The Experts below are selected from a list of 3 Experts worldwide ranked by ideXlab platform
Eric Miller - One of the best experts on this subject based on the ideXlab platform.
-
WITH COMPUTER VISION-BASED CALIBRATION FOR TARGETING ACCURACY
2006Co-Authors: Lee E. Weiss, Larry Schultz, Eric MillerAbstract:This report describes a custom inkjet system, which was developed at the Robotics Institute, for accurately depositing various material inks onto or relative to specified target locations on substrates. The system uses computer vision-based calibration to achieve targeting accuracies of 4 μm or less with Drop-on-Demand Inkjets. This versatile system is currently used for several diverse research programs at Carnegie Mellon, ranging from gas chemical sensor manufacturing to biological patterning. For example, chemically-sensitive semi-conducting polymers are deposited onto arrays of CMOS-MEMS and FET microtransducers in order to fabricate chemical sensor microarrays. These sensors are being integrated into multi-modal systems that combine different sensing modalities with different polymers on a single chip. For another example, bioinks of growth factors are deposited onto biological substrates to form patterned arrays of these factors. To precisely quantify cell responses relative to these patterns it is important print these patterns relative to specific locations on the substrates to facilitate subsequent registration in the cell culture imaging system. INKJET DEPOSITION SYSTE
Lee E. Weiss - One of the best experts on this subject based on the ideXlab platform.
-
WITH COMPUTER VISION-BASED CALIBRATION FOR TARGETING ACCURACY
2006Co-Authors: Lee E. Weiss, Larry Schultz, Eric MillerAbstract:This report describes a custom inkjet system, which was developed at the Robotics Institute, for accurately depositing various material inks onto or relative to specified target locations on substrates. The system uses computer vision-based calibration to achieve targeting accuracies of 4 μm or less with Drop-on-Demand Inkjets. This versatile system is currently used for several diverse research programs at Carnegie Mellon, ranging from gas chemical sensor manufacturing to biological patterning. For example, chemically-sensitive semi-conducting polymers are deposited onto arrays of CMOS-MEMS and FET microtransducers in order to fabricate chemical sensor microarrays. These sensors are being integrated into multi-modal systems that combine different sensing modalities with different polymers on a single chip. For another example, bioinks of growth factors are deposited onto biological substrates to form patterned arrays of these factors. To precisely quantify cell responses relative to these patterns it is important print these patterns relative to specific locations on the substrates to facilitate subsequent registration in the cell culture imaging system. INKJET DEPOSITION SYSTE
Larry Schultz - One of the best experts on this subject based on the ideXlab platform.
-
WITH COMPUTER VISION-BASED CALIBRATION FOR TARGETING ACCURACY
2006Co-Authors: Lee E. Weiss, Larry Schultz, Eric MillerAbstract:This report describes a custom inkjet system, which was developed at the Robotics Institute, for accurately depositing various material inks onto or relative to specified target locations on substrates. The system uses computer vision-based calibration to achieve targeting accuracies of 4 μm or less with Drop-on-Demand Inkjets. This versatile system is currently used for several diverse research programs at Carnegie Mellon, ranging from gas chemical sensor manufacturing to biological patterning. For example, chemically-sensitive semi-conducting polymers are deposited onto arrays of CMOS-MEMS and FET microtransducers in order to fabricate chemical sensor microarrays. These sensors are being integrated into multi-modal systems that combine different sensing modalities with different polymers on a single chip. For another example, bioinks of growth factors are deposited onto biological substrates to form patterned arrays of these factors. To precisely quantify cell responses relative to these patterns it is important print these patterns relative to specific locations on the substrates to facilitate subsequent registration in the cell culture imaging system. INKJET DEPOSITION SYSTE
