Add to ORKGA new class of control algorithms—the “mirror algorithms”— gives rise to experimentally observed juggling and catching behavior in a planar robotic mechanism. The simplest of these algorithms (on which all the others are founded) is provably correct with respect to a simplified model of the robot and its environment. This article briefly reviews the physical setup and underlying mathematical theory. It discusses two significant extensions of the fundamental algorithm to juggling two objects and catching. We provide data from successful empirical verifi cations of these control strategies and briefly speculate on the larger implications for the field of robotics. For more information: Kod*La
We report on our recently achieved spatial two-juggle: the ability to bat two freely falling balls i...
In previous papers we have reported successful laboratory implementations of a family of juggling al...
We explore a very simple representative of a class of of robotic tasks which require dynamic dexter...
A new class of control algorithms - “mirror algorithms” - give rise to experimentally observedjuggli...
A new class of control algorithms - “mirror algorithms” - give rise to experimentally observedjuggli...
A new class of control algorithms—the "mirror algorithms"— gives rise to experimentally observed jug...
A new class of control algorithms—the "mirror algorithms"— gives rise ...
A new class of control algorithms—the "mirror algorithms"— gives rise ...
We have developed a formalism for describing and analyzing a very simple representative of a class o...
This article develops a formalism for describing and analyzing a very simple representative class of...
We discuss the sensory management strategy that has evolved over the course of our efforts to build ...
The juggling work takes its place within a larger program of research concerned with the development...
We develop a formalism for describing and analyzing a very simple representative of a class of robot...
We explore a very simple representative of a class of of robotic tasks which require dynamic dexter...
The juggling work takes its place within a larger program of research concerned with the development...
We report on our recently achieved spatial two-juggle: the ability to bat two freely falling balls i...
In previous papers we have reported successful laboratory implementations of a family of juggling al...
We explore a very simple representative of a class of of robotic tasks which require dynamic dexter...
A new class of control algorithms - “mirror algorithms” - give rise to experimentally observedjuggli...
A new class of control algorithms - “mirror algorithms” - give rise to experimentally observedjuggli...
A new class of control algorithms—the "mirror algorithms"— gives rise to experimentally observed jug...
A new class of control algorithms—the "mirror algorithms"— gives rise ...
A new class of control algorithms—the "mirror algorithms"— gives rise ...
We have developed a formalism for describing and analyzing a very simple representative of a class o...
This article develops a formalism for describing and analyzing a very simple representative class of...
We discuss the sensory management strategy that has evolved over the course of our efforts to build ...
The juggling work takes its place within a larger program of research concerned with the development...
We develop a formalism for describing and analyzing a very simple representative of a class of robot...
We explore a very simple representative of a class of of robotic tasks which require dynamic dexter...
The juggling work takes its place within a larger program of research concerned with the development...
We report on our recently achieved spatial two-juggle: the ability to bat two freely falling balls i...
In previous papers we have reported successful laboratory implementations of a family of juggling al...
We explore a very simple representative of a class of of robotic tasks which require dynamic dexter...