11 Items found
CROWDBOT, an European Collaborative project enables robots to freely navigate and assist humans in crowded areas. - Today’s moving robots stop when a human, or any obstacle is too close, to avoid impact. This prevents robots from entering packed areas and effectively performing in a high dynamic environment. CROWDBOT aims to fill in the gap in knowledge on close interactions between robots and humans in motion.
How to add a desktop shortcut on Gnome 3 to launch Android Studio (Ubuntu 16.04) - This tip explains two ways to add a desktop icon to launch Android Studio from a Gnome 3 environment: activate or create icons on the desktop.
How to add a launcher shortcut on Gnome 3 to launch Android Studio (Ubuntu 16.04) - This tip explains how to add a shortcut to the app launcher to launch Android Studio on Ubuntu.
How to install a language package and get speech recognition in new languages - As international talking robots, Pepper and NAO can access many languages for speech recognition, and its management is quite easy. This quick how-to explains how to set up new languages installing a language pack in a few simple steps.
A Research project about Pepper and NAO immersive teleoperation - A new immersive teleoperation solution based on Extreme Learning Machine (ELM), a Machine Learning technique, is introduced for Pepper and NAO robots. Immersive teleoperation is defined as a robot remote control that renders the operator the sensation of being inside the teleoperated environment and providing a feeling of being the robot itself. The solution is independent of other mapping approaches (e.g. inverse kinematics) and the user’s whole body is used for the robot control. Even with scarce training data, the solution returns satisfactory results in both precision and computational speed.
You might face difficulties running the Pepper (QiSDK) Emulator from Android Studio under Linux Ubuntu 18.04 and a SDK error message may be displayed. You will find below how to solve this issue. This has been tested using API 4 of the SDK plugin, Android Studio 3.4.1
Learning algorithms generally need significant prior information on the task they are attempting to solve. This requirement limits their flexibility and forces engineers to provide appropriate priors at design time. A question then arises naturally: how can we reduce the amount of prior task information needed by the algorithm? Being able to answer this question could spark the development of algorithms with higher generalization potential, all the while reducing preliminary engineering efforts. If we want to discard any a priori knowledge about the task, we need the learning algorithm to efficiently explore and represent the space of possible outcomes it can achieve.