Head and body rotate around centers. Vestibular, kinesthetic, and visual feedback makes motor centers into perceptual centers, which define observation point {body motions and observer}.
Brain is large and complex and can have internal circuit flows, one of which represents observer {circuit flows and observer}. Loops allow reverberations, feedback, and feedforward, to maintain processes. Observer and observed circuit flows interact.
Sensory and central neurons have electrochemical processes, have associative memories, and control motor neurons. Ganglia use neuromodulators, have procedural memories, and use statistical and vector processes to control motor-neuron sets. Brains are ganglia sets that use statistical and tensor processes to coordinate body, head, and limb motions. Vertebrate brains have perceptions and declarative memories and use nested processes [Hofstadter, 2007]. Self began with a central perception and behavior process {origins of self} that nests and controls other brain processes.
Algorithms can distinguish inside-body stimuli, as self, and outside-body stimuli, as non-self. Tightening muscles actively compresses, to affect proprioception receptors that define body points. During movements or under pressure, body surfaces passively extend, to affect touch receptors that define external-space points.
Brain can have resonating waves, one of which can represent observer {resonating wave and observer} {self-wave}.
1-Consciousness-Speculations-Observer
Outline of Knowledge Database Home Page
Description of Outline of Knowledge Database
Date Modified: 2022.0225