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==== Questions and Goals ==== | ==== Questions and Goals ==== | ||
- | To Develop: | + | To Develop:\\ |
- | Question | + | Question: how do neurons communicate, |
- | Goal → build an artificial neural network! | + | Goal: build an artificial neural network!\\ |
- | Question | + | Question: how does threshold logic work, can one calculate Fractals?\\ |
- | Goal → build a Fibunacci row out of neurons | + | Goal: build a Fibunacci row out of neurons!\\ |
- | To DO: | + | To DO:\\ |
- | Learning Kid for Neural Networks? | + | Learning Kid for Neural Networks?\\ |
Question: How can you support children learning decental networks? | Question: How can you support children learning decental networks? | ||
- | Goal: a set of board to play with a network for learning and understanding artificial neural networks | + | Goal: a set of board to play with a network for learning and understanding artificial neural networks!\\ |
- | 5. Synthesise Sound? | + | Question: Can one hear the activity in a neural network? |
+ | Goal: Synthesise Sound!\\ | ||
==== Korpus ==== | ==== Korpus ==== | ||
- | - realize an anaolg version of the Amari Neuron | + | * realize an anaolg version of the Amari Neuron |
- | - artificial analogue neuronal networks | + | |
- | - threshold logic | + | |
- | - interfacing | + | |
- | Method | + | ==== Method |
- | zur Entwicklung | + | To develop\\ |
- | - cybernetic | + | |
- | - experiment | + | |
- | - messen und rechnen | + | * calculate |
- | zu Anwenung | + | * mesure |
- | - hören und spielen | + | implimentation\\ |
+ | * listen | ||
+ | * play | ||
==== State of the Art ==== | ==== State of the Art ==== | ||
+ | === Analog Computer === | ||
+ | The analog computer was inspired by the articel "Die Chaos-Maschine: | ||
+ | Further information and wiring examples one can find in the old manuals of analog computer of the online library of the [[http:// | ||
+ | === Analog Neurons ==== | ||
+ | These oscillator and network behave similar to the one described in [[https:// | ||
+ | Like already mentioned one important origin of the Pop Neuron is the [[http:// | ||
+ | A digital implementation on syncing and desyncing processes of two mutually coupled systems one can find on [[http:// | ||
+ | An other example of an electric implementation of an analog neuron for controlling robots one can find in [[https:// | ||
+ | Bewegungssteuerung autonomer | ||
+ | mobiler Roboter]] by [[http:// | ||
+ | === Neural Sound Synthesis === | ||
+ | One can use these neurons to generate pattern and structures for all kind of sequencers and also for synthesize sound for musical instruments similar like the one [[http:// | ||
+ | |||
+ | ---- | ||
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1. Build an Analog Computer\\ | 1. Build an Analog Computer\\ | ||
- | Develop an analogue computer based on modern chip technology. For each operation | + | Develop an analogue computer based on modern chip and switching |
2. Programming Fractals in the analog computer\\ | 2. Programming Fractals in the analog computer\\ | ||
+ | Programming a Lorenz Attractor and a Rössler Attractor with thw Analog Computer | ||
+ | |||
3. Develop an Analoge Amari Neurone\\ | 3. Develop an Analoge Amari Neurone\\ | ||
+ | Develop a circuit that behaves like the model of a neuron like described by Amari Shun-Ichi Amari.\\ | ||
+ | |||
4. Research on threshold logic\\ | 4. Research on threshold logic\\ | ||
- | 5. Setting up an Artificial Analog Netzwerke | + | Learning and understanding the principals of Threshold logigic.\\ |
- | 6. Fibonacci Sequences in an neural network | + | |
- | 7. SoundSynthesis with the neuron Oscillator | + | 5. Setting up an Artificial Analog Netzwerke\\ |
- | 8. Controlling the Neural Oscillator the network | + | Creating some basic pattern in an analog neural network.\\ |
+ | |||
+ | 6. Fibonacci Sequences in an neural network\\ | ||
+ | Programming a Fibonacci Sequences in an analog neural network.\\ | ||
+ | |||
+ | 7. SoundSynthesis with the neuron Oscillator\\ | ||
+ | Creating Sound with an analog neural oscillator. Shaping the waveform, filtering the sound and synchronic the neural oscillators.\\ | ||
+ | |||
+ | 8. Controlling the Neural Oscillator | ||
==== Preliminary Work ==== | ==== Preliminary Work ==== | ||
- | * Dublin Seminare | + | |
- | * Residence at Schöppinge with Christian Faubel – first prototype of an analog Neuron | + | * Residence at Künstlerdorf |
- | * Art Science | + | * The first version of the analog computer was developed in 2015 for the artwork [[https:// |
- | * developping Synthesizer | + | * The analog computer Confetti was further developed and presented at the residency at [[https:// |
- | * Publication | + | * developing analog electric synthesizer |
+ | * publication: | ||
+ | https:// | ||
==== Bibliography ==== | ==== Bibliography ==== |