This paper presents the concept and architecture of a model predictive feedback control system to be used for compensating communication delays in networked industrial robot control. This approach follows the ideas given by the paradigms of Industrie 4.0 that demand for highly networked production devices and functions on different machine layers and IT hierarchy levels. We push the concept of fully outsourced control systems to a point, where even real-time critical feedback processes are driven from cloud-based services over uncertain public networks
Cloud Robotics is a new paradigm where distributed robots are connected to cloud services via networ...
The variable time delay and the packet loss in the Internet degrade seriously the performance of Int...
The cloud robotics paradigm aims at enhancing the abilities of robots by using cloud services, but i...
This paper introduces a new concept for flexible motion planning and control of industrial robots. I...
The classical design of industrial robot controllers relies strongly on constant and stable cycle ti...
Advances in communication, information technology, and computation have led to a rapid change of tod...
In this paper we present a computational offloading strategy with graceful degradation for executing...
In this paper, we address the tracking control problem for a unicycle-type mobile robot which is rem...
The variable time delay and the packet loss degrade the performance of Internet based teleoperation ...
This paper describes our concept for control of robots and machine tools through a private factory c...
This paper studies the problem of predictive output feedback control for networked control systems w...
The current trend in robotics is to enhance robustness against uncertainties through complex modern ...
Nowadays, interconnectivity is becoming increasingly important. According to industry, the Industria...
International audienceThe objective of this paper is to present an online trajectory tracking based ...
Cloud Robotics is a new paradigm where distributed robots are connected to cloud services via networ...
The variable time delay and the packet loss in the Internet degrade seriously the performance of Int...
The cloud robotics paradigm aims at enhancing the abilities of robots by using cloud services, but i...
This paper introduces a new concept for flexible motion planning and control of industrial robots. I...
The classical design of industrial robot controllers relies strongly on constant and stable cycle ti...
Advances in communication, information technology, and computation have led to a rapid change of tod...
In this paper we present a computational offloading strategy with graceful degradation for executing...
In this paper, we address the tracking control problem for a unicycle-type mobile robot which is rem...
The variable time delay and the packet loss degrade the performance of Internet based teleoperation ...
This paper describes our concept for control of robots and machine tools through a private factory c...
This paper studies the problem of predictive output feedback control for networked control systems w...
The current trend in robotics is to enhance robustness against uncertainties through complex modern ...
Nowadays, interconnectivity is becoming increasingly important. According to industry, the Industria...
International audienceThe objective of this paper is to present an online trajectory tracking based ...
Cloud Robotics is a new paradigm where distributed robots are connected to cloud services via networ...
The variable time delay and the packet loss in the Internet degrade seriously the performance of Int...
The cloud robotics paradigm aims at enhancing the abilities of robots by using cloud services, but i...