Use of computers and cathode-ray-tube displays
in visual psychophysics Guest Editor: Hans Strasburger
Use of computers and cathode-ray-tube displays
in visual psychophysics University of Magdeburg & University of München
| Europe: David H. Foster Dept. of Vision Sciences Aston University Aston Triangle Birmingham B4 7ET email: D.H.Foster@aston.ac.uk |
USA: Adam Reeves Dept. of Psychology Northeastern University Boston, Mass. 02115 USA email: Reeves@neu.edu |
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| Use of computers and cathode-ray-tube displays in visual psychophysics. Part I. H. Strasburger |
300-304 |
| High refresh rate and oculomotor adaptation facilitate reading from video displays. Montegut, M.J., Bridgeman, B., Sykes, J. |
305-322 |
| P31 phosphor persistence at photopic mean luminance level Wolf, W. and Deubel, H. |
323-333 |
| A pixel-resolution video switcher for eye contingent display changes Van Diepen, P.M.J. |
335-344 |
| Characteristics of the Sony multiscan 17se Trinitron color graphics display Bohnsack, D.L., Diller, L.C., Yeh, T., Jenness, J.W. and Troy, J.B. |
345-351 |
| Phosphor persistence of oscilloscopic displays: a comparison of four phosphors Di Lollo, V., Seiffert, A.E., Burchett, G., Rabeeh, R. and Ruman, T.A. |
353-360 |
| An introduction to accurate display timing for PCs under Windows Gofen, A. and Mackeben, M. |
361-368 |
| Colour bit-stealing to enhance the luminance resolution of digital displays on a single pixel basis Tyler, C. W. |
369-377 |
| Selective stimulation of colour mechanisms: An empirical perspective Kulikowski, J.J., McKeefry, D.J. and Robson, A.G. |
379-402 |
| Raster-scan cathode ray tubes for vision research -- limits of resolution in space, time and intensity, and some solutions Bach, M., Meigen, T. and Strasburger, H. |
403-414 |
| Software and Hardware Notes (Part I) | |
| A display controller for very brief image presentations Finley, G. |
417-422 |
| Dots & Pixels, a C++ library for the display of random dot patterns Verlinde, R. |
423-427 |
| XPIP 2.2: X portable interface package Lesher, G.W. |
429-431 |
| The Psychophysics Toolbox Brainard, D.H. |
433-446 |
| The VideoToolbox software for visual psychophysics: Transforming numbers into movies Pelli, D.G. |
437-442 |
| Pixel independence: Measuring spatial interactions on a CRT display Pelli, D. G. |
443-446 |
| Psychophysica: Mathematica Notebooks for Psychophysical Experiments. Cinematica - Psychometrica - Quest Watson, A.B. and Solomon, J.A. |
447-466 |
| PXL: A library for psychological experiments on IBM-PC type computers Irtel, H. |
467-469 |
| The use of VisionWorks™ in visual psychophysics research Swift, D., Panish, S. and Hippensteel, B. |
471-477 |
| The Morphonome image psychophysics software and calibrator for Macintosh systems Tyler, C.W. and McBride, B. |
479-484 |
| A note on luminance calibration of raster-scan cathode ray tubes: Temporal resolution, ripple and accuracy Bach, M. |
485-489 |
| FORPXL - A Fortran interface to PXL, the psychological experiments library Jüttner, M. and Strasburger, H. |
491-493 |
| R_Contrast: Rapid measurement of recognition contrast thresholds Strasburger, H. |
495-498 |
| Programs for diagnosis and therapy of visual field deficits in vision rehabilitation Kasten, E., Strasburger, H. and Sabel, B. |
499-503 |
| Contents Index to Volume 10 | 505-508 |
| Subject Index to Volume 10 | 509-510 |
| Author Index to Volume 10 | 511-512 |
| Contents of Part II, Volume 11(1) Ingenta link 11(1) | |
| Use of computers and cathode-ray-tube displays
in visual psychophysics. Part II. H. Strasburger |
1 |
| Making things move -- the options for computer-based displays Cox, M.J. |
3 |
| Application of M-JPEGcompression hardware to dynamic stimulus production Mulligan, J.B. |
19 |
| A real-time method for generating random-dot motion displays of specific coherence Intriligator, J. |
33 |
| Simple integrative method for presenting head-contingent motion parallax and disparity cues on Intel x86 processor-based machines Szatmary, J., Hadain, I. and Julesz, B. |
43 |
| Calibrating screens for continuous colour displays Shepherd, A.J. |
57 |
| A binocular fiberscope for presenting visual stimuli during fMRI Cornelissen, F., Pelli, D.G., Farell, B., Huckins, S.C. and Szeverenyi, N.M. |
75 |
| Software and Hardware Notes (Part II) | |
| Anti-aliasing and dithering in the 'Freiburg Visual Acuity Test' Bach, M. |
85 |
| The UMIST Eye System French, C.N. |
91 |
| VSApc: A C++ package for quantitative extracellular single-cell electrophysiology Bohnsack, D.L. and Troy, J.B. |
95 |
| The PsyScope experiment-building system MacWhinney, B., Cohen, J. and Provost, J. |
99 |
| Visuelle Welt: A Windows™ program for demonstrating visual-perception phenomena Hübner, R. |
103 |
| The IPRS Image Processing and Pattern Recognition System Caelli, T. , Dillon, C., Osman, E. and Krieger, G. |
107 |
|
Gabor-wavelet decomposition based filtering of gray-level images for object and scene recognition experiments Fiser, J. and King, I. |
117 |
| Efficient estimation of sensory thresholds with ML-PEST Harvey, L.O. Jr. |
121 |
| YAAP: Yet another adaptive procedure Treutwein, B. |
129 |
| Bootstrap estimates of the statistical accuracy of thresholds from psychometric functions Foster, D.H. and Bischof, W.F. |
135 |
| d'plus: A program to calculate accuracy and bias measures from detection and discrimination data Macmillan, N.A. and Creelman, C.D. |
141 |