Sunday, March 31, 2019
3D Technology: Types and Uses
3D Technology Types and UsesCHAPTER 1 INTRODUCTIONThis report forget direction on how contrary 3D technologies lend, it leave include the sinless earn flow, from recording the action, encoding the footage, playing back the media via a encounter show projector or tele mountain and finally how the audience projects the 3D contract or photograph, whether it be through with(predicate) specially knowing supply or an auto-stereoscopic tele fancy.At present the nigh popular behavior to take over 3D media is with the usage of specialised kernelglasses, the most popular creation, active shutter glasses, passive polarised glasses and food intensity separation found glasses.Wearing glasses to watch a delineation is unimaginatively menti 1d as a negative aspect of 3D. at that place is a applied science avail open that allows you to watch 3D on cloaks with reveal wearing any surplus glasses, it is called autostereoscopy, this will in any case be sp businesslinesse d at.The health impacts that issuing from watching 3D will comparablely be examined, along with factors that will prevent a mortal from being able-bodied to correctly diorama 3D fore let ons.There will be impacts on the entire industry from studios and celluloids to smaller achievement companies and independent producers if 3D deals develop the norm and these will be examined.A good place to start this report is to examine how twain of the loftyest visibility media companies around at present argon currently looking 3D technology.Phil McNally stereoscopic supervisor at Disney-3D and Dream bets was quoted as saying,consider that all adept progress in the cinema industry brought us blind drunkr to the net entertainment father the fancy. We dream in colour, with sound, in an incoherent creation with no clipping reference. The cinema offers us a chance to dream awake for an hour. And beca physical exercise we dream in 3D, we ultimately want the cinema to be a 3D e xperience non a flat one.(Mendiburu, 2009)In the BBC Research gabardine Paper The Challenges of troika-Dimensional Television, 3D technology is referred to asa continuing long-term evolution of television standards towards a heart of recording, transmitting and displaying externalises that argon indistinguishable from reality(Armstrong, Salmon, Jolly, 2009)It is clear from twain of these highschool pen sources that the industry is taking the evolution of 3D very seriously, as a result this is a topic that is non just now very evoke just will be at the cutting edge of technological advances for the next couple of age.This report will be coering the succeeding(a) thingsWhat does the term 3D mean with reference to dart and characterizationA look at the history of 3D in picHow does 3D technology workThe implications of 3D on the dart business and on cinemasThe regularitys apply to create the media and also the styles in which the 3D enter is recreated for the s tudyerThe reasons I sop up chosen to do my project on this topic is that I am very interested in the sassy media field. 3D video when accompanied with high definition film and video is a field that is growing rapidly. Earlier this division, on 02 April 2009, Sky hand turn appear the UKs foremost live event in the 3D TV format, it feature a live music c formerlyrt by the pop free radical Keane, it was sent via the companys sa ar paradigmite ne iirk phthisis polarisation technology.Traditionally we view films and television in devil dimensions, this in essence way of life we view the media as a flat image. In real life we view everything in trio dimensions, this is because we get a s prosperously different image received in each eye, the brain past combines these and we move work out abstruseness of vision and create a 3D image. (this will be explained further in Chapter 3)There is a high train of industrial relevance with this topic, as 3D technology coupled with high definition digital signal is at the cutting edge of mainstream digital media consumption. Further evidence of this is that the sports company ESPN will be launching their sore TV channel, ESPN-3D in North America in while for this days Summer Football World Cup.In January 2009 the BBC produced a Research White Paper empower The Challenges of Three-Dimensional Television on this proceeds and over the next couple of years they predict that it will start to be introduced in the a the like trend that HD (High Definition) digital television signal is currently being coursed in, with pay-per-view movies and sports being the prototypical take advantage of it.Sky imbibe announced that their existing Sky+HD boxes will be able to penetrate the 3D signals so customsers will not even need to update their equipment to be able to receive the 3D Channel that they argon kickoff to syllabus later this year.On Sunday January 31st 2010, Sky broadcast a live Premier League football match surrounded by Arsenal and Manchester United for the first time in 3D to selected pubs crossways the country, Sky equipped the selected pubs with LGs stark naked 47-inch LD920 3D TVs. These televisions use the passive glasses, connatural to the ones uses in cinemas as opposed to the much(prenominal) expensive Active glasses which are also an option. (The differences between Active and Passive technologies will be explained in Chapter 8)It is also worth noting that at the 2010 Golden Globe awards, on acceptance of his award for Best Picture for the 3D Box constituent Hit embodiment, the Canadian managing director James Cameron pronounced 3D as the future.At the time of writing this report (27/01/2010) the 3D film avatar has just taken over from Titanic (also a James Cameron film) to become the highest grossing movie of all time, with world panoptic takings of $1.859 billion. This is being accredited to the films undischarged takings in the 3D version of its release, i n America 80% of the films box office revenue has been received from the 3D version of its release.In an industry where money talks, these figures will surely lead to an dramatic amplify in production of 3D films and as a result Avatar could potentially be one of the most influential films of all time. after(prenominal) completing this dissertation I hope to be able to ask a wide knowledge base on the subject and hope broady this will appeal to companies that I approach about employment once I assume graduated.In the summer of 2010 when I will be looking for jobs, I believe that a separate of production companies will learn some knowledge of 3D technology and be witting of how in the unaired future it may be something that they will have to consider adopting in the way that many production companies are already or soon will be adopting HD into their workflow.In secern to jibe that I complete this project to a high standard it is all important(predicate) that I gain a compl ete under stand of the topic and theater of operations a variety of different sources when compiling my query.3D media itself is not a new concept so there are a wide range of books and articles on the theory of 3D and stereoscopy along with anaglyphs. and in recent years there has been a resurgence in 3D with relation to film and TV. This is out-of-pocket mainly to digital video and film production making it easier and cheaper to create and worry the two carry needful for triplet-dimensional video production.It has proved more difficult to training books and papers on this most recent resurgence of 3D because it is slake happening and evolving all the time. I have read unhomogeneous research white papers on the subject, which have been cited in the Bibliography, I have also utilize websites and blogs along with some recently published books, one of the problems with such a fast moving technological field such as 3D though, is that these books quickly become outdated.C HAPTER 2 HUMAN flockIn the real world we see in three dimensions as opposed to the two dimensions that we have become accustomed to when watching TV or at the cinema. Human vision come ins in three dimensions because it is popular for people to have two eye that both focus on the determination, in the brain these two images are then f apply into one, from this we roll in the hay work out abstruseness of vision, this process is called stereopsis. All of these calculations happen in the brain without the someone ever even noticing, as a result we see the world in three dimensions very naturally.The reason that we see in 3D is because of stereoscopic depth perception. There are versatile complex calculations going on in our brains, this coupled with real experience allows our brain to work out the depth of vision. If it wasnt for this it would be impossible to tell if something was very small or just very farthest away.As humans, we have learnt to judge depth even with provid ed one view point. This is why, if a person has one eye they can nonoperational manage to do most things that a person with two eyeball can do. This is also why when watching a 2-D film you can still get a good judge of depth.The term for depth prompts ground on only one viewpoint is monoscopic depth cues.One of the most important of these is our take in experience, it relates to perspective and relative sizing of objects. In dim-witted terms, we have become accustomed to object being certain sizes. An typeface of this is that we expect mental synthesiss to be very big, humans are smaller and insects are smaller still. So this means that if we can see all three of these objects next to each otherwise and they appear to be the same size then the insect must be much closer than the person, and both the insect and the person must be much closer that the building (see figure 1).The perspective depth cue (sh induce in figure1) was backed up when an experiment was carried out by Ittelson in 1951. He got volunteers to look through a peep hole at some playing card game, the only thing they could see were the cards and so there were no other types of depth cue available. There were actually three different-sized playing cards (normal size, half-size, and double size), and they were presented one at a time at a distance of 2.3metres away. The half-sized playing card was judged to be 4.6 metres away from the observer, whereas the double-sized card was thought process to be 1.3 metres away. Thus, familiar size had a large effect on distance judgement(Eysenck, 2002).Another monoscopic depth cue that is very effective is referred to as occlusion or interposition. This is where an object overlaps another object. If a person is standing behind a tree then you will be able to see all of the tree provided only part of the person. This tells us that the tree is nearer to us that the person.One of the most important oneness view depth cues in called effect parallax, it works on the tail that if a person moves their head, and therefore eyes, then objects nearer to them, whilst not physically moving, will appear to move more than the objects in the distance. This is the regularity that astronomers use to measure distances of stars and planets. It is in extremely important mode of judging depth and is utilize extensively in 3D filmmaking.In filmmaking, lighting is very much talked about as being one of the key elements to giving the examine depth, and this is because it is a monoscopic depth cue. In real life the main light source for millennia has been the sun. Humans have worked out how to judge depth based on the shadows that are portrayed from an object. In 2D films shadows are very much employ to display depth by casting them across actors faces it allows the believe audience to see the recesses and expressions trying to be portrayed.So far all of the methods that have been expound for determining depth have been monoscopic, these work independently at bottom each eye. If these were the only methods for determining depth there would be no need for 3D films as it would not add anything because all of these methods could be recreated using a indivithreefold(a) television camera lens. This is not the case however, a lot of the more advanced methods used in human vision for judging depth need the use of both eyes, these are called stereoscopic depth cues.A great deal of stereoscopic depth cues are based around the feedback that your brain gets when the muscles in the eye are manipulated to bear your vision on a particular point.One of the main stereoscopic depth cues is called convergency, this referrers to the way that the eyes rotate in order to focus on an object (see figure 2).If the focus is on a near object, the eyes rotate around the Y axis and converge on a tighter careen , interchangeablely if the focus is on a yon object the rotation means the eyes have a wider angle of crossroad.It is a lot le ss stressful on the muscles in the eye to have a wide angle of lap and look at objects far away, in comparison looking at very close object for any amount of time causes the muscles in the eye to ache. This is a very important factor that should be considered when creating 3D films, as it doesnt result how good the film is, if it is going to hurt the audience it will not go d hold well.A second stereoscopic depth cue that we use is called accommodation, this is the way that our eyes replaces focus when we look at an object at different distances, it is very closely linked with crossroad.Usually when we look at an object very close up, our eyes will change rotation and point towards the object (convergence) allowing us to look at the item, our eyes will at the same time change focus (accommodation). utilise the ciliarybody muscles in the eye, the lens will change shape to let more or less light in the same way a camera does, thus changing focus.In everyday life convergence and a ccommodation usually happen in parallel. The fact that we can, if we wish take aim to converge our eyes without changing the focus means that 3D films are possible. When you are sat in the cinema all of the action is intercommunicate onto the screen in look of you, so this is where your eyes need to focus. With 2D films the screen is also where your eyes need to converge, but with 3D films this is not the case. When watching a 3D film the focus never changes from the screen, else the on the whole picture would go out of focus, but objects appear to be in front and behind the screen, so your eyes need to change their convergence to look at these objects without altering their focus from the screen.It has been suggested that this independence of accommodation and convergence is the reason for eye strain when watching a 3D picture as your eyes are doing something that they are not in the garments of doing (see chapter 12 Is 3D bad for you).It is also worth noting that our monosco pic depth cues work at almost any range, this is not the case with stereoscopic depth cues. As objects become further away they no longer appear differently in each eye, so there is no way the brain can calculate a difference and work out depth.The limit occurs in the 100 to 200-yard range, as our discernment asymptomatically tends to zero. In a theatre, we will hit the same limitation, and this will define the depth reply and the depth range of the screen.(Mendiburu, 2009)This means that when producing a 3D film you have to be aware that the range of 3D that you have to use is not infinite and is limited to 100-200 yards.CHAPTER 3 Early Stereoscopic History (1838 1920)Three dimensional films are not a new phenomenon, Charles Wheatstone discovered, in 1838, that the appliance responsible for human depth perception is the distance separating the retinas of our eyes . (Autodesk, 2008)In a 12,000 word research paper that Wheatstone presented to the Royal Society of capital Britain he described the stereoscope and claimed as a new fact in his theory if vision the observation that two different pictures are intercommunicate on the retinas of the eyes when a single object is seen.(Zone, 2007)Included in the paper were a range of line drawings presented as stereoscopic touchs, these were knowing to be viewed in 3D using Wheatstones invention, the stereoscope.Wheatstone was not the first person to look at the possibility of receiving separate views in each eye, In the third century B.C, Euclid in his treatise on Optics observed that the left and even out eyes see slightly different views of a sphere(Zone, 2007). However, Wheatstone was the first person to create a device to be able to re-create 3D images.Between 1835 and 1839 photography was starting to be developed thanks to work from William Fox Talbot, Nicephore Niepce and Louise Daguerre.Once Wheatstone became aware of the photographic pictures that were available he pass on some stereoscopic photographs to be do for him. Wheatstone observed that it has been found discriminatory to employ, simultaneously, two cameras resolute at the proper angular positions(Zone, 2007).This was the start of stereoscopic photography.Between 1850 and 1860 work was starting to be through with(p) by dissimilar people to try and combine stereoscopic photography with machines that would display a series of images very quickly and therefore using persistence of vision to create a moving 3D image. These were the first glimpses of 3D motion.In 1891 a French scientist, Louis Ducos du Hauron patented the anaglyph, a method for separating an image into two separate colour channels and then by wearing glassing with the same colours but on opposite eyes thereby cancelling out the image, thus reproducing one image, but in 3D.Another method used at this time to create 3D was proposed by John Anderton, also in 1891. Andertons system was to use polarisation techniques to split the image into two separate light p aths and then employ a similar polarisation technique to divert a separate image to each eye on viewing.One of the main advantages of polarisation over anaglyphs is that they do not lose any colour information, this is due to the fact that both images confine the original colour spectrums. They do however loose luminance. It is common for a silver screen to be necessary, it serves two purposes, firstly the specially designed screen maintains the separate polarisation required for each image. It also reflects more light than conventional screens, this compensates for the loss of luminance.During 1896 and 1897 2D motion pictures started to take off, and by 1910 after a lot of initial experimenting the creative formats of film that we recognise today such as cuts and framing had started to become evident.In 1920 Jenkins, an finder that worked hard to try and create a method for recreating stereoscopic motion picture was quoted as saying Stereoscopic motion pictures have been the sub ject of considerable thought and have been attained in several waysbut never yet have they been accomplished in a practical way. By practical, I mean, for example without some device to wear over the eyes of the observer.(Zone, 2007)It is worth noting that this problem of finding a practical method of viewing 3D has still to a large extent not been solved.Chapter 4 Early 3D Feature Films(1922 1950)4.1 The first 3D feature filmThe first 3D feature film, The Power of Love was released in 1922, it was exhibited at the Ambassador Hotel champaign in Los Angeles. Popular Mechanics magazine described how the characters in the film did not appear flat on the screen, but seemed to be moving about in locations which had depth exactly like the real spots where the pictures were taken(Zone, 2007).The Power of Love was exhibited using red/ greens glasses using a dual strip anaglyph method of 3D projection. (Anaglyphs are explained in chapter 8.3)The film was crack cocaine on a custom make cam era invented by Harry K.Fairall, he was also the director on the film. The camera incorporated two films in one camera body.(Symmes, 2006)Power of Love was the first film to be viewed using anaglyph glasses, also the first to use dual-strip projection.Also in 1922, William Van Doren Kelley designed his own camera rig, based on the Prizma colour system which he had invented in 1913. The Prizma 3D colour method worked by capturing two different colour channels by placing filters over the lenses. This way he made his own version of the red/blue anaglyphic print. Kelleys Movies of the Future was shown at Rivoli Theatre in New York City.4.2 The first active-shutter 3D filmA year later in 1923 the first alternate- sick 3D projection system was unveiled. It used a technology called Teleview. Which blocked the left and right eyes periodically in sync with the projector, thereby allowing you to see too separate images.Teleview was not an original idea, but up to this point no one had been a ble to get the theory to actually work in a practical way that would allow for films to be viewed in a cinema. This is where Laurens Hammond comes in.Hammons designed a system where two standard projectors would be hooked up to their own AC generators, running at 60Hz this meant that adjusting the AC frequency would increase or decrease the speed of the projectors.The left film was in the left projector and right film in the right. The projectors were in frame sync, but the shutters were out of phase sync.(Symmes, 2006) This meant that the left image was shown, then the right image.The viewing device was prone to the seats in the theatre. It was mounted on a flexible neck, similar to some adjustable gooseneck desk lamps. You twisted it around and centred it in front of your face, material body of like a mask floating just in front of your face. (Symmes, 2006)The viewing device consisted of a circular mask with a view piece for each eye plus a small travel that moved a shutter acr oss in front of all the left or right eye piece depending on the vibration of current running through it. All of the viewing devices were powered by the same AC generator as the projectors meaning that they were all exactly in sync.One of the major problems Hammond had to overcome was the fact that at the time film was displayed at 16 frames per second. With this method of viewing you are efficaciously halving the frame rate. 8 frames per second resulted in a very noted flicker.To overcome this Hammond cut each frame up in to three flashes so the new sequence was 1L-1R-1L-1R-1L-1-R 2L-2R-2L-2R-2L-2R and so on. Three alternate flashes per eye on the screen. (Symmes, 2006)This method of separating and duplicating certain frames effectively resulted in increasing the boilersuit frame rate thereby eradicating the flicker.There was only one film produced using this method, it was called M.A.R.S and displayed at the Selwyn Theatre in New York City in December 1922. The reason the tech nology didnt catch on was not due to the image, as the actual theory for producing the image has changed very little from the Teleview method to the current active-shutter methods which will be explained later.As with a lot of 3D methods the reason this one did not become mainstream was due the viewing tool that was needed. Although existing projectors could be modified by linking them up to separate AC generator, meaning no extra equipment was needed, the headsets that were required did need a lot of investment and time to install. All of the seats in the theatre needed to be fitted with headsets, these were adjusted in front of the audience members. These also had to be linked up to the AC generator so as they were short in sync, this meant that they had to be wired in to the seats.These problems have since been overcome with radiocommunication technologies such as Bluetooth as will be explained later.4.3 The first polarised 3D filmThe next and arguably one of the most importan t advancements in 3D technology came in 1929 when Edwin H. Land worked out a way of using polarised lenses (Polaroid) unneurotic with images to create stereo vision. (Find more on polarisation in chapter 8.6)Lands polarizing material was first used for projection of still stereoscopic images at the behest of Clarence Kennedy, an art history instructor at Smith College who cute to project photo images of sculptures in stereo to his students. (Zone, 2007)In 1936 Beggars Wedding was released in Italy, it was the first stereoscopic feature to include sound, it was exhibited using Polaroid filters. This was filmed using polarised technology.The first American film to use polarising filters was shot in 1939 and entitled In Tune With Tomorrow, it was a 15 minute short film which shows through stop motion, a car being built piece-by-piece in 3D with the added enhancement of music and sound effectuate. (Internet Movie Database, 2005)Between 1939 and 1952 3D films continued to me made but with the Great Depression and the onset of the help World War, the cinema industry was restricted with its output because of finances and as 3D films were more expensive to make their output started to be reduced.Chapter 5 Golden Age of 3D(1952 1955)With cinema ticket sales plummeting from 90 million in 1948 to 40 million in 1951 (Sung, 2009) largely being put down to the television becoming coming in peoples front rooms the cinema industry needed to find a way to encourage the viewers back the big screen, 3D was seen as a way to offer something extra to make viewers return.In 1952 the first colour 3D film was released called Bwana Devil,it was the first of many stereoscopic films to learn in the next few years. The process of combining 3D and colour attracted a new audience to 3D films.Between 1950 and 1955 there were far more 3D films produced that at any other time earlier or since, apart from possibly in the next couple of years from 2009 onwards, as the cinema industry trie s to fight back once more against locomote figures, this time though because of home entertainment systems, video-on-demand, and legal and illegal movie downloads.Towards the end of the Golden Age, around 1955, the fascination with 3D was starting to be lost. There were a number of reasons for this, one of the main factors was that in order for the film to be seen in 3D it had to be shown on two reels at the same time, which meant that the two reels had to be exactly in time else the effect would be lost and it would cause the audience headaches.Chapter 6 perfunctory 3D films(1960 2000)Between 1960 and 2000 there were sporadic resurgences in 3D. These were down to new technologies becoming available.In the late 1960s the invention of a single strip 3D format initiated a revival as it meant that the dual projectors would no longer go out of sync and cause eye-strain. The first version of this single strip 3D format to be used was called Space-Vision 3D, it worked on an over and un der basis. This meant that the frame was horizontally split into two, during playback it was then separate in two using a prism and polarised glasses.However, there were major drawbacks with Space-Vision 3D. Due to the design of the cameras required to film in this format, the only major lens that was compatible was the Bernier lens. The focal length of the Bernier optic is fixed at 35mm and the interaxial at 65mm. N all may be varied, but convergence may be altered(Lipton, 1982).This obviously restricted the creative filmmaking options and as a result was soon superseded by a new format called Stereovision.Stereovision was similar to Space-Vision 3D in that is split the frame in two, unlike Space-Vision though, the frame was split vertically, and they were placed side-by-side. During projection these frames were then put through an anamorphic lens, thereby stretching them back to their original size. These also made use of the polarising method introduced by Land in 1929.A film mad e using this process was called The Stewardess, released in 1969, it cost only $100,000 to make but at the cinema it grossed $26,000,000 (Lipton, 1982). Understandably the studios were very interested in the salary margin that arose from this film. As a result 3D once again became an interesting prospect for studios.Up until fairly recently films were still shot and edited using old film techniques (i.e. not digitally). This made manipulating 3D films quite difficult, this lack of control over the full process made 3D less appealing to film makers.The digitisation of post-processing and visual effects gave us another surge in the 1990s. But only full digitisation, from glass to glass from the cameras to projector lenses gives 3D the technological biotope it needs to thrive (Mendiburu, 2009).Chapter 7 The Second Golden Ageof 3D (2004 present)In 2003 James Cameron released specter of the Abyss, it was the first full length 3D feature film that used the Reality Camera System, whic h was specially designed to use new high definition digital cameras. These digital cameras meant that the old techniques used with 3D film no longer restricted the work-flow, and the whole process can be done digitally, from start to finish.The next groundbreaking film was Robert Semeckis 2004 animated film Polar carry which was also shown in IMAX theatres. It was released at the same time in 2D and 3D, the 3D cinemas took on average 14 propagation more money that the 2D cinemas.The cinemas once again took note, and since Polar Express was released in 2004, 3D digital films have become more and more prominent.IMAX are no longer the only cinemas capable of displaying digital 3D films. A large proportion of conventional cinemas have made the sky to digital, this switch has enabled 3D films to be exhibited in a large range of cinemas.CHAPTER 8 3D TECHNOLOGIES8.1 3D capture and display methodsEach different type of stereoscopic display projects the combined left and right images tog ether onto a flat surface, usually a television or cinema screen. The viewer then must have a method of decipherment this image and separating the combined image into left and right images and relaying these to the correct eye. The method that is used to split this image is, in the majority of cases, a pair of glasses.There are two brackets of encoding method, passive and active. Passive means that the images are combined into one and then the glasses split this image in to two separate images for left and right eye. In this method the glasses are cheaper to produce and the expense usually comes in the equipment used to project the image. The second method is active display. This method works by enthraling the alternative images in a very quick episode (L-R-L-R-L-R), the glasses then periodically block the appropriate eye piece, this is done at such a fast rate that it appears to be around-the-clock in both eyes.There are various different types of encoding encapsulated within e ach of the two methods mentioned above.The encoding can use either colour separation (anaglyph, Dolby 3D), time separation (active glasses) or polarisation (RealD). A separate method, which does not require the use of glasses is done by using a virtual space in front of the screen and is called autosterescopic.In cinemas across the world at the moment there are several formats that are used to display 3D films. Three of the main distributors are Real-D, iMAX and Dolby-3D.Once a 3D film has been finished by the studios, it then needs to be prepared for exhibition in various different formats, this can include amongst other things colour grading and anti ghosting processes.At present there is not a universally hold format for capturing or playing back 3D films, as a result there are several different versions, these are explained below.A large majority of the latest wave of 3D technology options send the image using one projector, so removing the old problem of out sync left and righ t images. The methods that do use dual projectors are much more sophisticated that the older versions used in anaglyphic films so have eradicated the old problems of out of sync projectors.8.2 Gho
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