Showing total 7 results

1. A framework for modeling the detailed optical response of thick, multiple segment, large format sensors for precision astronomy applications

Author

Rasmussen, Andrew, Antilogus, Pierre, Astier, Pierre, Claver, Chuck, Doherty, Peter, Dubois-Felsmann, Gregory, Gilmore, Kirk, Kahn, Steven, Kotov, Ivan, Lupton, Robert, O, Paul, Nomerotski, Andrei, Ritz, Steve, and Stubbs, Christopher William

Subjects

CCDs, charge collection, drift fields, flat field distortion, pixel size variation, imaging nonlinearities

Abstract

Near-future astronomical survey experiments, such as LSST, possess system requirements of unprecedented fidelity that span photometry, astrometry and shape transfer. Some of these requirements flow directly to the array of science imaging sensors at the focal plane. Availability of high quality characterization data acquired in the course of our sensor development program has given us an opportunity to develop and test a framework for simulation and modeling that is based on a limited set of physical and geometric effects. In this paper we describe those models, provide quantitative comparisons between data and modeled response, and extrapolate the response model to predict imaging array response to astronomical exposure. The emergent picture departs from the notion of a fixed, rectilinear grid that maps photo-conversions to the potential well of the channel. In place of that, we have a situation where structures from device fabrication, local silicon bulk resistivity variations and photo-converted carrier patterns still accumulating at the channel, together influence and distort positions within the photosensitive volume that map to pixel boundaries. Strategies for efficient extraction of modeling parameters from routinely acquired characterization data are described. Methods for high fidelity illumination/image distribution parameter retrieval, in the presence of such distortions, are also discussed. © (2014) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only., Astronomy

Published

2014

2. Integrating Human- and Computer-Based Approaches to Feature Extraction and Analysis

Author

Rogowitz, Bernice E. and Goodman, Alyssa A.

Subjects

Computing systems, Feature extraction, Pattern recognition, Visualization, Algorithms, Databases

Abstract

A major goal of imaging systems is to help doctors, scientists, engineers, and analysts identify patterns and features in complex data. There is a wide range of imaging, visualization, and graphics systems, ranging from fully automatic systems that extract features algorithmically to interactive systems that allow the analyst to manipulate visual representations directly to discover features. Although automatic feature-extraction algorithms are often directed by human observation, and human pattern recognition is often supported by algorithmic tools, very little work has been done to explore how to capitalize on the interaction between human and machine pattern recognition. This paper introduces a preliminary roadmap for guiding research in this space. One key concept is the explicit consideration of the task, which determines which methods and tools will be most effective. The second is the explicit inclusion of a "human-in-the-loop," who interacts with the data, the algorithms, and representations, to identify meaningful features. The third is the inclusion of a process for creating a mathematical representation of the features that have been "carved out" by the human analyst, for use in comparison, database query or analysis., Astronomy

Published

2012

3. BICEP3 focal plane design and detector performance

Author

Hui, H., Ade, P. A. R., Ahmed, Z., Alexander, Kate Denham, Amiri, M., Barkats, Denis A., Benton, S. J., Bischoff, Colin A., Bock, J. J., Boenish, H., Bowens-Rubin, R, Buder, I, Bullock, E., Buza, Victor, Connors, Jake Anthony, Filippini, J. P., Fliescher, S., Grayson, J. A., Halpern, M., Harrison, Sarah, Hilton, G. C., Hristov, V. V., Irwin, K. D., Kang, J., Karkare, Kirit Sukrit, Karpel, E., Kefeli, S., Kernasovskiy, S. A., Kovac, John M, Kuo, C. L., Leitch, E. M., Lueker, M., Megerian, K. G., Monticue, V., Namikawa, T., Netterfield, C. B., Nguyen, H. T., O, R., Ogburn, R. W., Pryke, C, Reintsema, C. D., Richter, Sonja Valeska, Schwarz, R., Sorensen, C., Sheehy, C. D., Staniszewski, Z. K., Steinbach, B., Teply, G. P., Thompson, K. L., Tolan, J. E., Tucker, C., Turner, A. D., Vieregg, A. G., Wandui, A., Weber, A. C., Wiebe, D. V., Willmert, J., Wu, W. L. K., and Yoon, K. W.

Subjects

Cosmic Microwave Background, BICEP, Keck Array, Polarization

Abstract

BICEP3, the latest telescope in the BICEP/Keck program, started science observations in March 2016. It is a 550mm aperture refractive telescope observing the polarization of the cosmic microwave background at 95 GHz. We show the focal plane design and detector performance, including spectral response, optical efficiency and preliminary sensitivity of the upgraded BICEP3. We demonstrate 9.72 µK√s noise performance of the BICEP3 receiver., Astronomy

Published

2016

4. BICEP2 and Keck array operational overview and status of observations

Author

Ogburn, R. W., Ade, P. A. R., Aikin, R. W., Amiri, M., Benton, S. J., Bischoff, Colin A., Bock, J. J., Bonetti, J. A., Brevik, J. A., Bullock, E., Burger, B., Davis, G., Dowell, C. D., Duband, L., Filippini, J. P., Fliescher, S., Golwala, S. R., Gordon, M., Halpern, M., Hasselfield, M., Hilton, G., Hristov, V. V., Hui, H., Irwin, K., Kaufman, J. P., Keating, B. G., Kernasovskiy, S. A., Kovac, John M, Kuo, C. L., Leitch, E. M., Lueker, M., Montroy, T., Netterfield, C. B., Nguyen, H. T., O, R., Orlando, Abigail Claire, Pryke, C, Reintsema, C., Richter, Sonja Valeska, Ruhl, J. E., Runyan, M. C., Schwarz, R., Sheehy, C. D., Staniszewski, Z. K., Sudiwala, R. V., Teply, G. P., Thompson, K., Tolan, J. E., Turner, A. D., Vieregg, A. G., Wiebe, D. V., Wilson, P., and Wong, C. L.

Subjects

Cosmic microwave background, microwave, TES, polarization, inflation, gravitational waves, cosmology

Abstract

The Bicep2 and Keck Array experiments are designed to measure the polarization of the cosmic microwave background (CMB) on angular scales of 2-4 degrees (ℓ = 50–100). This is the region in which the B-mode signal, a signature prediction of cosmic inflation, is expected to peak. Bicep2 was deployed to the South Pole at the end of 2009 and is in the middle of its third year of observing with 500 polarization-sensitive detectors at 150 GHz. The Keck Array was deployed to the South Pole at the end of 2010, initially with three receivers—each similar to Bicep2. An additional two receivers have been added during the 2011-12 summer. We give an overview of the two experiments, report on substantial gains in the sensitivity of the two experiments after post-deployment optimization, and show preliminary maps of CMB polarization from Bicep2., Astronomy

Published

2012

5. Antenna-coupled TES bolometer arrays for BICEP2/Keck and SPIDER

Author

Orlando, Abigail Claire, Aikin, R. W., Amiri, M., Bock, J. J., Bonetti, J. A., Brevik, J. A., Burger, B., Chattopadthyay, G., Day, P. K., Filippini, J. P., Golwala, S. R., Halpern, M., Hasselfield, M., Hilton, G. C., Irwin, K. D., Kenyon, M., Kovac, John M, Kuo, C. L., Lange, A. E., LeDuc, H. G., Llombart, N., Nguyen, H. T., Ogburn, R. W., Reintsema, C. D., Runyan, M. C., Staniszewski, Z., Sudiwala, R., Teply, G., Trangsrud, A. R., Turner, A. D., and Wilson, P.

Subjects

Cosmic microwave background, polarization, TES bolometer arrays, millimeter wave instrumentation

Abstract

BICEP2/Keck and SPIDER are cosmic microwave background (CMB) polarimeters targeting the B-mode polarization induced by primordial gravitational waves from inflation. They will be using planar arrays of polarization sensitive antenna-coupled TES bolometers, operating at frequencies between 90 GHz and 220 GHz. At 150 GHz each array consists of 64 polarimeters and four of these arrays are assembled together to make a focal plane, for a total of 256 dual-polarization elements (512 TES sensors). The detector arrays are integrated with a time-domain SQUID multiplexer developed at NIST and read out using the multi-channel electronics (MCE) developed at the University of British Columbia. Following our progress in improving detector parameters uniformity across the arrays and fabrication yield, our main effort has focused on improving detector arrays optical and noise performances, in order to produce science grade focal planes achieving target sensitivities. We report on changes in detector design implemented to optimize such performances and following focal plane arrays characterization. BICEP2 has deployed a first 150 GHz science grade focal plane to the South Pole in December 2009., Astronomy

Published

2010

6. Multichannel vibrotactile display for sensory substitution during teleoperation

Author

Debus, Thomas, Becker, Theresia, Dupont, Pierre E, Jang, Tae-Jeong, and Howe, Robert D.

Abstract

This paper presents the design and testing of a multi-channel vibrotactile display composed of cylindrical handle with four embedded vibrating elements driven by piezoelectric beams. The experimental goal of the paper is to analyze the performance of the device during a teleoperated force controlled task. As a test bed, a teleoperator system composed of two PHANToM haptic devices is used to trace a rectangular path while the operator attempts to maintain a constant force at the remote manipulator's tip. Four sensory modalities are compared. The first is visual feedback alone. Then, visual feedback is combined with vibration, force feedback, and force feedback plus vibration. Comparisons among these four modes are presented in terms of mean force error. Results show that force feedback combined with vibration provide the best feedback for the task. They also indicate that the vibrotactile device provides a clear benefit in the intended application, by reducing the mean force errors by 35 percent when compared to visual feedback alone.

Published

2001

7. Ultrasound-based servoing of manipulators for telesurgery

Author

Stoll, Jeff, Dupont, Pierre E, and Howe, Robert D.

Abstract

Certain minimally invasive surgical procedures involve the treatment of highly precise target locations within deformable tissues. While preoperative MRI and CT models can be used for surgical planning, they provide only coarse guidance during surgery due to their limited resolution and owing to tissue deformation. Ultrasound imaging is a promising means of obtaining real-time intraoperative data for target localization that is particularly well suited to minimally invasive surgery due to its portability, speed, and safety. This paper presents a system, in which ultrasound images are used to guide a manipulator to a surgical site. Electromagnetic tracking of the ultrasound probe is used to orient the images. These are then segmented in real time to determine target locations. Finally, target coordinates are used to produce control inputs to drive the manipulator to the target site. The potential of the approach is demonstrated experimentally using a manipulator arm, phantom target, and commercial ultrasound machine.

Published

2001