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Two dimensional. An image or object with only two dimensions, such as width and height, but no depth.
A single image along with data that represents the difference between that image view and a second eye image view along with other additional metadata. The delta data could be spatial temporal stereo disparity, temporal predictive or bidirectional motion compensation.
2D Signal Processing
A signal processing chain where 2D and 3D signals receive the same processing steps and the processor does not need to know what type of signal is being processed.
Having or appearing to have width, height, and depth (three-dimensional). Accepts and/or produces uncompressed video signals which convey 3D.
3D Adjustment Setting
Changes the apparent depth of objects on a 3D view screen.
3D Distribution (or Transport) Formats
Transmitted to the end user over the air, over cable, over satellite, over the Internet or on packaged media. These formats typically need to be compressed on the service provider side and decompressed on the network termination at home.
An uncompressed video signal type used to convey 3D over an interface.
3D In-home Formats
Connect in-home devices to the 3D display system. In-home formats may be compressed or uncompressed. The decompression and decoding/transcoding can be done in several places in the home and can include additional demodulation of RF-modulated signals as well. Video decoding and 3D decoding may be done at different locations in the signal chain, which could require two different in-home formats.
3D Native Display Formats
Formats that are required to create the 3D image on the particular TV. These formats may reside only in the TV, or can be decoded/transcoded outside of the the TV. Normally, once a signal is decoded into the 3D native display format, no additional 3D signal processing is required to display the signal although there is likely to be additional 2D processing. The 3D native display format is different from the native 3D display format or resolution, which refers to the 3D pixel arrangement.
3D Signal Processing
A video signal processing chain where the processing of the signal is different for 3D video than it is for 2D video and the processor must be aware of the type of signal it is processing.
A DVD movie recorded in 3D
Contains 3D decoder/transcoder and may accept and/or produce uncompressed video signals which convey 3D.
The process of producing an image based on three-dimensional data stored within a computer.
The act of viewing a 3D image with both eyes in order to experience stereoscopic vision and binocular depth perception.
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An imperfect image formed by an optical system.
Absolute Category Rating (ACR)
A rating scale for subjective testing in which test sequences are presented one at a time. The rating scale is categorical in that is uses terms “Bad”, “Poor”, “Fair”, “Good”, and “Excellent” for rating overall quality. The categories are associated with numeric scores such as 1 through 5; 1 through 9; and 0 through 10. (see ITU-T Rec. P.910).
The refocusing of the eyes as their vision shifts from one distance plane to another.
The learned relationship established through early experience between the focusing of the eyes and verging of the eyes when looking at a particular object point in the visual world. Usually called the accommodation/convergence relationship (or the convergence accommodation relationship. )
The physiological link that causes the eyes to change focus as they change convergence
A discrepancy between accommodation and convergence depth cues in which one of the depth cue impacts perception to a greater extent than the other.
The eyes ability to repeatedly change focus from one distance to another. Often measured by use of special flipper lenses. Measurement of each eye in turn is usually made followed by comparing the performance to that of both eyes working together.
see Absolute Category Rating.
Powered shutter glasses that function by alternately allowing each eye to see the left-eye/right-eye images in an eye sequential 3D system. Most commonly based on liquid crystal devices. see passive glasses.
See eye sequential 3D.
A hologram that can be changed in real time or near real time.
see Atmospheric Perspective.
AIP - Anterior Intrapariental Cortex
An area of the human brain that is uniquely sensitive to visual cues.
A representation artifact caused by undersampling. Spatial aliasing can appear as Moire’ pattern, for example, because the image resolution is insufficient to represent high spatial frequencies that exist in the underlying data.
“Lazy eye”. A visual defect that affects approximately 2 or 3 out of every 100 children in the United States. Amblyopia involves lowered visual acuity (clarity) and/or poor muscle control in one eye. The result is often a loss of stereoscopic vision and binocular depth perception.
A type of stereogram (either printed, projected or viewed on a TV or computer screen) in which the two images are superimposed but are separated, so each eye sees only the desired image, by the use of colored filters and viewing spectacles (commonly red and cyan, or red and green). To the naked eye, the image looks overlapping, doubled and blurry. Traditionally, the image for the left eye is printed in red ink and the right eye image is printed in green ink.
The angular resolution determines the smallest angle between independently emitted light beams from a single screen point. It can be calculated by dividing the emission range with the number of independently addressable light beams emitted from a screen point. The angular resolution determines the smallest feature (voxel) the display can recontruct in a given distance fomr the screen.
Devices placed in front of the eyes to separate the left and right eye images, mainly when projected. Typically, these are polarizing spectacles, anaglyph spectacles or liquid crystal shutters.
The distance of an object image from the viewer. The apparent depth is a function of the viewer’s distance from the display.
A visual or perceptual defect introduced during capture, post-processing, compression, transmission, rendering, or display.
An image that has a different aspect ratio than the original content as a result of resizing the horizontal or vertical components unequally.
A method of compression in which either the left- or right-eye image has a lower resolution or is compressed to a greater degree than the other eye.
Eye strain (“weak eyes”) that may lead to fatigue, pain in or around the eyes, blurred vision, headache and occasional double vision.
A depth cue in which distant objects progressively lose contrast and saturation with distance, typically as a result of atmospheric light scatter.
3D displays that do not require glasses to see the stereoscopic image. Multiview autostereoscopic displays based on parallax barrier or lenticules are sometimes called parallax panoramagram displays.
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An optical aberration caused by decreased magnification at increasing distance from the optical axis. Also known as a Fisheye Effect.
A device consisting of prisms and/or mirrors that can be attached to a mono camera to produce two side-by-side images (usually within a single frame). More accurately described as an image-splitter, as it does not split an individual beam into components. Because the groups of light rays forming the left and right images cross over as they pass through the camera lens, the recorded images end up in the correct configuration for stereo viewing without the need for the usual transposition
Of or involving both eyes at once. The term binocular stereopsis (two-eyed solid seeing) is used in some psychology books for the depth sense more simply described as stereopsis.
see Depth Aliasing.
A visible defect that is perceptible when using both eyes but imperceptible when using a single eye.
Binocular Depth Cue
A depth cue that involves both eyes. Binocular parallax and convergence are binocular depth cues.
Binocular Depth Perception
A result of successful stereo vision; the ability to visually perceive three dimensional space; the ability to visually judge relative distances between objects; a visual skill that aids accurate movement in three-dimensional space.
The difference between the view from the left and right eyes.
The phenomenon in which the position of an object appears to change when viewed by the left eye alone and then the right eye alone, or vice versa, when the head is stationary.
Vision as a result of both eyes working as a team; when both eyes work together smoothly, accurately, equally and simultaneously.
Binocular Vision Disability
A visual defect in which the two eyes fail to work together as a coordinated team resulting in a partial or total loss of binocular depth perception and stereoscopic vision. At least 12% of the population has some type of binocular vision disability. Amblyopia and strabismus are the most commonly known types of binocular vision disabilities.
Regularly spaced vertical and horizontal visual discontinuities, typically observed in content that was highly compressed using block DCT-based codecs such as MPEG2 and MPEG4/AVC.
Loss of visual detail and sharpness of edges, typically the result of optical blur, reduced resolution, noise filtering, or deblocking filters used in MPEG4/AVC.
As defined by James Cameron: "The brain's inability to reconcile the images received by the left and right eyes into a coherent stereo image, which causes it to send corrective messages to the eye muscles, which try to compensate but can't fix the problems baked into the image on the screen, creating an uncomfortable feedback loop and physical fatigue of eye muscles, which causes the eye muscles to scream at the brain, at which point the brain decides to fuse the image the hard way, internally, which may take several seconds or not be possible at all –- all of which leads to headache and sometimes nausea. "
Breaking the Frame
If an object has Negative Parallax and is bisected by the edge of the frame then that object is 'breaking the frame' and there is a visual/brain conflict.
Light with a range of optical wavelengths that is comparable to the bandwidths associated wtih the red, green and blue light of a display.
Appearance of after images sometimes seen in plasma display tubes. An after image can contribute to depth cue conflicts.
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Any artifact that can be attributed to image formation.
The condition in which objects appear as if cut out of cardboard and lack individual solidity. Usually the result of inadequate depth resolution arising from, for example, a mismatch between the focal length of the taking lens, the stereo base and/or the focal length of the viewing system.
A situation in which the chromatic composition of an object(s) in the left-eye image is not the same as that of the right-eye image. See also Color Mismatch.
An impression of depth which results from viewing a spectrum of colored images through a light-bending device such as a prism, a pinhole or an embossed ‘holographic’ filter, caused by variations in the amount of bending according to the wavelength of the light from differing colors (chromatic dispersion). If such a device is placed in front of each eye, but arranged to shift planar images or displays of differing colors laterally in opposite directions, a 3D effect will be seen. The effect may also be achieved by the lenses of the viewer's eyes themselves when viewing a planar image with strong and differing colors. Typically, with unaided vision, red portions of the image appear closer to the viewer than the blue portions of the image. Sometimes called Chromostereopsis.
The regular or irregular temporal variation in color, hue, or saturation of objects or scenes.
A situation in which the color, hue, or saturation of an object or scenes in the left-eye view is different than in the right-eye view.
A compression artifact in which the borders and edges of distinct color regions becomes less distinct or fuzzy, typically with having color oscillations.
A form of polarized light in which the tip of the electric vector of the light ray moves through a corkscrew in space.
Any artifact that can be attributed to video or image compression and decompression.
An uncomfortable mental state brought on by contradictory perceptions or ideas. According to the theory of cognitive dissonance, people will be motivated to act in a way that reduces or eliminates the sources of contradictory perceptions.
A situation in which false color appears in bands or gradients. Typically the result of undersampling (see Aliasing) in the image formation, compression, or display stages.
A visual phenomenon in which an objects color extends beyond the objects boundaries, as defined by luminance. Color bleeding may result from aggressive compression of chroma or from chroma subsampling.
see Chromatic Flicker.
A situation in which the color of an object(s) in the left-eye image is not the same as that of the right-eye image. See also Chroma Mismatch.
Column Interleaved Format
A 3D image format where left and right view image data are encoded on alternate columns of the display.
Compressed Depth Artifact
Any visible artifact that results from the digital compression of a depth map.
Compressed Video Signal
A stream of compacted data representing an uncompressed video signal. A compressed video signal is an encoded version of an uncompressed video signal. A compressed video signal must be decoded to an uncompressed video signal in order to be edited or displayed. Compressed video formats vary according to the encoding methods used. A compressed video signal format may be converted to another using a 'transcoder'.
Cone of 3D
The physical space extending from the viewer to the display screen in which the stereoscopic illusion can be created.
The appearance of discrete luminance or chrominance steps on what should be a smooth gradient. Usually the result of insufficient dynamic range. See posterization.
The ability of both eyes to turn inwards together. This enables both eyes to be looking at the exact same point in space. This skill is essential to being able to pay adequate attention at near to be able to read. Not only is convergence essential to maintaining attention and single vision, it is vital to be able to maintain convergence comfortably for long periods of time. For good binocular skills it is also to be able to look further away. This is called divergence. Sustained ability to make rapid convergence and divergence movements are vital skills for learning.
The term has also been used, confusingly, to describe the movement of left and right image fields or the rotation (toe-in) of camera heads.
The image points of the left and right fields referring to the same point on the object. The distance between the corresponding points on the projection screen is defined as parallax. Also known as conjugate or homologous points.
Visual distortions that are caused by Asymmetric Coding.
Incomplete isolation of the left and right image channels so that one leaks (leakage) or bleeds into the other. Looks like a double exposure. Crosstalk is a physical entity and can be objectively measured, whereas ghosting is a subjective term. See ghosting
Cathode ray tube. Direct view CRTs have often been used in eye-sequential 3D systems. The decline of the CRT has led to a search for alternative cost effective 3D display systems.
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Visible defects, distortions, and errors that are attributable to the decoding processes. Such errors might be the result of non-compliant streams or buffer management issues.
Degradation Category Rating (DCR)
A five-level rating scale for subjective testing in which test sequences are presented in pairs. The rating scale is categorical in that it uses terms “Very Annoying”, “Annoying”, “Slightly Annoying”, “Perceptible”, and “Imperceptible” for rating the impairment of a degraded stimulus relative to a reference stimulus. (See ITU-T Rec. P.910).
A phenomenon in which periodic detail in the left- and right-eye view results in ambiguous disparity resulting in the possibility of shifting and false depth perception.
A distortion of depth cues in which the depth of an object influences objects and textures surrounding it, typically as the result of compression artifacts in a depth map, disparity map, difference signal, or left- and right-eye images.
The combined values of the Positive and Negative Parallax. Often given as a % of screen width.
Depth Change Stress
A physiological and perceptual condition that results from frequent, abrupt, or extreme depth cue changes such as might occur at scene changes or ad insertion points.
A visual artifact in which depth cues are incongruent, which can give rise to the percept that an object resides both in front of and behind another object simultaneously. This artifact may be seen more frequently in poorly coded graphic overlays.
see Cardboard Effect.
Any of a number of visual characteristics that create a sense of depth in natural environments and in stereoscopic representations. Depth cues can be monocular, such as occlusion, or binocular, such as convergence. Depth cues include: occlusion, motion parallax, binocular parallax, linear perspective, atmospheric perspective, relative size, shadowing, accommodation, and binocular disparity.
Depth Cue Rivalry
A situation in which two or more depth cues are in conflict by suggesting different apparent depths for the same object or region of an image. Depth cue rivalry may sometimes be observed in connection with graphic overlays.
An abrupt and crisply delineated change in apparent depth that creates a sense of distinct objects.
Any artifact that creates a sense of false depth.
A set of values that provide data related to the depth of each pixel or region in a stereoscopic image. Depth Map is often confused with Disparity Map or Difference Map, both of which provide other kinds of data.
Depth Quantization Noise
A depth distortion that results from coarse quantization during compression of a depth map.
The ability to see in 3D or depth to allow us to judge the relative distances of objects. Often referred to as stereo vision or stereopsis.
A term that applies to stereoscopic images created with cameras. The limits are defined as the range of distances in camera space from the background point producing maximum acceptable positive parallax to the foreground point producing maximum acceptable negative parallax.
A condition in which edges or borders of object have ambiguous apparent depth, or in which the apparent depth in the region around an edge or border appears to oscillate spatially.
A scene-by-scene stereographic plan used in the creation of content.
A regular or irregular fluctuation in the apparent depth of an object, edge, region, or scene, typically as a result of digital compression.
A set of values that provide data on the pixel-by-pixel difference between a left-eye image and a right-eye image. Difference Map is often confused with Disparity Map or Depth Map, both of which provide other kinds of data.
Unit of measurement of the optical power of a lens or curved mirror. Equal to the reciprocal of the focal length.
see cardboard effect.
‘Double vision’. In stereo viewing, a condition where the left and right homologues in a stereogram remain separate instead of being fused into a single image.
A display where the viewer looks directly at the display, not at a projected or virtual image produced by the display. CRTs, LCDs, Plasma panels and OLEDs can all be used in direct view 3D displays
Dirty Window Artifact
A motion compression artifact in which regions of an image remain relatively stationary and do not move smoothly and naturally with other parts of the image. Particularly noticeable during camera pans.
The 3D view from any position is provided by a single image source (see distributed views too).
A noticeable mismatch between the left- and right-eye images.
A pair of images that fail as a stereogram (eg, due to distortion, poor trimming, masking, mismatched camera lenses, or the like).
The process of revealing previously hidden areas.
The distance between conjugate points on overlaid retinas, sometimes called retinal disparity. The corresponding term for the display screen is parallax.
The parallax between two images representing the same scene but acquired from two different viewing angles. The disparity between homologous points is used to compute the elevation.
A set of values that provide data related to the pixel-by-pixel disparity between homologous features in a left-eye and right-eye image. Disparity Map is often confused with Depth Map or Difference Map, both of which provide other kinds of data.
An electronic device that presents information in visual form, that is, produces an electronic image--such as CRTs, LCDs, plasma displays, electroluminescent displays, field emission displays, etc. Also known as a 'sink' that renders an image.
A visible defect that results from the physics or signal processing of the display apparatus.
The physical surface of the display which exhibits information (synonym: screen).
In general usage, any change in the shape of an image that causes it to differ in appearance from the ideal or perfect form. In stereo, usually applied to an exaggeration or reduction of the front-to-back dimension.
The 3D view at any one time and position from multiple image sources. Also see discrete views.
The ability for the eyes to turn outwards together to enable them to both look further away. The opposite of convergence. It is essential for efficient learning and general visual performance to have good divergence and convergence skills.
Digital light processing. Also see MEMs.
Double Stimulus Continuous Quality Scale (DSCQS)
A subjective testing method to measure the quality of a system relative to a reference. (See ITU-R BT.500-12).
Double Stimulus Impairment Scale (DSIS)
A subjective testing method to measure the robustness and failure characteristics of a system. (See ITU-R BT.500-12).
acronym for Double Stimulus Continuous Quality Scale.
acronym for Double Stimulus Impairment Scale.
Duration of Comfort
The amount of time that a viewer is free of discomfort.
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Any visible artifact that creates an unnatural appearing edge or boundary typically caused by optical mismatch or compression artifacts.
A visual artifact that can arise when part of an object near the edge of the display is represented in the left-eye image but is not represented in the right-eye image or vice versa.
A self-luminous display where there is no separate lamp. CRTs, Plasma panels, LEDs and OLEDs are examples.
Those depth cues appreciated by a person using only one eye. Also called monocular cues. They include interposition, geometric perspective, motion parallax, aerial perspective, relative size, shading, and textural gradient.
A 3D display system where there are two separate displays to produce the left and right eye images and the geometry of the system is arranged so each eye can only see one displays.
An object that appears to move rapidly towards the viewer and designed to evoke a reaction from the viewer. See also Flinch Factor.
Eye Sequential 3D
The images in a stereo pair are presented alternately to the left and right eyes fast enough to be merged into a single 3D image. At no instant in time are both images present. The images may be separated at teh eyes by active or passive glasses.
Anything worn on the head and eyes to produce a 3D image. This includes both passive and active glasses or head mounted displays. Consumer-grade 2D and 3D HMDs are often specifically called eyewear. Passive and active glasses are often just called glasses.
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A visual artifact in which an object or part of an object appears to be at a depth that is in unnatural given the context of the scene. This artifact may be more common in 2D-to-3D conversions.
The feature in a stereo image that appears to be farthest from the viewer.
Field of Depth
The field of depth determines the largest depth a display can visualize with a defined minimum resolution. For displays with fixed emission range and angular resolution, th esize of the smallest displayed feature depends on the the distance from the screen. The smallest feature (voxel) the display can reconstruct is the function of the distance from the screen and the angular resolution. If we set an upper limit on the feature size, the angular resolution determines the distance from the screen, within which the displayed features are smaller than the given limit. This range is the Field of Depth, which effectively determines the largest displayable depth below which the features are within given limit.
Field of View
Usually measured in degrees, this is the angle that a lens can accept light. For instance, the human eye’s horizontal field of view is about 175°.
A situation in which the top and bottom fields of interlaced content are reversed.
A situation in which either the top or bottom field of interlaced content are repeated, sometime as a result of low quality upsampling.
The rapid alternation of left and right views in the video format, on the display or at the eye.
Fields per Second
The number of sub-images presented each second. the sub-image can be defined by the interlace pattern, the color or the left/right images in a stereo pair.
A sheet of material that is thin compared to its lateral dimensions. Films are used to modify the light passing through or reflecting off of them. Films can modify the brightness, color, polarization or direction of light. Film encoded with images can be used in projection systems as an image source.
see Barrel Distortion.
Fixation Point Conflict
A situation in which a scene or image has numerous objects, graphics, and focal points that cause a viewers gaze to flit and wander excessively.
The extent to which an object within a scene is likely to elicit a physical reaction from a viewer. See also Eye Poke.
Any regular or irregular temporal variation in luminance of an object or scene.
A display where the image appears to be floating in mid-air, separated from any physical display screen.
A set of cropping masks applied asymmetrically to the left- and right-eye images to avoid window violations and give the appearance of a virtual window at a depth other than the screen depth.
characterized by a radial interference pattern when L-R images are viewed overlaid. This can be a vexing source of brain shear.
An optical or signal processing artifact in which the focus of the left- and right-eye images are not the same.
A situation in which a viewer’s visual attention is drawn to an object or feature that is out of focus, typically as the result of the use of a narrow depth of field in a stereoscopic image.
Fore Window Image
An image that appears in front of the stereo window frame; ie, “coming through the window”. Where an image cuts the edge of the window-frame, the effect is usually referred to as floating edges.
The method used to combine images for printing, storage or transmission.
Flat panel display. The two most common FPDs used in 3D systems are LCDs and plasma panels. OLED FPDs are also commercially available.
Frame Compatible 3D Format
Left/Right frames organized to fit in a single legacy frame such as 480 x 720, 720 x 1280 or 1080 x 1920 pixels. The pair of images can be pixel decimated using spatial compression, color encoded like anaglyph, time sequenced like page flipping, etc.
Frames per Second
The number of complete images delivered to the eye each second.
Front-to-back keystone distortion in the space-image so that a cube parallel to the lens-base is portrayed as the frustum of a regular four-sided truncated pyramid with the smaller face towards the observer. In reverse frustum distortion, the larger face is forward.
Full Frame Stereo Format
A stereo format that uses stereo pairs of 8 perforations (film sprockets) per image width. This would be the same as a conventional camera and is used on twin camera stereo photographs and with certain RBT cameras. The Fed Camera can be modified to full frame.
The merging (by the action of the brain) of the two separate views of a stereo pair into a single three-dimensional (or Cyclopean) image.
Fusion of points that are not homologous, as with accidental and false stereo effects and multiple diplopia.
A series of measures to probe how much stress the convergence and divergence mechanisms are able to cope with when placed under stress. This is linked to the ability to maintain good clear comfortable single vision whilst keeping control of the focusing mechanism. Analysis of the results of this test are complicated. If results are low it can be expected that difficulty in concentrating for long periods will be experienced. Often headaches can result in prolonged periods of close work. Children in particular, but also adults, often show a tendency to avoid prolonged close work when the fusional reserves are low.
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Any visible artifact in which apparent magnification varies spatially within an image. Common geometric distortions include barrel and pincushion distortion.
The perception of crosstalk is called ghosting. A condition that occurs when the right eye sees a portion of the left image or vice versa causing a faint double image to appear on the screen.
Jargon term for the impression of enlarged size of objects in a stereo image due to the use of a stereo base separation less than normal for the focal length of the taking lens(es). See also hypostereo.
An oscillatory overshoot near sharp edges and boundaries that results from a loss of high spatial frequency component as is common in digital compression. Gibb’s phenomenon is a mathematical explanation of ringing artifacts.
A visible artifact in which a most or all of an image contains numerous small variations in luminance or chrominance.
Graphics Processing Unit
A high-performance 3D processor that integrates the entire 3D pipeline (transformation, lighting, setup, and rendering). A GPU offloads all 3D calculations from the CPU, freeing the CPU for other functions such as physics and artificial intelligence.
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A fault present in a stereogram when the two film chips or prints are not aligned vertically in mounting, so that homologous points are at different heights.
Head Mounted Display
A display device worn on the user’s head. Typically using LCD technology. These devices can be used in conjunction with a tracking device to create an immersive virtual reality.
A format for stereo cards that are based on a stereoscope invented by Oliver Wendall Holmes. This is the format for most antique cards and have image centers that are further apart than the human eye (3-1/2" x 7"). This is significant because any viewing device for such cards needs to have a mechanism for bending light before it reaches the eyes. Most viewers are prismatic. Later formats for cards were not as large
Usual name for the common type of hand-held stereoscope with an open skeletal frame. Named after its inventor in 1859, the American physician and author, Oliver Wendell Holmes. Where, as is normally the case, the stereoscope includes a hood to shade the eyes and an adjustable card holder, it is more correctly termed a Holmes-Bates (or just Bates) stereoscope (after Joseph Bates who introduced these refinements).
“Whole drawing”. A technique for producing an image (hologram) that conveys a sense of depth, but is not a stereogram in the usual sense of providing fixed binocular parallax information. Invented in theory by Dr. Dennis Gabor at Imperial College of London in 1948, holograms were not practical until the ruby laser was invented in 1960 by T.A. Mainman of Hughes Aircraft. Today, holograms are made with lasers and produce images that one can practically touch. Some appear to float in space in front of the frame, and they change perspective as you walk left and right. Holograms are monochromatic, and no special viewers or glasses are necessary, although proper lighting is important. To make a hologram, lengthy exposures are required with illumination by laser beams that must be carefully set up to travel a path with precisely positioned mirrors, beam splitters, lenses, and special film.
Identical features in the left and right image points of a stereo pair. The spacing between any two homologous points in a view is referred to as the separation of the two images (which varies according to the apparent distance of the points) and this can be used in determining the correct positioning of the images when mounting as a stereo pair.
Horizontal Image Translation
The horizontal shifting of the two image fields to change the value of the parallax of corresponding points. The term convergence has been confusingly used to denote this concept.
The surface in space that contains all points whose images stimulate corresponding retinal points; i.e. , that all have zero disparity. (Lambooij, et al. , 2009).
acronym for Human Visual System.
Head Up Display
A display device that provides an image floating in mid-air in front of the user.
The distance setting on the focusing scale of a lens mount which will produce a sharply focused image from infinity to half the distance of the focus setting at any specific lens aperture. Of particular value in stereo photography to ensure maximum ‘depth of field’, so that viewing is not confused by out-of-focus subject matter.
Use of a longer than normal stereo base in order to achieve the effect of enhanced stereo depth and reduced scale of a scene; it produces an effect known as Lilliputism because of the miniaturization of the subject matter which appears as a result. Often used in order to reveal depth discrimination in architectural and geological features. The converse of hypostereo.
Using a baseline that is less than the distance between the left and right eyes when taking the pictures. This exaggerates the size of the objects, making them look larger than life. It produces an effect known as Giantism. The converse of hyperstereo. A good use for this would be 3D photographs of small objects, one could make a train set look life size.
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A visible periodic temporal discontinuity that is most noticeable in slow moving images or regions. IDR stands for Instantaneous Decoder Refresh, and an IDR frame is a special kind of I-frame in that serves as a complete restart in H.264/MPEG4/AVC compression. IDR pulses are similar to I-frame Breathing but typically occur less frequently and are sometime more noticeable.
A visible periodic temporal discontinuity that is most noticeable in slow moving images or regions. A result of the different compression coding methods used for I-frames compared to P- and B- pictures.
The sharp transition of image appearance caused when a viewer moves through the visibility zones of some kinds of autostereoscopic displays.
A device mounted on the front of a single lens that, through the use of mirrors or prisms, divides the image captured on film into two halves, which are the two images of a stereoscopic pair. Sometimes called a frame-splitter, and often imprecisely called a beamsplitter
A term used to describe a system that is designed to envelop the participant in a virtual world or experience. The amount of immersion the participant feels depends on a number of factors. Visual immersion is the most common goal. This can be done effectively using a large screen or a head-mounted display.
See stereo infinity.
The distance between camera lenses’ axes.
A type of video stream made up of odd and even lines (or sometimes columns). Normal TV signals (like PAL and NTSC) are interlaced signals, made up of two odd and even line images called fields. These odd and even fields can be used to store stereoscopic left and right images, a technique used on 3D DVDs, although this halves the vertical resolution of the video
Appearance of jagged edges in progressive images and displays. Caused by low quality de-interlacing during format conversion or display.
Inter Lens Separation
The distance between the optical centers of the two lenses of a stereo camera or stereoscope, or (in wide-base stereography) between two photographic or viewing positions. Similar to base, stereo.
A provision in some stereo viewers that allows for adjustment of the distance between the lenses of the viewer to correspond with the image’s infinity separation and in some cases the distance between a viewers eyes.
The separation between the optical centers of a twin-lens stereo viewer (which may be adjustable). Not necessarily the same as the interpupilary distance of the eyes.
The distance between the centers of the pupils of the eyes when vision is at infinity. IPDs can range from 55 to 75 millimeters in adults, but the average is usually taken to be around 65 mm, the distance used for most resolving calculations and viewer designs.
The visual effect achieved when the planes of depth in a stereograph are seen in reverse order; e.g. , when the left-hand image is seen by the right eye, and vice-versa. Often referred to as pseudostereo.
A device that sends synchronization signals to wireless shutter glasses.
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acronym for Just Noticeable Difference.
Joint Photographic Experts Group. An image format that drastically reduces image size, at the expense of throwing out information. Most of the time, the loss of information is not noticeable. When saving an image, you can set the degree of compression you would like, at the expense of image quality. Usually, you can achieve 3:1 compression without noticing much. JPEG uses an 8x8 grid and does a discrete cosine transformation on the image. The result when compression is high and quality is low is a tiling patter and visible artifacts at high-contrast boundaries, particularly noticeable in skies.
A newer, more computationally intensive JPEG standard. It allows for much higher compression rates than JPEG for comparable image quality loss. To achieve this, it uses a wavelet transformation on the image, which takes much more computing power, but as time progresses and machines become faster, this is less of a problem than when the first JPEG standard came out. The size of the compressible area can vary, so no tiling pattern is evident.
Stereoscopic JPEG file. A stereoscopic image file format that is based on JPEG compression.
Just Noticeable Difference
The smallest difference between any two stimuli, such as reference and test stimuli that can be detected.
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Term used to describe the result arising when the film plane in a camera or projector is not parallel to the view or screen. The perspective distortion that follows from this produces an outline of, or border to, the picture which is trapezoidal in shape, resembling the keystone of a masonry arch. In stereo, the term is applied to the taking or projecting of two images where the cameras or projectors are ‘toed-in’ so that the principal objects coincide when viewed. The proportions of the scene will then have slight differences that produce some mismatching of the outlines or borders of the two images. Gross departures from orthostereoscopic practice (eg, if using telephoto lenses) can produce keystoning in depth; more properly called a frustum effect.
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The appearance of a floating grid in some kinds of autosterescopic displays having non-orthogonal pixel grids that result in false disparity with respect to the left and right eyes of a viewer.
Pertaining to a lens. As used by Brewster to describe his lensed stereoscope. Shaped like a lens. In stereo, used to describe:
(1) A method of producing a depth effect without the use of viewing equipment, using an overlay of semi-cylindrical (or part-cylindrical) lens-type material which exactly matches alternating left and right images on a specially-produced print, thereby enabling each eye to see only one image from any viewing position, as in an autostereogram.
(2) A projection screen with a surface made up of tiny silvered convex surfaces which spread the reflected polarized light to increase the viewing angle.
A projection screen that has embossed vertical lines for its finish rather than the “emery board” finish most common. They tend to cost more. The silvered version is critical to 3D projection, as any white screen will not preserve the polarization of the image reflected off it.
Jargon term for the miniature model appearance resulting from using a wider-than-normal stereo base in hyperstereography.
An image formation phenomenon and perceptual depth cue in which, for example, lines that are parallel in 3-dimensional physical space appear to converge.
A form of polarized light in which the tip of the electric vector of the light ray remains confined to a plane.
A handheld pair of lenses that helps people view stereographs.
Loss of Detail
Absence or significant reduction in fine visual textures, typically as a result of compression or noise filtering.
Regular or irregular fluctuations in brightness.
A situation in which the luma of an object(s) in the left-eye image is not the same as that of the right-eye image.
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Ultra close-up images, photographed with a much-reduced stereo base in order to maintain correct stereo recession.
Macro Stereo Photography
Stereo photography in which the image on the film is about the same size or larger than the true size of the image.
Paintings and computer generated optical illusions that, if one can freeview, reveal hidden images of shapes and objects.
Mean Opinion Score
The average of scores from participants in a subjective test.
Mean Square Error (MSE)
The average value of the square of the pixel-by-pixel difference between an reference image and a another image. Typically only luma values (or equivalent grayscale values) are used to calculate the mean squared error.
Stimuli that are perceptually identical in color even though they have different spectral composition.
A stereo viewer incorporating angled mirrors, as in the Wheatstone and Cazes stereoscopes.
In stereo usage, a condition where one homologue or view is higher or lower than the other. Where the misalignment is rotational in both views, there is tilt; in one view only, twist. Viewing a misaligned stereogram can result in diplopia or produce eyestrain.
Mixed Resolution Coding
A method of compression in which either the left- or right-eye image has a lower resolution than the image for the other eye.
low frequency interference patterns that result from the overlap of periodic grating, grids, or annuli. The pixel grid of a display may form interfering periodic structures. A form of aliasing.
Parts of the scene in a stereo image that appear in one view and not in the other. These can be natural (if behind the stereo window) or unnatural, as in the case of floating edges (if in front of the stereo window).
A visible defect that can be detected solely using either the left or right eye.
Image softness or lack or resolution that is limited to either the left- or right-eye view such as may occur as the result of asymmetric or multi-resolution coding.
See Extrastereoscopic Cues.
acronym for Mean Opinion Score.
A compression artifact in which adjacent blocks in an image have mismatching color, brightness, or texture.
Visual business or ringing near sharp edges or borders, typically a result of the compression processes.
A visible defect invoked by motion. Blur, smearing, streaking, stutter, and object jumping are examples.
loss of sharpness of moving details as a result of camera exposure or noise filtering during post-processing or compression. May also be caused by slow display response dynamics.
The visual phenomenon and perceptual depth cue in which the relative position of foreground and background objects change as a function of distance from the viewer when the viewer’s head moves.
The neuromuscular process of vergence movements by which the optical axis of left and right eye are dynamically aligned to bring corresponding retinal images into the zone of clear single binocular vision.
In stereo usage, a special holder or card used to secure, locate and protect the two images of a stereo pair. Usually, the term includes any framing device or mask that may be incorporated.
The process of fixing the left and right views to a mask or mount (single or double) so that they are in correct register, both vertically (to avoid misalignment) and horizontally (so that the stereo view is held in correct relationship to the stereo window).
A device used to assist in the process of mounting stereo pairs in correct register, usually incorporating an alignment grid placed below the mount holder and a pair of viewing lenses above the film chips to enable each eye to focus on the appropriate image and fuse the pairs.
optical aberration caused by a combination of barrel and pincushion distortion.
Standards developed by Moving Picture Experts Group. A type of audio/video file found on the Internet. There are three major MPEG standards: MPEG-1, MPEG-2, and MPEG-4.
acronym for Mean Squared Error.
Multiple Points of Reference
see Fixation Point Conflict.
The process of taking a right and left image and combining them with a multiplexing software tool or with a multiplexer to make one stereo 3D image.
The technique for placing the two images required for a stereoscopic display within an existing bandwidth.
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The feature in a stereo image that appears to be nearest to the viewer.
Near Point of Accommodation
The closest distance from the eyes that reading material can be read. This distance varies with age. It is often measured in each eye separately and both eyes together. The results are compared to one and other.
Near Point Stress
The term used when close work is causing the individual unacceptable stress. This is often seen when the relationship between accommodation and convergence is maintained only by excessive effort. The response to this is either a tendency to avoid close work (known as evasion) or alternatively, to use progressively more and more effort. This is typified by a tendency to get closer and closer to the work and then to suffer slower work rates, head aches and eye discomfort. Writing often becomes labored and difficult, showing a tight pencil grip and excessive pressure. They may complain of blurred vision, print getting smaller, colored fringes around text that sometimes moves on the page and possibly double vision. There is often a generalized ocular discomfort and there can be complaints of feeling ‘washed out’ after prolonged concentration. Symptoms can vary from day to day.
A situation in which a feature in the left-eye image is to the right of the corresponding feature in the right-eye image, which causes the eyes to converge to a point in front of the display, which causes the feature to appear to be in theater space.
Visible artifact that can be attributed to an error or errors in the transmission processes, such as delayed or dropped packets.
The brand name, taken from the surnames of inventors Jerry Nims and Allen Lo, for a camera system intended primarily to produce lenticular autostereo prints, incorporating four lenses to record the same number of images (each of 4-perforations width) on 35mm film. The name is often used to identify the size of mask or mount developed to hold 4-perforation-wide pairs of transparencies made with this camera and its derivatives.
A stereo format that uses stereo pairs of 4.5 perforations (film sprockets) per image width. This would be the equivalent of a half frame and is used with Nishika and Nimslo stereo cameras. Some cameras with beamsplitters use a 4 perforation format but this would not be called a Nimslo format. .
A type of interlaced video stream used primarily in North America. It is made up from 525 horizontal lines playing at 30 frames per second (or 60 fields per second).
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Object Edge Plane Distortion
A visual artifact in which the edge of an object appears to be at a different depth than the rest of the object. This artifact may be found more frequently in 2D-to-3D conversions.
A method of evaluating video or perceptual quality using a mathematical method or model or algorithm such as those found in test and measurement equipment. Objective test are typically intended to predict the results of subjective tests that employ human observers.
The image formation phenomenon and depth cue in which nearer objects block all or part of more distant objects.
Ocular Near Triad
Accommodation, Convergence, and Pupillary Dynamics.
A rule-of-thumb calculation for determining the stereo base when using a non-standard camera lens separation, eg in hyper- or macro- stereography. To achieve optimum stereo depth, the separation of the centers of the camera lenses should be around one-thirtieth of the distance from the lenses to the closest subject matter in a scene. This ‘rule’ only holds good under certain optical conditions (eg where ‘standard’ focal-length lenses are used), and usually needs to be varied when, for example, lenses of longer or shorter than normal focal length are used.
A graphics API that was originally developed by Silicon Graphics, Inc. for use on professional graphics workstations. OpenGL subsequently grew to be the standard API for CAD and scientific applications and today is popular for consumer applications such as PC games as well.
Any distortion resulting from imperfect image formation by a lens system.
Any geometric distortion resulting from image formation by a lens system.
The ideal position and distance for viewing a stereo image.
An image capture system that mimics the binocular geometry of human vision, including interocular distance.
A stereoscopic image viewed with its planes of depth in proper sequence, as opposed to an inverse (or pseudo) stereoscopic image.
An image that appears to be correctly spaced as in the original view.
When the focal length of your viewer’s lenses is equal to that of the focal length of the taking lenses of the camera in which the slides were viewed. This is said to allow you to see the objects as being exactly the same size and with the same distance between each other in the viewer as in reality.
Over/Under format involves using a mirror system to separate the left and right images that are placed one above one another. Special mirrored viewers are made for over/under format.
A form of stereo recording (on cine film) or viewing (of prints) in which the left and right images are positioned one above the other rather than side-by-side, and viewed with the aid of prisms or mirrors which deflect the light path to each eye accordingly.
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A type of interlaced video stream used in the UK and around the world. It is made up from 625 horizontal lines playing at 25 frames per second (or 50 fields per second).
Pictures taken of the world around you as if you were turning around in a circle.
Panum’s Fusional Area
The small area around the horopter where sensoric fusion takes place. (Lambooij, et al. , 2009).
A trick of stereo viewing whereby, if a single vertical line is presented to one eye and two vertical lines to the other, and one of the double lines is fused with the single line in binocular viewing, the unmatched line is perceived to be nearer or further away than the fused line. A concept used in the design of stereo mounting grids. A phenomenon first described by the scientist Panum in 1858.
Apparent change in the position of an object when viewed from different points. The distance between conjugate points. Generally, the differences in a scene when viewed from different points (as, photographically, between the viewfinder and the taking lens of a camera). In stereo, often used to describe the small relative displacements between homologues, more correctly termed deviation.
The range of parallax values, from maximum negative to maximum positive, that is within an acceptable range for comfortable viewing.
A form of autostereogram which currently describes a technique in which alternate thin vertical strips of the left and right hand views are printed in a composite form and then overlaid with a grating (originally), or (nowadays) a lenticular sheet of cylindrical lenses which presents each view to the correct eye for viewing stereoscopically.
Parallel Viewing Method
Viewing a stereo image where the left view of a stereo image is placed on the left and the right view is placed on the right. This is the way most stereocards are made as opposed to cross-eyed viewing.
Parallel Free-vision Fusion Parallel-viewing
The Parallel Method
A free viewing technique in which the lines of sight of the two eyes aim and meet at a point beyond and behind the 3D image; the eyes move outward (away from the nose) toward PARALLEL lines of sight.It works with small images, but is somewhat limiting on a computer screen.
Passive Polarized 3D glasses
3D glasses made with polarizing filters. Used in conjunction with a view screen that preserves polarized light.
A technique whereby 3D stereoscopic imagery is achieved by polarizing the left and right images differently at source, viewed using low-cost polarizing glasses.
Any compression process that results in an image or video that is not discernibly different to a viewer from the corresponding uncompressed image or video.
Percival’s Zone of Comfort
An optometric rule of thumb for the viewing of stereo stimuli; it is the approximate range of vergence and accommodation responses for which the viewer can fuse images without discomfort. (Banks, et al. , 2008).
The time required for a display pixel to turn off. Long persistence can lead to crosstalk.
see Linear Perspective or Atmospheric Perspective
Any inconsistency between binocular depth cues and perspective that can lead to ambiguous interpretation of depth.
A form of panorama picture made of photos usually taken with a fisheye lens. They are then stitched together to produce a photo sphere or cube. The viewer can see all around, above, and below.
A professional discipline which uses stereography as a basis for scientific measurement and map-making. The art, science, and technology of obtaining reliable information about physical objects and the environment through processes of recording, measuring, and interpreting photographic images and patterns of recorded radiant electromagnetic energy and other phenomena.
Picket Fence Effect
Vertical banding of alternative bright and dark bands caused by head position relative to some kinds of autostereoscopic displays.
Monocular depth cues such as relative size, linear perspective, and aerial perspective that are used to denote depth in non-stereoscopic images.
optical aberration caused by increasing magnification at increasing distance from the optical axis. Also known as a pillow effect.
see pincushion effect.
A visible artifact in which individual pixels or blocks of pixels are evident, typically as the result of upsampling or compression.
A planar image is one contained in a two-dimensional space, but not necessarily one that appears flat. It may have all the depth cues except stereopsis.
A stereoscopic projected image that is made up of two planar images.
acronym for Predicted Mean Opinion Score.
Polarization of Light
The division of beams of light into separate planes or vectors by means of polarizing filters (first practically applied by Edwin Land of the Polaroid company in the 1930s). When two vectors are crossed at right angles, vision or light rays are obscured.
A situation in which a feature in the left-eye image is to the left of the corresponding feature in the right-eye image, which causes the eyes to converge to a point behind the display, which causes the feature to appear to be in screen space.
The appearance of discrete luminance or chrominance steps on what should be a smooth gradient. Usually the result of insufficient dynamic range. See contouring.
Predicted Mean Opinion Score (pMOS)
An objective score generated by a computer algorithm to predict the true Mean Opinion Score (MOS) that would be obtained by subjective testing.
A visible defect introduced in the capture or post-production process.
(in film transport)
The amount or method by which film is advanced between exposures in a purpose-built stereo camera. The Colardeau progression moves by an even two frames; the Verascope progression moves by one and three frames alternately.
The effect produced when the left view image and the right view image are reversed. This condition causes a conflict between depth and perspective image.
The presentation of three-dimensional images in inverse order, so that the farthest object is seen as closest and vice-versa: more correctly referred to as inversion. Achieved (either accidentally or deliberately, for effect) when the left and right images are transposed for viewing.
Viewing of stereo pair with images the depth or relief of an object is reversed.
acronym for Peak Signal to Noise Ratio.
The scientific discipline that investigates and measures the relationship between physical stimuli and perception or sensation.
Term now used to describe an illusory stereoscopic effect which is produced when two-dimensional images moving laterally on a single plane (as on a film or television screen) are viewed at slightly different time intervals by each eye, the perceived delay between the eyes being achieved by means of reduced vision in one of them; eg, through the use of a neutral-density filter. The apparent positional displacement that results from this is interpreted by the brain as a change in the distance of the fused image. A scene is produced giving a depth effect, the depth being proportionate to the rate of movement of the object, not to the object distance. The phenomenon was first adequately described in 1922 by Carl Pulfrich, a physicist employed by Carl Zeiss, Jena, in relation to a moving object (a laterally-swinging pendulum).
Stereo video taken by rolling a camera sideways at a right angle to an object. When played back, the viewer wears glasses with one eye unobstructed, and the other through a darker lens. The brain is fooled into processing frames of the video in sequence, and the result is a moving stereo image in color.
The neuromuscular process by which the pupils tend to constrict for when viewing near objects and to dilate when viewing distant objects as a means of controlling depth of field and aberrations.
Puppet Theater Effect
A phenomenon in which objects appear smaller than their familiar size, caused by conflict between the binocular cues, perspective cues, and prior knowledge of the sizes of familiar objects.
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A visible artifact in which natural texture, gradient smoothness, or edge smoothness is lost, typically as a result of compression.
Distortions introduced as a consequence of compression. The difference between a source image and its compressed image.
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The apparent separation of neutral colors into discernable red, green, and blue components, an anomaly that may be seen with some DLP display systems particularly for objects in motion. The artifact is associated with DLP systems that use that use a color wheel and single-chip.
Random Dot Stereogram
A type of stereogram in which a three-dimensional image is formed by the fusing of apparently randomly-placed dots in a stereo pair: an effect first created manually by Herbert Mobbs of The Stereoscopic Society in the 1920s but scientifically developed, using computer-generated images, by Bela Julesz in the 1960s. The random dot stereogram is a computer-generated image that could be perceived only with binocular (two-eyed) depth perception. This is a method in which a pattern is repeated at about the distance between your eyes (2.5-2.75 inches). Minor variations in the patterns from column to column will combine to give you depth information when your eyes have diverged from their focus point (relaxed focus- walleyed). This method has limitations due to the fact that only graphics-type images can be shown- not a true-color image.
The 5-perforation 35 mm slide format of 23 x 24 mm, originally created by the specification of the Stereo Realist (USA) camera, and subsequently adopted by many other manufacturers. A stereo format that uses stereo pairs of 5 perforations (film sprockets) per image width. This is the most common stereo format and is named after the camera made by the David White Company. It is used with the Kodak, TDC Colorist I and II, TDC Vivid, Revere, Wollensak, Realist, along with many other cameras too numerous to mention.
Realtime 3D Graphics
Realtime graphics are produced on-the-fly, by a 3D graphics card. Realtime is essential if the user needs to interact with the images as in virtual reality, as opposed to watching a movie sequence.
Rear projection is when images are projected from behind a screen. The advantage of this configuration is that a viewer cannot cast shadows by getting in between the projector and screen - particularly important when a user is interacting with images on the screen. Certain types of rigid and flexible rear projection screens can be used for stereoscopic projection.
Reduced Spatial Resolution
A condition in which original content is downsampled or resized, which results in a loss of higher spatial frequency information.
Reference Point Conflict
see Fixation Point Conflict
Any artifact which results from the process of preparing data for display. Some examples include deinterlacing, color conversion, and aspect ratio conversion.
Retinal rivalry is the simultaneous transmission of incompatible images from each eye.
Dual camera heads in a properly engineered mounting used to shoot stereo movies.
Visible regular or irregular oscillations of luminance or chrominance near edges and borders, typically a result of compression or over-enhancement, such as in telecine or in image processing within a digital camera.
acronym for Root Mean Squared Error.
This is the name sometimes used to delineate the 41 x 101mm, 1-5/8" x 4" (outer dimensions) mount used for almost all stereo slides. Mounts of these outer dimensions are made for the Realist, European, Nimslo, and full frame formats. Named after Seaton Rochwite, the inventor of the Realist Stereo Camera.
Tilting of the images through not holding the camera horizontally, causing one lens to be higher than the other at the picture-taking stage. If the tilting is not too severe, it may be possible to straighten both images when mounting but there will be a height error, however small, in part of the image. A difference in the alignment of the two images in a stereogram caused by faulty mounting.
Root Mean Squared Error
A common measure of image fidelity. The square root of the average value of the square of the pixel-by-pixel difference between source and processed images.
A format to create 3D video or images in which each row or line of video alternates between the left eye and the right eye (from top to bottom).
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A stereo format produced by prisms or other forms of image-splitter on a planar camera, side-by-side for still images and over-and-under for cine images.
Screen Door Artifact
A grid of fixed pattern noise resulting from the space between pixels.
The region appearing to be within a screen or behind the surface of the screen. Images with positive parallax will appear to be in screen space. The boundary between screen and theater space is the plane of the screen and has zero parallax.
acronym for Simultaneous Double Stimulus Continuous.
The hardware used to present the appropriate image to the appropriate eye and to block the unwanted image. For 3D movie the selection device is usually eyewear used in conjunction with a device at the projector, like a polarizing device.
The neural process of merging two retinal images into a single stereoscopic image. Sensoric fusion is limited to a retinal disparity of 0.1° at the fovea, 0.33° at an eccentricity of 6°, and 0.66° at an eccentricity of 12°. (Lambooij, et al. , 2009).
The distance between two taking positions in a stereo photograph. Sometimes used to denote the distance between two homologues
The partition used in a stereo camera to separate the two image paths. Any partition or design element that effectively separates the lines of sight of the eyes such that only their respective left and right images are seen by each one.
A stereo pair of images made with one camera that is moved by an appropriate separation between the making of the LH and the RH exposures.
The phenomenon by which the relative positions of objects in a stereoscopic image appear to change with the change in the viewer’s position.
A device worn on your head, with two lenses generally covered in a liquid crystal material and controlled by your computer. When viewing a 3D image using these glasses, your computer displays the left image first, while instructing your glasses to open the left eye’s “shutter” (making the liquid crystal transparent) and to close the right eye’s “shutter” (making the liquid crystal opaque). Then in a short interval - 1/30 or 1/60 of a second, the right image is displayed, and the glasses are instructed to reverse the shutters. This keeps up for as long as you view the image. Since the time interval is so short, your brain can’t tell the difference in time, and views them simultaneously. Does not require polarized light preserving screen.
Used as a verb, to assemble a stereo camera from the relevant parts of two similar planar cameras. Therefore, siamesed (adjective) to describe the finished assembly.
A type of screen surface used for passive stereoscopic front projection. These screens maintain the polarization of the light introduced by polarizing filters in front of the two projector lenses.
Simultaneous Double Stimulus Continuous Evaluation (SDSCE)
A subjective method for measuring the fidelity between two impaired video sequences. (See ITU-R BT.500-12).
A feeling of unease caused by a conflict between the visual perception system and the vestibular system that confuses a viewer’s perception of motion.
Single Image Random Dot Stereogram
A computer-generated stereogram in which the depth information is combined into a single image (a stereo pair is no longer visible to the naked eye). A form of random dot stereogram in which the stereo pair is encoded into a single composite image that each eye has to decipher separately. Popularized in the “Magic Eye” type books of the 1990s. The first single image random dot stereogram was programmed on an Apple II computer in 1979 by Maureen Clarke and Christopher Tyler.
Single Stimulus Continuous Quality Evaluation (SSCQE)
A subjective method for measuring video quality without respect to a reference and in a manner intended to be close to home viewing conditions. (See ITU-R BT.500-12).
A device for taking sequential stereo pairs of non-moving subjects, enabling a planar camera to move by an appropriate separation whilst holding the camera in correct horizontal register with the optical axes either parallel or “toed-in” to create a convenient stereo window. It is more accurate than Cha-Cha and can be used to produce 2x2 stereo format slides.
see puppet theater effect, gigantism, and lilluptism.
A visible artifact in which objects or textures become elongated and lose detail along the direction of motion, typically a result of compression, filtering, or slow display response dynamics.
acronym for Signal-to-Noise Ratio.
This is done by walking around an object and taking pictures every 10-20 degrees, or putting the camera on a tripod and an object on a turntable and rotating it 10-20 degrees between shots. It can also be done with 3D modeling software by a computer. It does not create the same sense of depth as stereographics. To view spinography on a computer you usually need a small program for your browser called a plug-in.
Diminution of depth in a stereogram in relation to the other two dimensions, usually resulting from a viewing distance closer than the optimum (especially in projection). The opposite effect to stretch.
acronym for Single Stimulus Continuous Quality Evaluation.
A visible distortion in which edges, lines, and borders that would be expected to vary smoothly appear to be instead composed of short connecting horizontal and vertical segments.
Having depth, or three-dimensional: used as a prefix to describe, or as a contraction to refer to, various stereographic or stereoscopic artifacts or phenomena. Stereo comes from the Greek stereos for hard, firm or solid and it means combining form, solid, three-dimensional. Two inputs combine to create one unified perception of three-dimensional space.
The ability to distinguish different planes of depth, measured by the smallest angular differences of parallax that can be resolved binocularly.
The inability to perceive stereoscopic depth cues. Common causes of stereoblindness include strabismus and amblyopia. Normal stereoscopic vision is also known as Stereo Acute.
The farthest distance at which spatial depth effects are normally discernible, usually regarded as 200 meters for practical purposes.
In 1838 Charles Wheatstone invented the first stereoscopic viewer for the 3D viewing of stereo pairs.
The amount of time between the presentation of a stereoscopic stimulus and the perception of depth by a typical viewer.
Stereoscopic Vision Stereopsis
Two eye views combine in the brain to create the visual perception of one three-dimensional image. A byproduct of good binocular vision. Vision wherein the separate images from two eyes are successfully combined into one three-dimensional image in the brain.
The viewing frame or border of a stereo pair, defining a spatial plane through which the three-dimensional image can be seen beyond (or, for a special effect, “coming through”). A design feature in some stereo cameras whereby the axes of the lenses are offset slightly inwards from the axes of the film apertures, so as to create a self-determining window in the resulting images which is usually set at around an apparent 2 meters distance from the viewer. If the objects appear to be closer to the viewer than this plane it is called breaking the window.
A stereoscopic instrument for measuring parallax; usually includes a means of measuring photograph coordinates of image points.
A general term for any arrangement of LH and RH views which produces a three-dimensional result, which may consist of:
- A side-by-side or over-and-under pair of images
- Superimposed images projected onto a screen
- A color-coded composite (anaglyph)
- Lenticular images
- A vectograph
- In film or video, alternate projected LH and RH images which fuse by means of the persistence of vision.
The original term, coined by Wheatstone, for a three-dimensional image produced by drawing; now denoting any image viewed from a stereogram. In more general but erroneous usage as the equivalent of stereogram.
A person who makes stereo pictures.
An early type of stereoscope that also carries a large monocular lens (above the two regular stereoscopic lenses) for the viewing of planar photographs.
The art and practice of three-dimensional image making.
Two images made from different points of view that are side by side. When viewed with a special viewer the effect is remarkably similar to seeing the objects in reality.
Made of a special transparency material with polarized images inkjetted onto each side, they can be displayed as transparencies or mounted against a reflective background and can be made up to poster size. They are viewed with an inexpensive pair of polarized lenses made for stereo viewing. Regular polarized sunglasses will usually not work because the lenses are mounted at the wrong angle of polarization. Colors are truer than anaglyphs, and when properly lit, they look very real.
Stereo-photogrammetry is based on the concept of stereo-viewing, which derives from the fact that human beings naturally view their environment in three dimensions. Each eye sees a single scene from slightly different positions. The brain then “calculates” the difference and “reports” the third dimension.
A means to incorporate information for the left and right perspective views into a single information channel without expansion of the bandwidth.
An instrument for plotting a map or obtaining spatial solutions by observation of pairs of stereo photographs.
The binocular depth sense, literally, “"solid seeing. ” The blending of stereopairs by the brain. The physiological and mental process of converting the individual LH and RH images seen by the eyes into the sensation and awareness of depth in a single three-dimensional concept (or Cyclopean image).
Term sometimes (erroneously) used to describe a stereoscope. First used (1875) to identify a dissolving twin-image magic lantern which could be used to convey information about depth by the blended sequential presentation of a series of planar views of a subject; later applied to some other kinds of non-stereo projectors.
Process that uses two-dimensional information contained in a pair of images to recreate the shape and position of objects.
A binocular optical instrument for helping an observer obtain the mental impression of a three-dimensional model when view plano-stereoscopic images (stereograms). The design of stereoscopic instruments use a combination of lenses, mirrors and prisms. It is usually an optical device with twin viewing systems.
“Solid looking”. Having visible depth as well as height and width. May refer to any experience or device that is associated with binocular depth perception.
Two photographs taken from slightly different angles that appear three-dimensional when viewed together.
The art and science of creating images with the depth sense stereopsis. The reproduction of the effects of binocular vision by photographic or other graphic means. Stereography.
see Dirty Window Artifact.
“Crossed eye”, “wall eye”, “wandering eye”, esotropia, exotropia, hyperphoria. Affects approximately 4 out of every 100 children in the United States. It is a visual defect in which the two eyes point in different directions. One eye may turn either in, out, up, or down while the other eye aims straight ahead. Due to this condition, both eyes do not always aim simultaneously at the same object. This results in a partial or total loss of stereo vision and binocular depth perception. The eye turns may be visible at all times or may come and go. In some cases, the eye misalignments are not obvious to the untrained observer.
The elongation of depth in a stereogram in relation to the other two dimensions, usually caused by viewing from more than the optimum distance, especially in projection. The opposite effect to squeeze.
Strip of Stereo Photographs
A series of overlapping photographs taken while moving the camera in one direction and at regular intervals so as to generate a sequence of stereo images.
Irregular pauses or repeated pictures that result in non-smooth motion.
The vertical and horizontal edges immediately adjacent to the screen.
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In stereoscopy, t is used to denote the distance between the eyes, called the interpupilary or interocular distance. tc is used to denote the distance between stereoscopic camera heads’ lens axes and is called the interaxial.
A stereoscopic image which presents the original scene to the viewer exactly as it would have been perceived in life; ie, with the same apparent scale, positions of scenic elements, and a stereo magnification of x1 for all subject matter in the view.
A form of cabinet viewer devised by the Jules Richard Company for viewing a collection of stereograms in sequence, and continuously.
A camera that uses the Nimslo format but has been modified by Technical Enterprises to expose only two frames per exposure as opposed to the four frames per exposure needed for lenticular processing.
see Synchronization Error.
The region appearing to be in front of the screen or out into the audience. Can also be called audience space. Images with negative parallax will appear to be in theater space. The boundary between screen and theater space is the plane of the screen and has zero parallax.
Therapeutic 3D viewing
3D viewing for the sake of improving important visual skills such eye teaming, binocular coordination and depth perception.
In stereo usage, an early type of stereogram on translucent paper in a card frame, often tinted and sometimes with pin-pricked highlights designed for viewing with backlighting.
The technique of causing the optical axes of twin planar cameras to converge at a distance point equivalent to that of a desired stereo window, so that the borders of the images are coincident at that distance (apart from any keystoning which results).
A 3D tracking system is used in virtual reality in order for the computer to track the participant’s head and hands. There are many different types including optical, magnetic and ultrasonic tracking systems.
The use of film photography (usually diapositives) with analogue or analytical stereoplotters.
The process of converting one 3D video format into another. Example field sequential 3D video into column interleaved image data.
Any artifact that can be attributed to an error or errors in the transmission processes, such as delayed or dropped packets.
The changing over of the inverted images produced by a stereo camera to the upright and left/right presentation necessary for normal viewing. May be achieved optically by means of a transposing camera or viewer, or mechanically by means of a special printing frame, as well as manually during the mounting of images.
Proprietary name of a commercial stereo transparency viewing system that presents a series of views in a film-strip sequence on a single card mount.
Twin Camera Stereo Photography http://www.berezin.com/3d/cameras.htm - Fed 50
Stereo photography using two monoscopic cameras, usually with shutters and other components connected internally or externally using mechanical or electronic means. This photography has advantages that include using common formats (e.g. full frame, medium format. . . ) and being able to achieve a variable stereo base. Drawbacks include difficulty matching cameras, film and getting normal stereo bases. Camera bars can be used to help achieve more consistent results.
Rotational displacement of one view in a stereo pair in relation to the other.
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Any image pair or object within an image pair in which the disparity exceeds a viewer’s convergence abilities.
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A form of polarization-coded stereogram (originally devised by the Polaroid company) in which the images are mounted on the front and rear surfaces of a transparent base, and are viewed by polarized light or through polarized filters. The polarized equivalent of an anaglyph stereogram.
See Progression format.
see Accommodation-Convergence Reflex.
see Accommodation-Convergence Rivalry.
The situation is which the corresponding points the left- and right-eye images are not coincident along the vertical dimension.
The condition in which a viewer perceives self motion while actually physically stationary.
Proprietary name of a commercial stereo print viewing system (utilizing angled periscope-type mirrors) for over-and-under mounted prints; the name now also being used to identify this mounting format.
Proprietary name of a commercial stereo transparency image display and viewing system utilizing stereo pairs (7 in total) mounted in a circular rotating holder, and viewed with a purpose-made stereo viewer.
View-Master Personal Format http://www.berezin.com/3d/images/vmreel.jpg
The format used with a Viewmaster Personal Camera. It produced 2 rows of chips of around 18 x 10mm per roll of 35mm film. These were used in conjunction with a cutter to make View-Master reels for personal use. It is not the same method that is used for mass- market reels produced by Fisher Price.
A feeling of unease or fatigue that can sometime result during stereoscopic viewing. Several causes of viewer discomfort have been proposed, including: rapid changes in accommodation and convergence; depth cue conflicts; and unnatural blur. (See Banks, et al. , 2008 and Lambooij, et al. , 2008).
The situation in which the left-eye image contains visible details or features that are not present in the right-eye image, or vice versa. Reflections are a common source of View Discrepancy.
A condition of eye strain and/or reduced ability to achieve binocular fusion that can sometimes result during stereoscopic viewing. Several causes of viewer fatigue have been proposed, including: rapid changes in accommodation and convergence; depth cue conflicts; and unnatural blur. (See Banks, et al. , 2008 and Lambooij, et al. , 2008).
An optical aberration in which intensity decreases with increasing distance from the optical axis.
A system of computer-generated 3D images (still or moving) viewed by means of a headset linked to the computer that incorporates left-eye and right-eye electronic displays. The controlling software programs often enables the viewer to move interactively within the environment or ‘see’ 360° around a scene by turning the head, and also to “grasp” virtual objects in the scene by means of an electronically-linked glove. Although they allow you to see all sides of an object by rotating it, you are still seeing only two dimensions at a time.
The act of perceiving and interpreting visual information with the eyes, mind, and body.
Virtual Reality Markup Language. A set of standards for spinography software. Images are not really VR.
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A “reflecting” or mirror stereoscope in which a pair of images (which need to be reversed) are placed facing each other at either end of a horizontal bar and viewed through a pair of angled mirrors fixed midway between them. Named after Sir Charles Wheatstone who devised this earliest form of stereoscope in 1832, prior to the advent of photography.
The stereo window corresponds to the screen surround unless floating windows are used.
A depth cue conflict that can arise when part of an object is cut off by the edge of the display. In the case in which the object has a disparity that would make it appear to be in theater space, the part of the object that is cut off by the edge of the display may also be interpreted as occlusion by the viewer: i.e., the disparity and occlusion depth cues would be in conflict. Window violations can be addressed by use of Floating Windows.
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The area of the graphics memory used to store the Z or depth information about rendered objects. The Z-buffer value of a pixel is used to determine if it is behind or in front of another pixel. Z calculations prevent background objects from overwriting foreground objects in the frame buffer.
A situation in which a feature in the left-eye image is in the same place as the corresponding feature in the right-eye image, which causes the eyes to converge to a point on the display, which causes the feature to appear to be at the same depth as the display.
Zone of Clear Single Binocular Vision
The set of vergence and focal distances for which a typical viewer can see a sharply focused image; i.e., it is the set of those distances for which vergence and accommodation can be adjusted sufficiently well. (Banks, et al. , 2008).
Zone of Comfortable Viewing
see Percival’s Zone of Comfort.
see Focal-Length Mismatch.
Zero parallax setting or the means used to control screen parallax to place an object in the plane of the screen. ZPS may be controlled by HIT, or toe-in. We can refer to the plane of zero parallax, or the point of zero parallax (PZP) so achieved. Prior terminology says that left and right images are converged when in the plane of the screen.
Portions of this glossary were developed in collaboration with MPEG IF.
List compiled from a variety of sources, including: Lenny Lipton, Ocular; Art Berman, Insight Media; Rajendra Bopardikar, Intel; Peter Tamas Kovacs, Holografika; Dan Schinasi, Samsung Electronics America; Hagen Stolle, SeeReal Technologies; and Kevin Wines, THX for their contributions and excellent detailed reviews. Thanks also to Heidi Hoffman, Advanced Imaging Society and Jon Shapiro, 3ality Digital.