smaller displays like smartphones.
|
|
|
Quadcopter Camera Utilization for Scene Context Monitoring in Outdoor Environment
Běl, Petr ; Materna, Zdeněk (referee) ; Beran, Vítězslav (advisor)
This bachelor thesis deals with design and implementation of user interface for quadcopter control by mobile device. Most important design aspect is ability to scene monitoring by camera carried by quadcopter. Selected criterion was solved by control gestures drawn on device display, thus deletion of unnecessary graphical control elements. Comfort for scene monitoring is ensured by multiple ight modes using same set of gestures. For purpose of connecting robot with mobile device in this work has been chosen platform Robot Operating System. Its transfer to mobile device was implemented by RosJava library for the selected operating system Android. Main contribution of this thesis is creation of mobile application which allows to pilot quadcopter and watch transmitted image from its camera not being disturbed by control elements. This advantage is most important for devices with smaller displays like smartphones.
|
|
|
Interactive Interface for Robot Remote Control for Android
Podmolík, Leopold ; Materna, Zdeněk (referee) ; Španěl, Michal (advisor)
This work describes an application to control a robot running the Robotic Operation System (ROS) remotely using Android-based touch devices. The application was primarily designed for our experimental faculty robot - TB2. Designed user interface shows a video stream coming from the Kinect mounted on the robot and the current 2D map. The robot movement is controlled by a Street View like user interface while rotation of the robot in place is solved by speci c touch gestures on display.
|
|
|
Robot Control with Voice Commands
Hájek, Pavel ; Kapinus, Michal (referee) ; Španěl, Michal (advisor)
This bachelor's thesis describes design and development of a robot voice control application aiming at platform PR2. It explains the procecess of voice recognition and describes the robot operating system as a target platform. The application uses library Sphinx-4 to translate speech to text, which is than published in ROS. In the end, the set of tests is described. Tests discovered, that the best way to control robot with a few simple commands is developing own grammar.
|
guest ::
