Lakeside Labs and NES institute of the Alpen-Adria-Universität are working on autonomous multi-robot systems. The research focuses on the organization and communication during an exploration of indoor environments. Such autonomous systems may keep humans from entering hazardous environments by exploring it first. The implementation of wireless communication between robots without having to rely on pre-installed communication hardware, such as wireless routers or cellular networks is one of the tasks. The newly created communication modules are used to exchange local maps produced by robots and to merge these local maps to a common global map. The video shows how our approach works. For further information please contact: http://www.lakeside-labs.com
All content for Research on self-organizing networked systems SD is the property of Lakeside Labs and is served directly from their servers
with no modification, redirects, or rehosting. The podcast is not affiliated with or endorsed by Podjoint in any way.
Lakeside Labs and NES institute of the Alpen-Adria-Universität are working on autonomous multi-robot systems. The research focuses on the organization and communication during an exploration of indoor environments. Such autonomous systems may keep humans from entering hazardous environments by exploring it first. The implementation of wireless communication between robots without having to rely on pre-installed communication hardware, such as wireless routers or cellular networks is one of the tasks. The newly created communication modules are used to exchange local maps produced by robots and to merge these local maps to a common global map. The video shows how our approach works. For further information please contact: http://www.lakeside-labs.com
This video explains our research on autonomous unmanned aerial vehicles (UAVs). The research team at the Alpen-Adria University and Lakeside Labs developing a multi-UAV system by four key components:
- the multiple UAV platforms,
- The sensing component that analyzes the captured data,
- the aerial network that provides wireless networking functionality among the UAVs and the ground station,
- the coordination component that organizes the individual tasks of the UAVs to achieve a common mission goal.
The Self-organizing Intelligent Network of UAVs (SINUS) project focuses on the integration of these components and their interaction to effectively close the sensing-networking-acting loop within the multi-UAV system.
Such a tight integration is necessary for deploying self-organizing UAVs in dynamic and partly unknown environments.
For more information please visit our website: http://uav.lakeside-labs.com/overview/sinus/
Thank you for watching.
Research on self-organizing networked systems SD
Lakeside Labs and NES institute of the Alpen-Adria-Universität are working on autonomous multi-robot systems. The research focuses on the organization and communication during an exploration of indoor environments. Such autonomous systems may keep humans from entering hazardous environments by exploring it first. The implementation of wireless communication between robots without having to rely on pre-installed communication hardware, such as wireless routers or cellular networks is one of the tasks. The newly created communication modules are used to exchange local maps produced by robots and to merge these local maps to a common global map. The video shows how our approach works. For further information please contact: http://www.lakeside-labs.com
