We present a new Inter-Process Communication (IPC) mechanism and library. Ach is uniquely suited for coordinating perception, control drivers, and algorithms in real-time systems that sample data from physical processes. Ach eliminates the Head-of-Line Blocking problem for applications that always require access to the newest message. Ach is efficient, robust, and formally verified. It has been tested and demonstrated on a variety of physical robotic systems. Finally, the source code for Ach is available under an Open Source BSD-style license
The production industry is confronted with a big change from classical factory planning to digitized...
Cyber-physical systems (CPSs) for real-time advanced process control (RT-APC) are a class of control...
We investigate the computational needs of advanced real-time robot control. First, sampling rate iss...
© 2012 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
© 2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The performance of real-time distributed control systems is shown to depend critically on both commu...
This paper illustrates the use of the Yale XP/DCS - a dual board real-time distributed control modul...
Abstract: Direct real-time communication among various software components of a multi-robot system (...
Analysis of a robot control system leads to a broad range of processing requirements. One fundamenta...
Attempts to create a Real-time Inter-Process Communication (RIPC) framework in the form of a C++ lib...
The industry of tomorrow is changing from central hierarchical industrial and robot controls to dist...
Determination of response times of the communicating distributed processes is presented as a fundame...
Abstract—New robot applications increasingly require exter-nal sensing to accomplish robustness and ...
Typically, components in a manufacturing system are all centrally controlled. Due to possible commun...
In the last decades robot control has been an area of active research and development. Mechanical ma...
The production industry is confronted with a big change from classical factory planning to digitized...
Cyber-physical systems (CPSs) for real-time advanced process control (RT-APC) are a class of control...
We investigate the computational needs of advanced real-time robot control. First, sampling rate iss...
© 2012 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
© 2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The performance of real-time distributed control systems is shown to depend critically on both commu...
This paper illustrates the use of the Yale XP/DCS - a dual board real-time distributed control modul...
Abstract: Direct real-time communication among various software components of a multi-robot system (...
Analysis of a robot control system leads to a broad range of processing requirements. One fundamenta...
Attempts to create a Real-time Inter-Process Communication (RIPC) framework in the form of a C++ lib...
The industry of tomorrow is changing from central hierarchical industrial and robot controls to dist...
Determination of response times of the communicating distributed processes is presented as a fundame...
Abstract—New robot applications increasingly require exter-nal sensing to accomplish robustness and ...
Typically, components in a manufacturing system are all centrally controlled. Due to possible commun...
In the last decades robot control has been an area of active research and development. Mechanical ma...
The production industry is confronted with a big change from classical factory planning to digitized...
Cyber-physical systems (CPSs) for real-time advanced process control (RT-APC) are a class of control...
We investigate the computational needs of advanced real-time robot control. First, sampling rate iss...