Skip Nav Destination
Article navigation
May 01 2019
Translating Space, Rendering Violence: Iannis Xenakis's Polytope de Mycènes (Mycenae—Alpha)
Carolyn Bailey
Carolyn Bailey
CAROLYN BAILEY is a PhD student in the Department of Visual and Environmental Studies at Harvard University. Her work focuses on the politics of digital technology in relation to contemporary visual culture.
Search for other works by this author on:
Carolyn Bailey
CAROLYN BAILEY is a PhD student in the Department of Visual and Environmental Studies at Harvard University. Her work focuses on the politics of digital technology in relation to contemporary visual culture.
Online Issn: 2572-7338
Print Issn: 1091-711X
© 2019 Carolyn Bailey
2019
Carolyn Bailey
Thresholds (2019) (47): 28–35.
Citation
Carolyn Bailey; Translating Space, Rendering Violence: Iannis Xenakis's Polytope de Mycènes (Mycenae—Alpha). Thresholds 2019; (47): 28–35. doi: https://doi.org/10.1162/thld_a_00670
Download citation file:
Sign in
Don't already have an account? Register
Client Account
You could not be signed in. Please check your email address / username and password and try again.
Could not validate captcha. Please try again.
Sign in via your Institution
Sign in via your InstitutionEmail alerts
82
Views
Advertisement
Cited By
Related Articles
The Stochastic Synthesis of Iannis Xenakis
Leonardo Music Journal (December,2009)
An Architect Draws Sound and Light: New Perspectives on Iannis Xenakis's Diatope and La Légende d'Eer (1978)
Computer Music Journal (January,2017)
The Shiraz Arts Festival: Western Avant-Garde Arts in 1970s Iran
Leonardo (February,2007)
The Electroacoustic Music of Iannis Xenakis
Computer Music Journal (March,2002)
Related Book Chapters
Getting Feasible Variable Estimates from Infeasible Ones: MRF Local Polytope Study
Advanced Structured Prediction
On Rightness of Rendering
Starmaking: Realism, Anti-Realism, and Irrealism
Rendering Implausible causes Plausible
Theory and Evidence: The Development of Scientific Reasoning
M-Width: Stability and Accuracy of Haptic Rendering of Virtual Mass
Robotics: Science and Systems VIII