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Creator | Title | Description | Subject | Date |
| 1 |
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Evans, David | Graphical man/machine communications: May 1967 | Semiannual technical report for period ending 15 May, 1967. | | 1967-05 |
| 2 |
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Evans, David | Graphical man/machine communications: November 1966 | Semiannual progress report for period ending 30 November, 1966. | | 1966-11 |
| 3 |
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Evans, David | Graphical man/machine communications: November 1969 | Semi-Annual Technical Report 1 June 1969 - 30 November 1969 | | 1969-11 |
| 4 |
 |
Evans, David | Graphical man/machine communications: June 1971 | Semi-Annual Technical Report for period 1 January 1971 to 31 May 1971. This document includes a summary of research activities and facilities at the University of Utah under Contract F30602-70-C-0300. Information conveys important research milestones attained during this period by each of the fo... | Curved surfaces; Digital waveform processing | 1971 |
| 5 |
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Evans, David | Graphical man/machine communications: February 1968 | Technical report No. RADC - TR - 68 - 90 for the period ending 30 November, 1967. Two classes of research activities are being conducted. One is research in information processsing system technology. The other is researach in application of interactive computing technology to the solution of severa... | Fluid flow problems | 1968-02 |
| 6 |
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Evans, David | Graphical man/machine communications: November 1968 | Semi-Annual Technical Report 1 June - 30 November 1968 | | 1968 |
| 7 |
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Evans, David | Graphical man/machine communications: May 1969 | Semi-Annual Technical Report 1 December 1968 - 30 May 1969 | | 1969-05 |
| 8 |
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Evans, David | Graphical man/machine communications: May 1971 | Final technical report 1 December 1969 to 30 June 1970. | | 1971-05 |
| 9 |
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Evans, David | Graphical man/machine communications: December 1972 | The object of the graphical man/machine communication effort is the development of computers and computing techniques the people may use interactively in real time to extend their problem-solving capability, and to work cooperatively by means of improved communications via computer. This report summ... | Waveform processing; Symbolic computation; Man/machine communications | 1972-12 |
| 10 |
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Evans, David | Graphical man/machine communications: June 1972 | | | 1972-06 |
| 11 |
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Evans, David | Graphical man/machine communications: December 1971 | Semi-Annual Technical Report for period 1 June 1971 to 31 December 1971. This document includes a summary of research activities and facilities at the University of Utah under Contract F30602-70-C-0300. Information conveys important research milestones attained during this period by each of the f... | Man/machine communications; Computing systems; Digital waveform processing | 1971-12 |
| 12 |
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Henderson, Thomas C. | Instrumented sensor system - practice | In previous work, we introduced the notion of Instrumented Logical Sensor Systems (ILSS) that are derived from a modeling and design methodology [4, 2]. The instrumented sensor approach is based on a sensori-computational model which defines the components of the sensor system in terms of their func... | Instrumented Logical Sensor Systems; ILSS | 1997 |
| 13 |
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Riesenfeld, Richard F.; Smith, Kent F. | An experimental system for computer aided geometric design | The main goal of this proposed level-of-effort project is to extend present capabilities in the area of Computer Aided Geometric Design (CAGD) and to develop custom VLSI support for some special geometric functions. | Computer aided geometric design; CAGD; VLSI; Very large scale integration | 1984 |
| 14 |
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Neff, Rick | Versatile interaction specification of tools and agents | Vista is a software infrastructure addressing the vexing problem of software tool interaction?especially how to get egocentric tools to work well together. Vista neither assumes nor requires that tools or tool-mediating agents understand a cooperative messaging protocol, only that they share some c... | Vista; software infrastructure; software tool interaction | 1994 |
| 15 |
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Gardner, Reed M. | Selection and Standardization of Respiratory Monitoring Equipment | Biomedical Informatics | | 1986 |
| 16 |
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Gardner, Reed M. | Challenges and Opportunities for Computerizing the Anesthesia Record | Biomedical Informatics | | 1994 |
| 17 |
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Wessler, Barry David | Computer-assisted visual communication (CSTD-73-004) | The purpose of this research was to build an environment m which an author can create a visual communications vehicle (a film) which will convey his ideas and thoughts. The primary motivation for this effort was the powerful ability of film to combine instruction with entertainment. The entertainmen... | Computer animation | 1973-07 |
| 18 |
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Mitchell, Joyce A. | Evaluating the informatics for integrating biology and the bedside system for clinical research | Background: Selecting patient cohorts is a critical, iterative, and often time-consuming aspect of studies involving human subjects; informatics tools for helping streamline the process have been identified as important infrastructure components for enabling clinical and translational research. We d... | | 2009-01-01 |
| 19 |
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Wehrli, Robert | ARCAID: The ARChitects computer graphics AID | ARCAID?The ARChitect's Computer Graphics AID?is one part of a two-part research program at the University of Utah under the direction of David C. Evans. ARCAID is a specification for the organization of computer processes including data and procedures for the use of architects, engineers, and other... | ARCAID | 1970 |
| 20 |
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Sobh, Tarek M.; Henderson, Thomas C. | Robot manipulator prototyping (Complete Design Review) | Prototyping is an important activity in engineering. Prototype development is a good test for checking the viability of a proposed system. Prototypes can also help in determining system parameters, ranges, or in designing better systems. The interaction between several modules (e.g., S/W, VLSI, CAD,... | Robot manipulator; Prototyping | 1994 |
| 21 |
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Sobh, Tarek M.; Henderson, Thomas C. | Robotic prototyping environment (Progress report) | Prototyping is an important activity in engineering. Prototype development is a good test for checking the viability of a proposed system. Prototypes can also help in determining system parameters, ranges, or in designing better systems. The interaction between several modules (e.g., S/W, VLSI, CAD,... | Prototyping; Prototyping environment; Robotic prototyping | 1994 |
| 22 |
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Bruderlin, Beat | An axiomatic approach for solving geometric problems symbolically | This paper describes a new approach for solving geometric constraint problems and problems in geometry theorem proving. We developed a rewrite-rule mechanism operating on geometric predicates. Termination and completeness of the problem solving algorithm can be obtained through well foundedness and ... | Geometric constraint problems; Geometry theorem proving; Knuth-Bendix completion algorithm | 1990 |
| 23 |
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Henderson, Thomas C. | Instrumented sensor system architecture | Sensor systems are becoming ubiquitous throughout society, yet their design, construction and operation is still more of an art than a science. In this paper, we define, develop, and apply a formal semantics for sensor systems that provides a theoretical framework for an integrated software architec... | Instrumented sensor system; Instrumented Logical Sensor Systems; ILSS | 1997 |
| 24 |
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Gardner, Reed M. | Patient-Monitoring Systems | Biomedical Informatics | | 2006 |
| 25 |
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Sobh, Tarek M.; Henderson, Thomas C. | Prototyping environment for robot manipulators | Prototyping is an important activity in engineering. Prototype development is a good test for checking the viability of a proposed system. Prototypes can also help in determining system parameters, ranges, or in designing better systems. We are proposing a prototyping environment for electro-mechani... | Prototyping; Robot manipulators | 1993 |
