All About High Speed Photography

High Speed Photography

High-speed photography is the science of taking pictures of very fast phenomena. In 1948, defined high-speed photography as any set of photographs captured by a camera capable of 69 frames per second or greater, and of at least three consecutive frames. High-speed photography can be considered to be the opposite of time-lapse photography.

In common usage, high-speed photography may refer to either or both of the following meanings. The first is that the photograph itself may be taken in a way as to appear to freeze the motion, especially to reduce motion blur. The second is that a series of photographs may be taken at a high sampling frequency or frame rate. The first requires a sensor with good sensitivity and either a very good shuttering system or a very fast strobe light. The second requires some means of capturing successive frames, either with a mechanical device or by moving data off electronic sensors very quickly.

Other considerations for high-speed photographers are record length, reciprocity breakdown, and spatial resolution.

The first practical application of high-speed photography was Eadweard Muybridge's 1878 investigation into whether horses' feet were actually all off the ground at once during a gallop. The first photograph of a supersonic flying bullet was taken by the Austrian physicist Peter Salcher in Rijeka in 1886, a technique that was later used by Ernst Machin his studies of supersonic motion. German weapons scientists applied the techniques in 1916.

Bell Telephone Laboratories was one of the first customers for a camera developed by Eastman Kodak in the early 1930s. Bell used the system, which ran 16 mm film at 1000 frame/s and had a 100-foot (30 m) load capacity, to study relay bounce. When Kodak declined to develop a higher-speed version, Bell Labs developed it themselves, calling it the Fastax. The Fastax was capable of 5,000 frame/s. Bell eventually sold the camera design to Western Electric, who in turn sold it to the Wollensak Optical Company. Wollensak further improved the design to achieve 10,000 frame/s. Redlake Laboratories introduced another 16 mm rotating prism camera, the Hycam, in the early 1960s. Photo-Sonics Developed several models of rotating prism camera capable of running 35 mm and 70 mm film in the 1960s. Visible Solutions Introduced the Photec IV 16 mm camera in the 1980s.

In 1940, a patent was filed by Cearcy D. Miller for the rotating mirror camera, theoretically capable of one million frames per second. The first practical application of this idea was during the Manhattan Project, when Berlin Brixner, the photographic technician on the project, built the first known fully functional rotating mirror camera. This camera was used to photograph early prototypes of the first nuclear bomb, and resolved a key technical issue about the shape and speed of the implosion, that had been the source of an active dispute between the explosives engineers and the physics theoreticians.

The D. B. Milliken company developed an intermittent, pin-registered, 16 mm camera for speeds of 400 frame/s in 1957. Mitchell,Redlake Laboratories, and Photo-Sonics eventually followed in the 1960s with a variety of 16, 35, and 70 mm intermittent cameras.

Harold Edgerton is generally credited with pioneering the use of the stroboscope to freeze fast motion. He eventually helped found EG&G, which used some of Edgerton's methods to capture the physics of explosions required to detonate nuclear weapons. One such device was the EG&G Microflash 549, which is an air-gap flash. Also see the photograph of an explosion using a Rapatronic camera.

Advancing the idea of the stroboscope, researchers began using lasers to stop high-speed motion. Recent advances include the use of High Harmonic Generation to capture images of molecular dynamics down to the scale of the attosecond (10⁻¹⁸ s).

Main high-speed camera is defined as having the capability of capturing video at a rate in excess of 250 frames per second. There are three types of high-speed film cameras;

Intermittent motion cameras, which are a speed-up version of the standard motion picture camera using a sewing machine type mechanism to advance the film intermittently to a fixed exposure point behind the objective lens,Rotating prism cameras, which pull a long reel of film continuously past an exposure point and use a rotating prism between the objective lens and the film to impart motion to the image which matches the film motion, thereby canceling it out, and Rotating mirror cameras, which relay the image through a rotating mirror to an arc of film, and can only work in a burst mode.

Intermittent motion cameras are capable of hundreds of frames per second. Rotating prism cameras are capable of thousands of frames per second. Rotating mirror cameras are capable of millions of frames per second.

As film and mechanical transports improved, the high-speed film camera became available for scientific research. Kodak eventually shifted its film from acetate base to Estar (Kodak's name for a Mylar-equivalent plastic), which enhanced the strength and allowed it to be pulled faster. The Estar was also more stable than acetate allowing more accurate measurement, and it was not as prone to fire.

Each film type is available in many load sizes. These may be cut down and placed in magazines for easier loading. A 1,200-foot (370 m) magazine is typically the longest available for the 35 mm and 70 mm cameras. A 400-foot (120 m) magazine is typical for 16 mm cameras, though 1,000-foot (300 m) magazines are available. Typically rotary prism cameras use 100 ft (30m) film loads. The images on 35 mm high-speed film are typically more rectangular with the long side between the sprocket holes instead of parallel to the edges as in standard photography. 16 mm and 70 mm images are typically more square rather than rectangular. A list of ANSI formats and sizes is available.

Most cameras use pulsed timing marks along the edge of the film (either inside or outside of the film perforations) produced by sparks or later by LEDs. These allow accurate measurement of the film speed and in the case of streak or smear images, velocity measurement of the subject. These pulses are usually cycled at 10, 100, 1000 Hz depending on the speed setting of the camera.

Just as with a standard motion picture camera, the intermittent register pin camera actually stops the film in the film gate while the photograph is being taken. In high-speed photography, this requires some modifications to the mechanism for achieving this intermittent motion at such high speeds. In all cases, a loop is formed before and after the gate to create and then take up the slack.Pulldown claws, which enter the film through perforations, pulling it into place and then retracting out of the perforations and out of the film gate, are multiplied to grab the film through multiple perforations in the film, thereby reducing the stress that any individual perforation is subjected to. Register pins,which secure the film through perforations in final position while it is being exposed, after the pulldown claws are retracted are also multiplied, and often made from exotic materials. In some cases, vacuum suction is used to keep the film, especially 35 mm and 70 mm film, flat so that the images are in focus across the entire frame.

16 mm pin register: D. B. Milliken Locam, capable of 500 frame/s; the design was eventually sold to Redlake. Photo-Sonics built a 16 mm pin-registered camera that was capable of 1000 frame/s, but they eventually removed it from the market.35 mm pin register: Early cameras included the Mitchell 35 mm. Photo-Sonics won an Academy Award for Technical Achievement for the 4ER in 1988.^[14] The 4E is capable of 360 frame/s.70 mm pin register: Cameras include a model made by Hulcher, and Photo-Sonics 10A and 10R cameras, capable of 125 frame/s.

The rotary prism camera allowed higher frame rates without placing as much stress on the film or transport mechanism. The film moves continuously past a rotating prism which is synchronized to the main film sprocket such that the speed of the film and the speed of the prism are always running at the same proportional speed. The prism is located between the objective lens and the film, such that the revolution of the prism "paints" a frame onto the film for each face of the prism. Prisms are typically cubic, or four sided, for full frame exposure. Since exposure occurs as the prism rotates, images near the top or bottom of the frame, where the prism is substantially off axis, suffer from significant aberration. A shutter can improve the results by gating the exposure more tightly around the point where the prism faces are nearly parallel.

16 mm rotary prism - Redlake Hycam and Fastax cameras are capable of 10,000 frame/s with a full frame prism (4 facets), 20,000 frame/s with a half-frame kit, and 40,000 frame/s with a quarter-frame kit. Visible Solutions also makes the Photec IV.35 mm rotary prism - Photo-Sonics 4C cameras are capable of 2,500 frame/s with a full frame prism (4 facets), 4,000 frame/s with a half-frame kit, and 8,000 frame/s with a quarter-frame kit.70 mm rotary prism - Photo-Sonics 10B cameras are capable of 360 frame/s with a full frame prism (4 facets), and 720 frame/s with a half-frame kit.

Rotating Mirror cameras can be divided into two sub-categories; pure rotating mirror cameras and rotating drum, or Dynafax cameras.

In pure rotating mirror cameras, film is held stationary in an arc centered about a rotating mirror. The image formed by the objective lens is relayed back to the rotating mirror from a primary lens or lens group, and then through a secondary relay lens (or more typically lens group) which relays the image from the mirror to the film. For each frame formed on the film, one secondary lens group is required. As such, these cameras typically do not record more than one hundred frames. This means they record for only a very short time - typically less than a millisecond. Therefore, they require specialized timing and illumination equipment. Rotating mirror cameras are capable of up to 25 million frames per second, with typical speed in the millions of fps.

The rotating drum, or Dynafax, camera works by holding a strip of film in a loop on the inside track of a rotating drum. This drum is then spun up to the speed corresponding to a desired framing rate. The image is still relayed to an internal rotating mirror centered at the arc of the drum. The mirror is multi-faceted, typically having six to eight faces. Only one secondary lens is required, as the exposure always occurs at the same point. The series of frames is formed as the film travels across this point. Discrete frames are formed as each successive face of the mirror passes through the optical axis. Rotating drum cameras are capable of speed from the tens of thousands to hundreds of thousands of frames per second.

In both types of rotating mirror cameras, double exposure can occur if the system is not controlled properly. In a pure rotating mirror camera, this happens if the mirror makes a second pass across the optics while light is still entering the camera. In a rotating drum camera, it happens if the drum makes more than one revolution while light is entering the camera. Typically this is controlled by using fast extinguishing xenon strobe light sources that are designed to produce a flash of only a specific duration.

Rotating mirror camera technology has more recently been applied to electronic imaging, where instead of film, an array of single shot CCD or CMOS cameras is arrayed around the rotating mirror. This adaptation enables all of the advantages of electronic imaging in combination with the speed and resolution of the rotating mirror approach. Speeds up to 25 million frames per second are achievable, with typical speeds in the millions of fps.

Commercial availability of both types of rotating mirror cameras began in the 1950s with Beckman & Whitley, and Cordin Company. Beckman & Whitley sold both rotating mirror and rotating drum cameras, and coined the "Dynafax" term. Cordin Company sold only rotating mirror cameras. In the mid-1960s, Cordin Company bought Beckman & Whitley and has been the sole source of rotating mirror cameras since. An offshoot of Cordin Company, Millisecond Cinematography, provided drum camera technology to the commercial cinematography market.

Streak photography (closely related to strip photography) uses a streak camera to combine a series of essentially one-dimensional images into a two-dimensional image. The terms "streak photography" and "strip photography" are often interchanged, though some authors draw a distinction. 

By removing the prism from a rotary prism camera and using a very narrow slit in place of the shutter, it is possible to take images whose exposure is essentially one dimension of spatial information recorded continuously over time. Streak records are therefore a space vs. time graphical record. The image that results allows for very precise measurement of velocities. It is also possible to capture streak records using rotating mirror technology at much faster speeds. Digital line sensors can be used for this effect as well, as can some two-dimensional sensors with a slit mask.

For the development of explosives the image of a line of sample was projected onto an arc of film via a rotating mirror. The advance of flame appeared as an oblique image on the film, from which the velocity of detonation was measured.

Motion compensation photography (also known as ballistic synchro photography or smear photography when used to image high-speed projectiles) is a form of streak photography. When the motion of the film is opposite to that of the subject with an inverting (positive) lens, and synchronized appropriately, the images show events as a function of time. Objects remaining motionless show up as streaks. This is the technique used for finish line photographs. At no time is it possible to take a still photograph that duplicates the results of a finish line photograph taken with this method. A still is a photograph in time, a streak/smear photograph is a photograph of time. When used to image high-speed projectiles the use of a slit (as in streak photography) produce very short exposure times ensuring higher image resolution. The use for high-speed projectiles means that one still image is normally produced on one roll of cine film. From this image information such as yaw or pitch can be determined. Because of its measurement of time variations in velocity will also be shown by lateral distortions of the image.

By combining this technique with a diffracted wavefront of light, as by a knife-edge, it is possible to take photographs of phase perturbations within a homogeneous medium. For example, it is possible to capture shock waves of bullets and other high-speed objects. See, for example, shadowgraph and schlieren photography.

In December 2011, a research group at MIT reported a combined implementation of the laser (stroboscopic) and streak camera applications to capture images of a repetitive event that can be reassembled to create a trillion-frame-per-second video. This rate of image acquisition, which enables the capture of images of moving photons, is possible by the use of the streak camera to collect each field of view rapidly in narrow single streak images. Illuminating a scene with a laser that emits pulses of light every 13 nanoseconds, synchronized to the streak camera with repeated sampling and positioning, researchers have demonstrated collection of one-dimensional data which can be computationally compiled into a two-dimensional video. Although this approach is limited by time resolution to repeatable events, stationary applications such as medical ultrasound or industrial material analysis are possibilities.

Source: Wikipedia

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All About Aerial Photography

Aerial Photography

Aerial photography is the taking of photographs of the ground from an elevated/direct-down position. Usually the camera is not supported by a ground-based structure. Platforms for aerial photography include fixed wing aircraft, helicopters,multi rotor Unmanned Aircraft Systems (UAS),balloons, blimps and dirigibles, rockets,pigeons, kites, parachutes, stand-alone telescoping and vehicle-mounted poles. Mounted cameras may be triggered remotely or automatically; hand-held photographs may be taken by a photographer.

Aerial photography should not be confused with air-to-air photography, where one or more aircraft are used as chase planes that "chase" and photograph other aircraft in flight.

Aerial photography was first practiced by the French photographer and balloonist Gaspard-Félix Tournachon, known as "Nadar", in 1858 over Paris, France. However, the photographs he produced no longer exist and therefore the earliest surviving aerial photograph is titled 'Boston, as the Eagle and the Wild Goose See It.' Taken by James Wallace Black and Samuel Archer King on October 13, 1860, it depicts Boston from a height of 630m.

Kite aerial photography was pioneered by British meteorologist E.D. Archibald in 1882. He used an explosive charge on a timer to take photographs from the air. Frenchman Arthur Batut began using kites for photography in 1888, and wrote a book on his methods in 1890. Samuel Franklin Cody Developed his advanced 'Man-lifter War Kite' and succeeded in interesting the British War Office with its capabilities.

The first use of a motion picture camera mounted to a heavier-than-air aircraft took place on April 24, 1909 over Rome in the 3:28 silent film short, Wilbur Wright und seine Flugmaschine.

The use of aerial photography rapidly matured during the war, as reconnaissance aircraft were equipped with cameras to record enemy movements and defences. At the start of the conflict, the usefulness of aerial photography was not fully appreciated, with reconnaissance being accomplished with map sketching from the air.

Germany adopted the first aerial camera, aGörz, in 1913. The French began the war with several squadrons of Blériot observation aircraft equipped with cameras for reconnaissance. The French Army developed procedures for getting prints into the hands of field commanders in record time.

Frederick Charles Victor Laws started aerial photography experiments in 1912 with No.1 Squadron of the Royal Flying Corps (later No. 1 Squadron RAF), taking photographs from the British dirigible Beta. He discovered that vertical photos taken with 60% overlap could be used to create a stereoscopic effect when viewed in a stereoscope, thus creating a perception of depth that could aid in cartography and in intelligence derived from aerial images. The Royal Flying Corps recon pilots began to use cameras for recording their observations in 1914 and by the Battle of Neuve Chapelle in 1915, the entire system of German trenches was being photographed. In 1916 the Austro-Hungarian Monarchy made vertical camera axis aerial photos above Italy for map-making.

The first purpose-built and practical aerial camera was invented by Captain John Moore-Brabazon in 1915 with the help of the Thornton-Pickard company, greatly enhancing the efficiency of aerial photography. The camera was inserted into the floor of the aircraft and could be triggered by the pilot at intervals. Moore-Brabazon also pioneered the incorporation of stereoscopic techniques into aerial photography, allowing the height of objects on the landscape to be discerned by comparing photographs taken at different angles.

By the end of the war aerial cameras had dramatically increased in size and focal power and were used increasingly frequently as they proved their pivotal military worth; by 1918 both sides were photographing the entire front twice a day, and had taken over half a million photos since the beginning of the conflict. In January 1918, General Allenby Used five Australian pilots from No. 1 Squadron AFC to photograph a 624 square miles (1,620 km²) area in Palestine as an aid to correcting and improving maps of the Turkish front. This was a pioneering use of aerial photography as an aid for cartography. Lieutenants Leonard Taplin, Allan Runciman Brown, H. L. Fraser, Edward Patrick Kenny, and L. W. Rogers photographed a block of land stretching from the Turkish front lines 32 miles (51 km) deep into their rear areas. Beginning 5 January, they flew with a fighter escort to ward off enemy fighters. Using Royal Aircraft Factory BE.12 and Martinsyde Airplanes, they not only overcame enemy air attacks, but also had to contend with 65 mph (105 km/h) winds, antiaircraft fire, and malfunctioning equipment to complete their task. 

The first commercial aerial photography company in the UK was Aerofilms Ltd, founded by World War I veterans Francis Wills and Claude Graham White in 1919. The company soon expanded into a business with major contracts in Africa and Asia as well as in the UK. Operations began from the Stag Lane Aerodrome at Edgware, using the aircraft of the London Flying School. Subsequently the Aircraft Manufacturing Company (later the De Havilland Aircraft Company), hired an Airco DH.9 along with pilot entrepreneur Alan Cobham.

From 1921, Aerofilms carried out vertical photography for survey and mapping purposes. During the 1930s, the company pioneered the science of photogrammetry(mapping from aerial photographs), with the Ordnance Survey amongst the company's clients.

Another successful pioneer of the commercial use of aerial photography was the American Sherman Fairchild who started his own aircraft firm Fairchild Aircraft to develop and build specialized aircraft for high altitude aerial survey missions. One Fairchild aerial survey aircraft in 1935 carried unit that combined two synchronized cameras, and each camera having five six inch lenses with a ten-inch lenses and took photos from 23,000 feet. Each photo covered two hundred and twenty five square miles. One of its first government contracts was an aerial survey of New Mexico to study soil erosion. A year later, Fairchild introduced a better high altitude camera with nine-lens in one unit that could take a photo of 600 square miles with each exposure from 30,000 feet.

In 1939 Sidney Cotton and Flying Officer Maurice Longbottom of the RAF were among the first to suggest that airborne reconnaissance may be a task better suited to fast, small aircraft which would use their speed and high service ceiling to avoid detection and interception. Although this seems obvious now, with modern reconnaissance tasks performed by fast, high flying aircraft, at the time it was radical thinking.

They proposed the use of Spitfires with their armament and radios removed and replaced with extra fuel and cameras. This led to the development of the Spitfire PR variants. Spitfires proved to be extremely successful in their reconnaissance role and there were many variants built specifically for that purpose. They served initially with what later became No. 1 Photographic Reconnaissance Unit (PRU). In 1928, the RAF developed an electric heating system for the aerial camera. This allowed reconnaissance aircraft to take pictures from very high altitudes without the camera parts freezing. Based at RAF Medmenham, the collection and interpretation of such photographs became a considerable enterprise.

Cotton's aerial photographs were far ahead of their time. Together with other members of the 1 PRU, he pioneered the techniques of high-altitude, high-speed stereoscopic photographs that were instrumental in revealing the locations of many crucial military and intelligence targets. According to R.V. Jones, photographs were used to establish the size and the characteristic launching mechanisms for both the V-1 flying bomb and the V-2 rocket. Cotton also worked on ideas such as a prototype specialist reconnaissance aircraft and further refinements of photographic equipment. At the peak, the British flew over 100 reconnaissance flights a day, yielding 50,000 images per day to interpret. Similar efforts were taken by other countries. 

Aerial photography is used in cartography (particularly in photogrammetric surveys, which are often the basis for topographic maps) , land-use planning, archaeology, movie production,environmental studies, power line inspection,  surveillance, commercial advertising, conveyancing, and artistic projects. An example of how aerial photography is used in the field of archaeology is the mapping project done at the site Angkor Borei in Cambodia from 1995-1996. Using aerial photography, archaeologists were able to identify archaeological features, including 112 water features (reservoirs, artificially constructed pools and natural ponds) within the walled site of Angkor Borei. In the United States, aerial photographs are used in many Phase I Environmental Site Assessments for property analysis. 

Advances in radio controlled models have made it possible for model aircraft to conduct low-altitude aerial photography. This had benefited real-estate advertising, where commercial and residential properties are the photographic subject when in 2014 the US Federal Communications Commission, issued an order banning the use of "Drones" in any commercial application related to photographs for use in real estate advertisement's. Small scale model aircraft offer increased photographic access to these previously restricted areas. Miniature vehicles do not replace full size aircraft, as full size aircraft are capable of longer flight times, higher altitudes, and greater equipment payloads. They are, however, useful in any situation in which a full-scale aircraft would be dangerous to operate. Examples would include the inspection of transformers atop power transmission lines and slow, low-level flight over agricultural fields, both of which can be accomplished by a large-scale radio controlled helicopter. Professional-grade, gyroscopically stabilized camera platforms are available for use under such a model; a large model helicopter with a 26cc gasoline engine can hoist a payload of approximately seven kilograms (15 lbs). In addition to gyroscopically stabilized footage, the use of RC copters as reliable aerial photography tools increased with the integration of FPV (first-person-view) technology. Many radio-controlled aircraft are now capable of utilizing Wi-Fi to stream live video from the aircraft's camera back to the pilot's ground station.

In Australia Civil Aviation Safety Regulation 101 (CASR 101) allows for commercial use of radio control aircraft. Under these regulations radio controlled unmanned aircraft for commercial are referred to as Unmanned Aircraft Systems (UAS), where as radio controlled aircraft for recreational purposes are referred to as model aircraft. Under CASR 101, businesses/persons operating radio controlled aircraft commercially are required to hold an operator certificate, just like manned aircraft operators. Pilots of radio controlled aircraft operating commercially are also required to be licensed by the Civil Aviation Safety Authority (CASA). Whilst a small UAS and model aircraft may actually be identical, unlike model aircraft, a UAS may enter controlled airspace with approval, and operate within close proximity to an aerodrome.

Due to a number of illegal operators in Australia making false claims of being approved, CASA maintains and publishes a list of approved UAS operators.

Recent (2006) FAA regulations grounding all commercial RC model flights have been upgraded to require formal FAA certification before permission is granted to fly at any altitude in the US.

June 25, 2014, The FAA, in ruling 14 CFR Part 91 [Docket No. FAA–2014–0396] "Interpretation of the Special Rule for Model Aircraft", banned the commercial use of unmanned aircraft over U.S. airspace. On September 26, 2014, the FAA began granting the right to use drones in aerial filmmaking. Operators are required to be licensed pilots and must keep the drone in view at all times. Drones cannot be used to film in areas where people might be put at risk.

On February 14, 2012, the President signed into law the FAA Modernization and Reform Act of 2012 (Pub. L. 112–95) (the Act), which established, in Section 336, a special rule for model aircraft. In Section 336, Congress confirmed the FAA’s long-standing position that model aircraft are aircraft. Under the terms of the Act, a model aircraft is defined as "an unmanned aircraft" that is "(1) capable of sustained flight in the atmosphere; (2) flown within visual line of sight of the person operating the aircraft; and (3) flown for hobby or recreational purposes."

Because anything capable of being viewed from a public space is considered outside the realm of privacy in the United States, aerial photography may legally document features and occurrences on private property.

The FAA can pursue enforcement action against persons operating model aircraft who endanger the safety of the national airspace system. Public Law 112–95, section 336(b).

Vertical photographs are taken straight down. They are mainly used in photogrammetry and image interpretation. Pictures that will be used in photogrammetry are traditionally taken with special large format cameras with calibrated and documented geometric properties.

Aerial photographs are often combined. Depending on their purpose it can be done in several ways, of which a few are listed below.

Panoramas can be made by stitchingseveral photographs taken with one hand held camera.In pictometry five rigidly mounted cameras provide one vertical and four low oblique pictures that can be used together.In some digital cameras for aerial photogrammetry images from several imaging elements, sometimes with separate lenses, are geometrically corrected and combined to one image in the camera.

Vertical photographs are often used to create orthophotos, alternatively known as orthophoto maps, photographs which have been geometrically "corrected" so as to be usable as a map. In other words, an orthophoto is a simulation of a photograph taken from an infinite distance, looking straight down to nadir. Perspective must obviously be removed, but variations in terrain should also be corrected for. Multiple geometric transformations are applied to the image, depending on the perspective and terrain corrections required on a particular part of the image.

Orthophotos are commonly used in geographic information systems, such as are used by mapping agencies (e.g. Ordnance Survey) to create maps. Once the images have been aligned, or "registered", with known real-world coordinates, they can be widely deployed.

Large sets of orthophotos, typically derived from multiple sources and divided into "tiles" (each typically 256 x 256 pixels in size), are widely used in online map systems such as Google Maps. OpenStreetMap offers the use of similar orthophotos for deriving new map data. Google Earth overlays orthophotos or satellite imagery onto a digital elevation model to simulate 3D landscapes.

Source: Wikipedia

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All About Wedding Photography

Wedding Photography

Wedding photography is the photography of activities relating to weddings. It encompasses photographs of the couple before marriage (for announcements, portrait displays, or thank you cards) as well as coverage of the wedding and reception(sometimes referred to as the wedding breakfast in non-US countries). It is a major branch of commercial photography, supporting many specialists.

Like the technology of photography itself, the practice of wedding photography has evolved and grown since the invention of the photographic art form in 1826 by Joseph Nicéphore Niépce. In fact, an early photograph, recorded some 14 years after the fact, may be a recreation for the camera of the 1840 wedding of Queen Victoria to Prince Albert. However, in the early days of photography, most couples of more humble means did not hire a photographer to record the actual wedding itself. Until the later half of the 19th century, most people didn’t pose for formal wedding photos during the wedding. Rather, they might pose for a formal photo in their best clothes before or after a wedding. In the late 1860s, more couples started posing in their wedding clothes or sometimes hired a photographer to come to the wedding venue.

Due to the nature of the bulky equipment and lighting issues, wedding photography was largely a studio practice for most of the late 19th century. Over time, technology improved, but many couples still might only pose for a single wedding portrait. Wedding albums started becoming more commonplace towards the 1880s, and the photographer would sometimes include the wedding party in the photographs. Often the wedding gifts would be laid out and recorded in the photographs as well.

At the beginning of the 20th century, color photography became available, but was still unreliable and expensive, so most wedding photography was still practiced in black and white. The concept of capturing the wedding "event" came about after the Second World War. Using film roll technology and improved lighting techniques available with the invention of the compact flash bulb, photographers would often show up at a wedding and try to sell the photos later. Despite the initial low quality photographs that often resulted, the competition forced the studio photographers to start working on location.

Initially, professional studio photographers might bring a lot of bulky equipment, thus limiting their ability to record the entire event. Even "candid" photos were more often staged after the ceremony. In the 1970s, the more modern approach to recording the entire wedding event started evolving into the practice as we know it today, including a more "Documentary photography" style of photography.

During the film era, photographers favored color negative film and medium-format cameras, especially by Hasselblad. Today, many more weddings are photographed with digital SLR cameras as the digital convenience provides quick detection of lighting mistakes and allows creative approaches to be reviewed immediately.

In spite of this trend, some photographers continue to shoot with film as they prefer the film aesthetic, and others are of the opinion that negative film captures more information than digital technology, and has less margin for exposure error. Certainly true in some cases, it should be noted that exposure latitude inherent in a camera's native Raw image format (which allows for more under- and over- exposure than JPEG) varies from manufacturer to manufacturer. All forms of RAW have a degree of exposure latitude which exceeds slide film - to which digital capture is commonly compared.

Technology has evolved with the use of remote triggers and flash synchronization. Wedding photographers are now able travel light and yet have the ability to use creative lighting.

Two approaches to wedding photography are traditional and photojournalism. Many wedding photographers will fall somewhere in between the extremes represented by these two descriptions.

Traditional wedding photography provides for more classically posed images and a great deal of photographer control during the ceremony.

A Photojournalist style of wedding photography takes its cue from editorial reporting styles and focuses more on candid images with little photographer interaction; a wedding photojournalist typically shoots images quickly using available light or on-camera flash rather than using traditional, formal posing techniques and studio lights. The Wedding Photojournalist Association was founded in 2002 and is an international, membership-based organization dedicated to wedding photojournalism. The association is a networking organization for wedding photojournalists, as well as a search engine allowing individuals to research different wedding photojournalists. Every year there are five main contests, 4 quarters and one of Bride Magazine. They accept Trash the Dress contest category in 2008.

A third style is a fashion-based approach. In contemporary/fashion-based wedding photography, a photographer will combine candid images of the events of the day with posed images that are inspired by editorial fashion photography This style often involves more innovative and dramatic post-processing of images.

A fourth style that is popular in Asian countries, especially in China, is wedding studio photography (Chinese: 婚纱摄影; pinyin: hūn shā shè yǐng). Typically, couples will make an appointment with a studio for an in-studio or a location shoot, with support from a hair stylist and make-up artist in addition to the photographer and the couple. The couple will go through many changes of clothing and backgrounds in a similar manner to the fashion based approach.

The term contemporary wedding photography is used to describe wedding photography that is not of a traditional nature. The emphasis in contemporary photography is to capture the story and atmosphere from the day, so that the viewer has an appreciation of what the wedding was like, rather than a series of pre-determined poses.

A contemporary wedding photographer will usually provide some or all of the following:

Indoor photography at a church, temple, or other private venue during the ceremony and reception.Outdoor photography (often at a park, beach, or scenic location on the day of the wedding and/or for engagement photos).Both posed and candid (photojournalistic) shots of the wedding couple and their guests at the religious or civil ceremony, and the reception that follows.Formal portraiture in the studio (for either the wedding and/or the engagement photos).Digital services, such as digital prints, slides shows and online galleries.Albums (either traditional matted albums or the more contemporary flush mount type of album).

The range of deliverables that a wedding photographer presents is varied. There is no standard as to what is included in a wedding coverage or package, so products vary regionally and from across photographers, as do the number of images provided.

Most photographers provide a set of proofs (usually untouched, edited images) for the clients to view. Photographers may provide hard copy proofs in the form of 4x5 or 4x6 prints, a "magazine" of images with thumbnail sized pictures on multiple pages. Alternatively, they will provide an online proof gallery. The images will sometimes include a digital watermark/company logo on the images. Some photographers provide these proofs for the client to keep, and some photographers require the client to make final print choices from the proofs and then return them or purchase them at an additional cost.

There are a wide variety of albums and manufacturers available, and photographers may provide traditional matted albums, digitally designed "coffee table" albums, contemporary flush mount albums, hardbound books, scrapbook style albums, or a combination of any of the above. Albums may be included as part of a pre-purchased package, or they may be added as an after-wedding purchase. Not all photographers provide albums; some may prefer to provide prints and/or files and let clients make their own albums.

Most photographers allow clients to purchase additional prints for themselves or their families. Many photographers now provide online sales either through galleries located on their own websites or through partnerships with other vendors. Those vendors typically host the images and provide the back end sales mechanism for the photographer; the photographer sets his or her own prices and the vendor takes a commission or charges a flat fee.

Some photographers also include high resolution photograph files in their packages. These photographers allow their clients limited rights to reproduce the images for their personal use, while retaining the copyright. Not all photographers release files and those who do will most likely charge a premium for them, since releasing files sometimes means giving up any after wedding print or album sales for the most part. In the cases where photographers release the high resoluton images they are usually supplied on CD, DVD or USB Stick however, this depends on the individual companies and it's recommended the client(s) checks what is included with the photographers wedding photography package before signing any contracts.

The owner of the pictures' copyright is often explicitly stated in the contract for photographic services. Without such explicit statement, the owner of the pictures' copyright will depend on the country involved as copyright laws vary from country to country. Photographers who do not retain copyright of the images often charge more for their services. In these cases, the photographer provides the client with the digital images as part of the wedding package. The client then has unrestricted use of the images and can print any that they may desire. Similarly, there are some photographers that offer joint copyrights of the digital images so they can also have unrestricted use of the images for reasons such as advertising.

Types of photos requested may be "first look" where the bride and groom see each other before the ceremony for first reaction photos rather than first seeing each other as the brides walks down the aisle. Another type of "first look" photo may be having the photo shot of the father of the bride seeing the bride for the first time when she is just about to walk down the aisle with him.

The wedding photography industry is home to some respected names within the photography industry, some of whom were listed in Pop Photo's Top 10 Wedding Photographers in the World.  These figures represent the historical rise of wedding photojournalism, fashion, couture-style portraits, and all digital work-flow.

As a wedding is a one-time event, the photographer must be prepared for the unexpected. Shooting a wedding is both exhausting and invigorating as the photographer is constantly looking for good angles and opportunities for candid shots. Communication and planning time-lines before the event will alleviate many of the stresses associated with photographing a wedding. The ability to tactfully take charge also helps - particularly when photographing large groups or families - a common expectation after the ceremony. Having a run list with all of the expected shots is also a useful tool. A photographer may work with an assistant who can carry equipment, arrange guests, and assist with clothing adjustments or holding of reflectors.

Some wedding photographers have an office or studio which can double as a retail photography studio. In bigger cities, one might find dedicated wedding studios that only shoot weddings and may have large studios equipped with make-up, hair, and gowns ready for the bride to wear. Other wedding photographers work out of a home studio, preferring to photograph on location. These home based photographers may hire additional photographers for exposing if the program is much big and unmanageable.

Source: Wikipedia

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All About Food Photography

Food Photography

Food photography is a still life photography genre used to create attractive still life photographs of food. It is a specialization of commercial photography, the products of which are used in advertisements, magazines, packaging, menus or cookbooks. Professional food photography is a collaborative effort, usually involving an art director, a photographer, a food stylist, a prop stylist and their assistants.

In advertising, food photography is often – and sometimes controversially – used to exaggerate the attractiveness or size of the advertised food, notably fast food.

For a long time, food photographs tended to be shot and composed in a manner similar to the way people were used to encountering their food: laid out on a table setting and shot from an overhead perspective, i.e., from the point of view of the eater. Stylists accordingly arranged the food to appear good from above, with the items arranged flat on the plate and clearly separated from each other.

Later, romantic lighting, shallower angles and more props came en vogue, with extreme cases leading to the term "food porn". Most recently, the prevailing trend in Western commercial food photography is to present the food as simple, clean and naturally as possible and with little props, often using effects such as selective focus, tilted plates, and extreme close-ups. This complements trends in professional cooking to make the food more visually interesting. For instance, the height of dishes tends to increase and their elements are often layered, which lends itself well to narrow-angled shots.

The role of the food stylist is to make the food look attractive in the finished photograph. The time and effort a stylist takes to carefully and artfully arrange the food, is the cause of differences between the way the stylist presents it and the way a home cook or chef may. Visual know-how is also a requirement, as is the knowledge of how to translate the perception of taste, aroma and appeal that one gets from an actual dish, to a two-dimensional photograph.

Food stylists have culinary training; some are professional chefs or have a background in home economics. In addition to knowledge of nutrition and cooking techniques, food stylists must also be resourceful shoppers. As creative professionals they envision the finished photograph and style the food accordingly. 

The process of food photography begins with the purchase of the food and ingredients. Only the most visually perfect foodstuffs are acceptable and multiple backup or test items are usually needed. As a result, purchase of the food and ingredients is a very time-consuming process. The best-looking of the purchased items is selected and marked as the "hero", i.e., the item that will be featured in the photograph. During the setup and for test shoots, it is represented by a cardboard stand-in.

The actual photography can take place in a studio under controlled lighting conditions, or under natural light. The light, background and setting is carefully prepared so as to present the food in an as attractive way as possible without distracting from it. The color and texture of the background is selected so as to effectively complement that of the food and to assist with its lighting.

Styled food is usually marked as inedible and discarded after the shoot, because it may have been handled or treated in ways that make it unsafe for consumption.

In addition to choosing, preparing and composing plated food, stylists use numerous techniques to make it appear as attractive as possible. These may include:

creating steam with cool air nebulizers or a combination of chemicals that give off smoke with the appearance of steam;spraying food with water or mixtures of water, corn syrup, or other liquids to keep it looking fresh;making a mixture of solid shortening, corn syrup and powdered sugar (essentially a very stiff frosting) that can be scooped to simulate real ice cream;using a variety of browning agents (usually mixtures used to brown gravies or sometimes heat activated liquids used in commercial bakeries) to enhance the color/brownness of cooked meats and poultry;using heavy cream or even white glue instead of milk in bowls of cereal to prevent flakes from becoming soggy too quickly.blanching green vegetables to just bring up their bright color, rather than cooking them completely. Other vegetables and foods may be cooked just to color, so they do not brown or become wrinkled if they must stand under the camera for a while.adding water to beverages so light will filter through better and add sparkle to the drink.lifting sunken vegetables in soup.

To create the effect of a thin layer of condensation forming on the outside of glasses containing cold liquid, dulling spray may be applied, with paper or masking tape protecting the non-"frosted" areas. More pronounced condensation and dew drops are imitated by spraying the glass with corn syrup or glycerin.

Ice cubes used in shoots are made of acrylic, so they do not move or melt during the shoot, which may take place under hot studio lighting. Fresh-looking bubbles on the surface of drinks are created by applying a mixture of the drink and detergent to the surface with an eyedropper. White glue may be used in lieu of milk, and a mixture of brewed coffee and water instead of tea.

Salads in food photography are composed with a view to creating appealing textures, shapes and colors. To improve support and aid in composition, salad in a bowl is built around a smaller bowl placed upside down in the outer bowl. Salad greens are kept fresh and crisp by misting them with cold water prior to composition. Salad dressing is not normally used, as it makes the salad slippery and difficult to style, but the appearance of dressing may be created by sprinkling herbs and spices over the wet salad, or mixing them in oil and applying it with a brush.

Fruit salads are particularly challenging to shoot because of the short time the fruit pieces, which are cut immediately prior to final photography, retain their appearance. As only the outer layer of the salad is of interest, the concealed interior of the salad bowl may be filled by mashed potatoes or another mixture. Thick or heavy dressings do not photograph well; they are usually thinned and applied by brush.

Hamburger photography is challenging because the buns dent easily and an assembled burger is quick to lose its visual appeal. When assembling the burger, the ingredients are held in place with toothpicks and the meaty interior of tomato slices is removed to avoid juice discoloring the ingredients. The meat patties are superficially cooked, the edges browned with a torch and the meat made to look more appetizing with a colorant. The edges of melted cheese slices may be brushed with household cleaner to make them look freshly melted longer. Condiments such as mayonnaise are applied to the edges with an applicator bottle. Steam is normally used to suggest the burger is hot.

Sandwiches are assembled using similar techniques. Wet paper towels are used to prevent the bread from drying out. If a half sandwich is to be depicted, the bread and the components are individually sliced with scissors and assembled in place.

Source: Wikipedia

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