The Human Holographic Visual System

"The Human Holographic Visual System" uses a new theoretical framework based on holographic processes and principles to provide interpretations, perspectives, and discussions about how the different sub-systems and components of the human visual system function. The book begins with a discussion on light waves, which act as messengers and bring in all visual information about the body's surrounding environment. The interactions of visible light with the objects in your environment produce characteristics that visible light waves can specify, interpret, and send to the brain. The eyes capture the visible light waves, along with the characteristics, so that they can be converted into spatially coherent light waves, which the retinas break down into component wavelengths—fully coherent red, fully coherent green, fully coherent blue, and fully coherent neutral colors. With the light waves fully coherent, photoreceptors capture the individual colors and collectively transmit them as snapshots of interference patterns to the lateral geniculate nuclei. With coordination and synchronization of carried elements, the lateral geniculate nuclei manipulate the incoming flow of snapshots to produce moiré fringe projection images within the interference patterns. The moiré fringe projection images within the incoming flow of snapshots translate into three-dimensional holographic imagery that is active, dynamic, and capable of representing any object with possible actions and movement that occur in real-time. This process reconstructs the original visual imagery captured from the body's immediate surroundings and produces the stereoscopic moving holographic images, forms, shapes, objects, and scenes in vivid, true color that we are accustomed to everyday.