Jeffrey Kodosky, Jack MacCrisken, and Gary Rymar. Visual programming using structured data flow. In Proc. 1991 IEEE Workshop on Visual Languages, pages 34--39, Kobe, Japan, October 1991.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....The computational model on which these systems are based is called pipeline dataflow . The combination of a visual interface with pipeline dataflow is well established in several fields, including signal processing [88, 12, 85] image processing and visualisation [112, 83] instrumentation [82], and general purpose visual programming languages [99, 59] Signal processing systems are based on a special class of pipeline dataflow, dataflow process net1 CHAPTER 1. INTRODUCTION 2 Dataflow process network let u = copyV k 0 in scanS ( u High level language Visual language ....

....its development into a more precise and usable language. The style of Visual Haskell is based on dataflow: programs are described as data and function boxes, connected by arcs representing flow of data. It is in some ways a superset of dataflow, supporting not only structured dataflow [82] constructs such as conditionals and case statements, but also pattern matching, higher order functions, and scoping. And it has Haskell s polymorphic type system, although no visual notation for it. Because, however, of its lexical scoping, unrestricted Visual Haskell programs do lose one of the ....

[Article contains additional citation context not shown here]

Jeffrey Kodosky, Jack MacCrisken, and Gary Rymar. Visual programming using structured data flow. In Proc. 1991 IEEE Workshop on Visual Languages, pages 34--39, Kobe, Japan, October 1991.

....The computational model on which these systems are based is called pipeline dataflow . The combination of a visual interface with pipeline dataflow is well established in several fields, including signal processing [88, 12, 85] image processing and visualisation [112, 83] instrumentation [82], and general purpose visual programming languages [99, 59] Signal processing systems are based on a special class of pipeline dataflow, dataflow process net1 CHAPTER 1. INTRODUCTION 2 Dataflow process network let u = copyV k 0 in scanS ( u High level language Visual language ....

....its development into a more precise and usable language. The style of Visual Haskell is based on dataflow: programs are described as data and function boxes, connected by arcs representing flow of data. It is in some ways a superset of dataflow, supporting not only structured dataflow [82] constructs such as conditionals and case statements, but also pattern matching, higher order functions, and scoping. And it has Haskell s polymorphic type system, although no visual notation for it. Because, however, of its lexical scoping, unrestricted Visual Haskell programs do lose one of the ....

[Article contains additional citation context not shown here]

Jeffrey Kodosky, Jack MacCrisken, and Gary Rymar. Visual programming using structured data flow. In Proc. 1991 IEEE Workshop on Visual Languages, pages 34--39, Kobe, Japan, October 1991.

....other non psychologists. CDs have been used by several researchers to evaluate the cognitive aspects of VPLs, and to make broad comparisons of cognitive aspects of different VPLs. For example, Green and Petre used CDs to contrast cognitive aspects of the commercial VPLs Prograph [9] and LabVIEW [10] (see Appendix A for an excerpt) Modugno used CDs to evaluate Pursuit, a research programming by demonstration VPL [11] and Yazdani and Ford used CDs to evaluate PrologSpace, a general purpose visual programming 564 SHERRY YANG et al. system [12] Hendry also used CDs to evaluate cognitive ....

J. Kodosky, J. MacCrisken & G. Rymar (1991) Visual programming using structured data flow. In: 1991 IEEE Workshop on Visual Languages, Kobe, Japan, pp. 34-39.

.... Since these projects have already demonstrated the usefulness of PrM for conventional design work, the initial version of Provis focusses on implementation issues, following an outline by Opdahl [15] which also positions PrM relative to other work on visual programming such as Kodosky et al. [11], Cox et al. s Prograph [7] and Wasserman s Software through Pictures [19] 2.1.1 Control flow and connectives According to [15] a PrM diagram is essentially a graph of processes and stores connected by flows , as in conventional DFDs and depicted in Figure 2. The processes and stores in the ....

Jeffrey Kodosky, Jack MacCrisken, and Gary Rymar. Visual programming using structured data flow. In S.-K. Chang and T. Ichikawa, editors, 1991 IEEE Workshop on Visual Languages, Los Alamitos, California, 1991. IEEE Computer Society Press.

....Both processes and experiments are specified using data flow diagrams as the programming language. A data flow programming language is more suitable than other programming language styles, since data flow diagrams on paper are frequently used by scientists before any data analysis via the computer [2, 12, 15, 17]. One major difference between the GaeaVE data flow language and most other data flow languages is that data as well as processes are represented as nodes. Different node representations are used for data nodes and process nodes. This way, data and processes take equivalent positions in the ....

J. Kodosky, J. MacCrisken, and G. Rymar. Visual programming using structured data flow. In 1991 IEEE Workshop on Visual Languages, pages 34-- 39, Kobe, Japan, October 1991.

....CDs have been used by several researchers to evaluate the cognitive aspects of VPLs, and to make broad comparisons of cognitive aspects of different VPLs. For example, Green and Petre used CDs to contrast cognitive aspects of the commercial VPLs Prograph [Cox et al. 1989] and LabVIEW [Kodosky et al. 1991] (see Appendix A for an excerpt) Modugno also used CDs to evaluate Pursuit, a research programming by demonstration VPL [Modugno et al. 1994] and Hendry used CDs to evaluate cognitive aspects of a modification to spreadsheet formula languages [Hendry 1995] CDs are one of the two design time ....

J. Kodosky, J. MacCrisken, and G. Rymar, "Visual programming using structured data flow", 1991 IEEE Workshop on Visual Languages, Kobe, Japan, Oct. 8-11, 1991, pp. 34-39

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