Transcript Vision
Vision 12/4/11 Vision • Gives us an enormous biological advantage by helping us detect… – Targets – Threats – • Changes in our physical environment, allowing us to adapt our behavior accordingly Evolutionary pressure has made vision the sense that is the – The most complex – Best developed – And most important sense for humans 12/4/11 Process of Visual Sensation • • • Eye is like a camera the brain uses to make motion pictures of the world The eye… – Gathers light – Focuses it – Converts it to neural signals – Sends signals to be processed into image The eye is unique in that it extracts images from light waves – • 12/4/11 Transduces characteristics of light into neural signals The lens of the eye helps refract light on to the retina • Transduction happens in the retina – • thin light-sensitive layer at the back of the eye ball that contains millions of photoreceptors Photoreceptors – Light – sensitive cells (neurons) in the retina that convert light energy to neural impulses – – – Rods – especially sensitive to dim light but not colors (rod shaped) Cones – especially sensitive to colors but not dim light (cone shaped) Cones concentrate in the very center of the retina called the fovea • – Area of sharpest vision Young – Hemholtz Theory: theory that the retina contains three different color receptors (red, green, blue) 12/4/11 • Other cells in the retina that do not respond directly to light – – Bipolar cells – collect impulses from photo receptors and shuttle them on to the ganglion cells Ganglion cells – collect neural impulses from bipolar cells and shuttle them through the brain via the optic nerve • – Left and right optic nerve come together at the optic chiasm • – The bundle of neurons that carries visual information from the retina to the brain The crossing/connection point of the left and right optic nerves Place where the optic nerve meets the retina is known as the blind spot (no photo receptors) 12/4/11 12/4/11 Visual Processing Eyes sit just below the forebrain Forebrain is the front part of the brain Optic nerves run to the thalamus where visual information is relayed Thalamus relays visual information to the occipital lobe (specifically the visual cortex) where the information is processed and an image is created Thalamus is the brain's central relay station, situated just atop the brain stem. Nearly all the messages going into or out of the brain go through the thalamus Occipital lobes are the cortical regions at the back of the brain that house the visual cortex The visual cortex is the visual processing areas of cortex in the occipital lobes Brain uses parallel processing while taking in visual information 12/4/11 Parallel processing – the processing of many aspects of a problem simultaneously; the brain’s natural mode of information processing for many functions including vision. Contrasts conscious problem solving Visual Processing 12/4/11 What the Brain Uses - Monocular Cues – depth cues, such as interposition and linear perspective available to either eye alone - Binocular Cues - depth cues, such as retinal disparity that depend on the use of two eyes - Retinal disparity – a binocular cue for perceiving depth: by comparing images from the retinas in the two eyes, the brain computes distance – the greater the distance the greater the disparity between two objects 12/4/11 Visual Adaption - Accommodation – process by which the eye adjusts to maintain a clear image (focus) as distances in an image change - Dark Adaption – Changes in the sensitivities of rods and cones to account for the change in brightness and amount of visual light 12/4/11 Electromagnetic Spectrum • • The entire range of electromagnetic energy Wavelength- the distance between the crest of two successive peaks • Impacts the type of wave Amplitude - the height of a wave – determines intensity • Radiant light – light that is emitted from an object rather than reflected • 12/4/11 How the Visual System Creates Color • Reflected light - Color depends on - • the light an object reflects Color (hue) is a sensation – • doesn’t exist outside the brain Visible Spectrum – a tiny part of the Electromagnetic spectrum which our eyes are sensitive to • • • Colors differ in wavelength Color(or hue), form , position, and depth are based off the same stream of sensory information in different parts of the visual cortex Saturation - how pure a color is 12/4/11 Ways of Sensing Colors • • Trichromatic theory –(color processing in cones) colors are sensed by three different types of cones sensitive to light in the red blue and green wavelengths Opponent-process theory – (color processing in bipolar cells and past) cells in the visual system process colors in complementary pairs – Afterimages – Sensations that linger after the stimulus is removed, most appear in opposite colors 12/4/11 Activity 12/4/11 12/4/11 Color Deficiencies • Color Blindness – – • • 12/4/11 Inability to distinguish colors It’s more common for people have a color weakness. This is minor problem s in distinguishing colors Monochromats - one who is color blind Dichromats – a person that has one of the three cone pigments missing Acuity • • • Visual acuity - Clarity or Sharpness of vision Nearsightedness - is when light entering the eye is focused incorrectly, making distant objects appear blurred Farsightedness - more difficulty to see near objects than far ones 12/4/11