Fused deposition modeling (FDM) additive manufacturing, while versatile, has performance limitations in certain geometries, such as arcs, and holes. Iterative Learning Control (ILC) is good at accounting for disturbances to a system that are constant, but difficult to model and correct. Since the printer is doing repetitive actions, but not producing accurate parts, it is thought that ILC could be used to compensate for the disturbances thus improving accuracy. In order to start the development of the control system it was first necessary to get a baseline for the printer and scanner. Based on the initial results of the testing it was concluded that both the printer and scanner were a source of error and thus would both need to be accounted...
This thesis addresses the improvement of wafer scanner technology from the controls aspect. In parti...
Additive manufacturing (AM) processes are capable of producing objects of high precision. There are ...
3D printing (additive manufacturing) is an emerging technology with the ability to make complex, fre...
Fused deposition modeling (FDM) additive manufacturing, while versatile, has performance limitations...
The increase of paper size and production speed in wide-format inkjet printing systems is limited by...
Abstract: Iterative Learning Control (ILC) is a technique for improving the performance of systems o...
In this paper, a new Parameterized Iterative Learning Controller (PILC) is discussed. A fixed struct...
In this paper, a new Parameterized Iterative Learning Controller (PILC) is discussed. A fixed struct...
Advanced control methods potentially enable performance improvements in printing systems for minor a...
ASML is always searching for improvements in reducing the servo error of both the Wafer Stage and th...
Iterative Learning Control (ILC) is a technique for improving the performance ofsystems or processes...
Iterative learning control (ilc) is a method to improve the control of processes that perform the sa...
Since performance variables cannot be measured directly, Iterative Learning Control (ILC) is usually...
Iterative Learning Control (ILC) can significantly improve performance of systems that perform repea...
Advances in photolithography are one of the key driving factors in the continuing expansion in capac...
This thesis addresses the improvement of wafer scanner technology from the controls aspect. In parti...
Additive manufacturing (AM) processes are capable of producing objects of high precision. There are ...
3D printing (additive manufacturing) is an emerging technology with the ability to make complex, fre...
Fused deposition modeling (FDM) additive manufacturing, while versatile, has performance limitations...
The increase of paper size and production speed in wide-format inkjet printing systems is limited by...
Abstract: Iterative Learning Control (ILC) is a technique for improving the performance of systems o...
In this paper, a new Parameterized Iterative Learning Controller (PILC) is discussed. A fixed struct...
In this paper, a new Parameterized Iterative Learning Controller (PILC) is discussed. A fixed struct...
Advanced control methods potentially enable performance improvements in printing systems for minor a...
ASML is always searching for improvements in reducing the servo error of both the Wafer Stage and th...
Iterative Learning Control (ILC) is a technique for improving the performance ofsystems or processes...
Iterative learning control (ilc) is a method to improve the control of processes that perform the sa...
Since performance variables cannot be measured directly, Iterative Learning Control (ILC) is usually...
Iterative Learning Control (ILC) can significantly improve performance of systems that perform repea...
Advances in photolithography are one of the key driving factors in the continuing expansion in capac...
This thesis addresses the improvement of wafer scanner technology from the controls aspect. In parti...
Additive manufacturing (AM) processes are capable of producing objects of high precision. There are ...
3D printing (additive manufacturing) is an emerging technology with the ability to make complex, fre...