A H L P Q S T W Y

	Archipoff, Simon	FARM '15: "An Efficient Implementation ..." An Efficient Implementation of Tiled Polymorphic Temporal Media Simon Archipoff (LaBRI, France; University of Bordeaux, France) Tiled Polymorphic Temporal Media (TPTM) are a convenient way to describe, compose and encode multimedia streams. This paper presents a TPTM encoding that allows simple and efficient implementation of both composition and rendering. In particular, an on-the-fly rendering procedure is provided in order to handle infinite (lazy) TPTM. @InProceedings{FARM15p25, author = {Simon Archipoff}, title = {An Efficient Implementation of Tiled Polymorphic Temporal Media}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {25--34}, doi = {}, year = {2015}, }
	Hudak, Paul	FARM '15: "Real-Time Interactive Music ..." Real-Time Interactive Music in Haskell Paul Hudak, Donya Quick, Mark Santolucito, and Daniel Winograd-Cort (Yale University, USA) Euterpea and UISF are two recently released Haskell libraries on Hackage that facilitate the creation of interactive musical programs. We show an example of using these two libraries in combination with Haskell's support for parallelism to create a complex application that generates music in real time in response to user input from MIDI controllers. @InProceedings{FARM15p15, author = {Paul Hudak and Donya Quick and Mark Santolucito and Daniel Winograd-Cort}, title = {Real-Time Interactive Music in Haskell}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {15--16}, doi = {}, year = {2015}, } Video
	Lepper, Markus	FARM '15: "The Shepard Tone and Higher-Order ..." The Shepard Tone and Higher-Order Multi-rate Synchronous Data-Flow Programming in Sig Baltasar Trancón y Widemann and Markus Lepper (TU Ilmenau, Germany; semantics, Germany) The total functional real-time data-flow programming language Sig features a core layer with elegant denotational semantics, in terms of Mealy stream transducers and coiterative causal stream functions, that is convenient for domain experts in the primary application domains, such as scientific modeling and digital music and event arts. The core suffices for the implementation of many basic signal processing components. For the expression of more sophisticated computations, a second layer of Sig provides additional features, namely higher-order functional programming and multi-rate synchronicity, reducible by transformational semantics to the core layer. Here we describe the design of the upper layer of Sig and demonstrate its usage with the Shepard Tone, a well-known sound synthesis problem and model of psycho-acoustically paradoxical perception of relative musical pitch. @InProceedings{FARM15p6, author = {Baltasar Trancón y Widemann and Markus Lepper}, title = {The Shepard Tone and Higher-Order Multi-rate Synchronous Data-Flow Programming in Sig}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {6--14}, doi = {}, year = {2015}, }
	Piponi, Dan	FARM '15: "Moodler: A Digital Modular ..." Moodler: A Digital Modular Synthesiser with an Analogue User Interface Dan Piponi (A Neighborhood of Infinity, USA) Moodler is a code-generating virtual modular synthesiser, implemented in Haskell, with a physical patch panel allowing users to generate audio synthesis code by physically connecting wires and adjusting potentiometers. In effect it is a compiler that compiles code written in a language of physical cables and knobs. @InProceedings{FARM15p17, author = {Dan Piponi}, title = {Moodler: A Digital Modular Synthesiser with an Analogue User Interface}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {17--24}, doi = {}, year = {2015}, }
	Quick, Donya	FARM '15: "Real-Time Interactive Music ..." Real-Time Interactive Music in Haskell Paul Hudak, Donya Quick, Mark Santolucito, and Daniel Winograd-Cort (Yale University, USA) Euterpea and UISF are two recently released Haskell libraries on Hackage that facilitate the creation of interactive musical programs. We show an example of using these two libraries in combination with Haskell's support for parallelism to create a complex application that generates music in real time in response to user input from MIDI controllers. @InProceedings{FARM15p15, author = {Paul Hudak and Donya Quick and Mark Santolucito and Daniel Winograd-Cort}, title = {Real-Time Interactive Music in Haskell}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {15--16}, doi = {}, year = {2015}, } Video
	Santolucito, Mark	FARM '15: "Real-Time Interactive Music ..." Real-Time Interactive Music in Haskell Paul Hudak, Donya Quick, Mark Santolucito, and Daniel Winograd-Cort (Yale University, USA) Euterpea and UISF are two recently released Haskell libraries on Hackage that facilitate the creation of interactive musical programs. We show an example of using these two libraries in combination with Haskell's support for parallelism to create a complex application that generates music in real time in response to user input from MIDI controllers. @InProceedings{FARM15p15, author = {Paul Hudak and Donya Quick and Mark Santolucito and Daniel Winograd-Cort}, title = {Real-Time Interactive Music in Haskell}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {15--16}, doi = {}, year = {2015}, } Video
	Serrière, Fabienne	FARM '15: "Mathematics, Textiles, and ..." Mathematics, Textiles, and Programming: Scripted Scarves (Invited Talk) Fabienne Serrière (KnitYak LLC, USA) Textiles and programming have a rich history with Babbage’s analytical engine using jacquard loom style punchcards and Lovelace’s description of how to program such a machine. Recently there has been a resurgence of popularity in consumer knitting machines because of open source projects helping people modify and script patterns to 1980’s knitting machines. This talk will cover the recent history of scripting textiles on consumer knitting machines, and the bright future ahead with scripting one-off designs for industrial knitting machines. @InProceedings{FARM15p1, author = {Fabienne Serrière}, title = {Mathematics, Textiles, and Programming: Scripted Scarves (Invited Talk)}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {1--1}, doi = {}, year = {2015}, }
	Trancón y Widemann, Baltasar	FARM '15: "The Shepard Tone and Higher-Order ..." The Shepard Tone and Higher-Order Multi-rate Synchronous Data-Flow Programming in Sig Baltasar Trancón y Widemann and Markus Lepper (TU Ilmenau, Germany; semantics, Germany) The total functional real-time data-flow programming language Sig features a core layer with elegant denotational semantics, in terms of Mealy stream transducers and coiterative causal stream functions, that is convenient for domain experts in the primary application domains, such as scientific modeling and digital music and event arts. The core suffices for the implementation of many basic signal processing components. For the expression of more sophisticated computations, a second layer of Sig provides additional features, namely higher-order functional programming and multi-rate synchronicity, reducible by transformational semantics to the core layer. Here we describe the design of the upper layer of Sig and demonstrate its usage with the Shepard Tone, a well-known sound synthesis problem and model of psycho-acoustically paradoxical perception of relative musical pitch. @InProceedings{FARM15p6, author = {Baltasar Trancón y Widemann and Markus Lepper}, title = {The Shepard Tone and Higher-Order Multi-rate Synchronous Data-Flow Programming in Sig}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {6--14}, doi = {}, year = {2015}, }
	Wilk, Joseph	FARM '15: "Repl Electric Performance: ..." Repl Electric Performance: End of Buffer Joseph Wilk (SoundCloud, Germany) A performance with a single programmer live coding both visuals and music using OpenGL shaders, Overtone and Emacs. @InProceedings{FARM15p2, author = {Joseph Wilk}, title = {Repl Electric Performance: End of Buffer}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {2--3}, doi = {}, year = {2015}, }
	Winograd-Cort, Daniel	FARM '15: "Real-Time Interactive Music ..." Real-Time Interactive Music in Haskell Paul Hudak, Donya Quick, Mark Santolucito, and Daniel Winograd-Cort (Yale University, USA) Euterpea and UISF are two recently released Haskell libraries on Hackage that facilitate the creation of interactive musical programs. We show an example of using these two libraries in combination with Haskell's support for parallelism to create a complex application that generates music in real time in response to user input from MIDI controllers. @InProceedings{FARM15p15, author = {Paul Hudak and Donya Quick and Mark Santolucito and Daniel Winograd-Cort}, title = {Real-Time Interactive Music in Haskell}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {15--16}, doi = {}, year = {2015}, } Video
	Yates, Ryan	FARM '15: "Diagrams: A Functional EDSL ..." Diagrams: A Functional EDSL for Vector Graphics Ryan Yates and Brent A. Yorgey (University of Rochester, USA; Hendrix College, USA) diagrams is a domain-specific language for creating vector graphics. We will give a short diagrams tutorial/demo, particularly highlighting the power of a functional, embedded domain-specific language. @InProceedings{FARM15p4, author = {Ryan Yates and Brent A. Yorgey}, title = {Diagrams: A Functional EDSL for Vector Graphics}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {4--5}, doi = {}, year = {2015}, }
	Yorgey, Brent A.	FARM '15: "Diagrams: A Functional EDSL ..." Diagrams: A Functional EDSL for Vector Graphics Ryan Yates and Brent A. Yorgey (University of Rochester, USA; Hendrix College, USA) diagrams is a domain-specific language for creating vector graphics. We will give a short diagrams tutorial/demo, particularly highlighting the power of a functional, embedded domain-specific language. @InProceedings{FARM15p4, author = {Ryan Yates and Brent A. Yorgey}, title = {Diagrams: A Functional EDSL for Vector Graphics}, booktitle = {Proc.\ FARM}, publisher = {ACM}, pages = {4--5}, doi = {}, year = {2015}, }

12 authors

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