Download Dissipative Multilayered Cellular Automata facing Adaptive Lighting PDF

TitleDissipative Multilayered Cellular Automata facing Adaptive Lighting
LanguageEnglish
File Size19.9 MB
Total Pages193
Table of Contents
                            1 Introduction
	1.1 Motivation
	1.2 Objectives
	1.3 Outline of the thesis
2 Adapting Lighting
	2.1 Application Scenarios
		2.1.1 Interactive Installation
		2.1.2 Stage Lighting
		2.1.3 Domotics
	2.2 Design and Implementation
		2.2.1 Programming Approaches
			2.2.1.1 Max
			2.2.1.2 Pure Data
			2.2.1.3 vvvv
			2.2.1.4 Quartz Composer
			2.2.1.5 Processing
		2.2.2 Application Software for Lighting Control
			2.2.2.1 Sunlite Suite
			2.2.2.2 Lula
		2.2.3 Enabling Communications Technologies
			2.2.3.1 DMX512-A
			2.2.3.2 ACN
			2.2.3.3 MIDI
			2.2.3.4 X10
			2.2.3.5 KNX
3 Cellular Automata And Other Cellular System
	3.1 Cellular Automata
		3.1.1 Formal Definition
			3.1.1.1 Regular Lattice
			3.1.1.2 State set
			3.1.1.3 Neighborhood
			3.1.1.4 Boundary Conditions
			3.1.1.5 Transition Function
		3.1.2 Applications
			3.1.2.1 Games
			3.1.2.2 Physical and Biological Systems
			3.1.2.3 Social Science
			3.1.2.4 Traffic flow
			3.1.2.5 Pedestrian and Crowd Dynamics
			3.1.2.6 Other Applications
		3.1.3 Elementary Cellular Automata
		3.1.4 Stochastic Cellular Automata
		3.1.5 Asynchronous Cellular Automata
		3.1.6 Dissipative Cellular Automata
		3.1.7 Cellular Automata With Memory
	3.2 Automata Networks
		3.2.1 Formal Definition
		3.2.2 Multilayered Automata Networks
	3.3 Random Boolean Network
		3.3.1 Formal Definition
		3.3.2 Classification of Random Boolean Networks
4 Effects of Asynchrony on Cellular Automata
	4.1 Asynchronous Cellular Automata
		4.1.1 Synchronous Scheme
		4.1.2 Random Independent
		4.1.3 Random Order
		4.1.4 Cyclic
		4.1.5 Generic Cyclic
		4.1.6 Clocked
		4.1.7 Generic Clocked
		4.1.8 CA Update Schemes Ontology
	4.2 One Neighbor Binary Cellular Automata
		4.2.1 Totalistic Rules
		4.2.2 Neighbor-Independent and Self-Independent
		4.2.3 -parameter
		4.2.4 Sensitivity
		4.2.5 Rule density
		4.2.6 Rules symmetries
	4.3 1nCA Spatiotemporal Patterns
		4.3.1 Class 0TNS
		4.3.2 Class 1T
		4.3.3 Class 2
		4.3.4 Class 3N
		4.3.5 Class 4
		4.3.6 Class 5S
		4.3.7 Class 6T
		4.3.8 Class 8T
		4.3.9 Class 10S
		4.3.10 Class 12N
		4.3.11 Synthesis of the Effects of Asynchrony on 1nCA
5 MDCA - Multilayered Dissipative  Cellular Automata
	5.1 MDCA Model
		5.1.1 Basic Cell
		5.1.2 Composite Cell
		5.1.3 Update Schemes
	5.2 MDCA Programming
		5.2.1 MDCA Language
		5.2.2 MDCA Visual Programming
	5.3 MDCA Environment
		5.3.1 Kernel
		5.3.2 Cellular Space
6 The Indianapolis Project
	6.1 The Scenario
	6.2 A Network of Sensors and Actuators
	6.3 The Proposed Approach
		6.3.1 System Architecture
		6.3.2 Sensors Layer
		6.3.3 Diffusion Rule
			6.3.3.1 Regular neighborhood
			6.3.3.2 Irregular neighborhood
		6.3.4 Actuators Layer
	6.4 The Design Environment
		6.4.1 The Simulation Environment
		6.4.2 The Visualization Facility
7 From Theory to Product: Digital Footprints
	7.1 Toward a Modular Adaptive Lighting System
	7.2 Hardware Prototype
	7.3 Software Implementation
		7.3.1 Body Cell
		7.3.2 Actuator Cell
		7.3.3 Edge Cell
		7.3.4 Command Shell Cell
	7.4 The Configuration Interface
	7.5 Considerations
8 Conclusions and Future Developments
	8.1 Conclusion
	8.2 Future Developments
                        

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