O. P. Goidin, S. A. Sobolnikov
RobSim software for mobile robots modeling

This paper discusses issues of Unmanned Vehicles' (UV) modeling at various stages of their life-cycle. It presents software system RobSim. RobSim has a capacity to develop models of UVs of high complicity and perform modeling of their functioning. The paper describes structure of RobSim software with basic developers' tools including high-level robotic languages programming and control.

Sedat Dogru, Lino Marques
Radar Based Through-Wall Mapping

Autonomous robots have been in use to construct maps of unknown areas, off ering indispensable help for various emergency situations, including but not limited to hostage rescue and fi re accidents. In these situations, time and safety are paramount requiring prompt and accurate action. Through-wall mapping capability, allowing robots to create a map without physically visiting all the space of interest, provides both a faster and safer way to create a map. In this paper, we show that an off -the-shelf automotive radar can be used to detect obstacles placed behind walls, and hence create a proper map for various confi gurations.

Robin Pellois, Olivier Brüls
Human arm motion tracking using IMU measurements in a robotic environnement

Human-robot interactions (HRI) is an emerging paradigm that aims at combining com- plementary skills of robot and human. The meaningful human arm motion represent an interesting way of communication to explore with robot. IMUs appear as a simple, lightweight, easy-to-use, technology for human motion tracking compared to other systems such as opto-electronic devices. However, IMUs require important data treatement to reconstruct human motion and are usually coupled with a magnetometer or even other sensors. This paper explores a method only based on IMUs (accelerometer and gyroscope) to track human motion in order to keep the simplicity and robustness of IMUs in an industrial environnement with magnetic disturbances. The signal processing method presented here limit the well-known drift of the gyroscope by gravity measurement.

L. Cantelli, D. C. Guastella, D. Longo, C. D. Melita, G. Muscato
Coverage path planning by swarm of UAVs for UGV traversability analysis

In rough or risky environments, such as minefields, landslides or volcanic eruptions, it is extremely complex to plan safe trajectories for an Unmanned Ground Vehicle (UGV), since both robot stability and path execution feasibility must be guaranteed. In these scenarios, the adoption of a swarm of Unmanned Aerial Vehicles (UAVs) to survey the area and reconstruct 3D models of the environment can be really helpful. In this paper we will present a complete solution combining three different aspects. The first is the coverage path planning and concerns the definition of UAV trajectories for photogrammetric aerial image acquisition. When non-coverable zones are present, a suitable decomposition into subregions of the whole area to survey is performed. The second aspect is then related to the use of a swarm of UAVs to implement the coverage in a parallel way. A solution to assign the different regions among the flying vehicles will be presented, which optimises the path length of the whole swarm. The last aspect concerns the path planning of the ground vehicle, by means of a traversability analysis performed on the terrain 3D model (reconstructed from the previous aerial survey). The computed paths will be optimal in terms of difficulty of moving across the rough terrain. The results of each step of the overall approach will be shown.

Y. Inoue , M. Y. Saraiji, F. Kato, S. Tachi
Enhancing Bodily Expression and Communication Capacity of Telexistence Robot with Augmented Reality

This paper focuses on realization of embodied remote communication via telexistence robot with augmented reality (AR). Though a robot equipped with communication functions can realize natural conversation remotely, the robot has to reproduce bodily expressions of the robot user for achieving embodied communication. A humanoid is optimal shape for the purpose, but this kind of robot is currently expensive and difficult to popularize. By contrast, a 3DOF head-moving robot is easier to develop, but the bodily expression capacity is limited. To solve the trade-off problem, we propose an AR-based presentation system visualizing additional body-parts of head-moving robot. The developed system consists of a head-mounted display (HMD) worn by an operator, a 3DOF robot controlled by the operator’s head movement, and see-through AR glasses worn by an interlocutor who faces the robot. For visualizing bodily expression, the system generates 3D-CG image of virtual avatar which copies operator’s body movements, and projects the image onto both operator’s HMD and interlocutor’s glasses simultaneously. Consequently, proposed system provides body gesture functions to 3DOF robot, and achieves embodied remote communication.