Powered by Blogger.

Sunday, April 29, 2012

History of Photography


"Photography" is derived from the Greek words photos ("light") and graphein ("to draw") The word was first used by the scientist Sir John F.W. Herschel in 1839. It is a method of recording images by the action of light, or related radiation, on a sensitive material.

Pinhole Camera

Alhazen (Ibn Al-Haytham), a great authority on optics in the Middle Ages who lived around 1000AD, invented the first pinhole camera, (also called the 
Camera Obscura} and was able to explain why the images were upside down. The first casual reference to the optic laws that made pinhole cameras possible, was observed and noted by Aristotle around 330 BC, who questioned why the sun could make a circular image when it shined through a square hole.

The First Photograph

On a summer day in 1827, Joseph Nicephore Niepce made the first photographic image with a camera obscura. Prior to Niepce people just used the camera obscura for viewing or drawing purposes not for making photographs. Joseph Nicephore Niepce'sheliographs or sun prints as they were called were the prototype for the modern photograph, by letting light draw the picture.
Niepce placed an engraving onto a metal plate coated in bitumen, and then exposed it to light. The shadowy areas of the engraving blocked light, but the whiter areas permitted light to react with the chemicals on the plate. When Niepce placed the metal plate in a solvent, gradually an image, until then invisible, appeared. However, Niepce's photograph required eight hours of light exposure to create and after appearing would soon fade away.

Louis Daguerre

Fellow Frenchman, Louis Daguerre was also experimenting to find a way to capture an image, but it would take him another dozen years before Daguerre was able to reduce exposure time to less than 30 minutes and keep the image from disappearing afterwards.

The Birth of Modern Photography

Louis Daguerre was the inventor of the first practical process of photography. In 1829, he formed a partnership with Joseph Nicephore Niepce to improve the process Niepce had developed.
In 1839 after several years of experimentation and Niepce's death, Daguerre developed a more convenient and effective method of photography, naming it after himself - the daguerreotype.
Daguerre's process 'fixed' the images onto a sheet of silver-plated copper. He polished the silver and coated it in iodine, creating a surface that was sensitive to light. Then, he put the plate in a camera and exposed it for a few minutes. After the image was painted by light, Daguerre bathed the plate in a solution of silver chloride. This process created a lasting image, one that would not change if exposed to light.
In 1839, Daguerre and Niepce's son sold the rights for the daguerreotype to the French government and published a booklet describing the process. The daguerreotype gained popularity quickly; by 1850, there were over seventy daguerreotype studios in New York City alone.

Negative to Postive Process

The inventor of the first negative from which multiple postive prints were made was Henry Fox Talbot, an English botanist and mathematician and a contemporary of Daguerre.
Talbot sensitized paper to light with a silver salt solution. He then exposed the paper to light. The background became black, and the subject was rendered in gradations of grey. This was a negative image, and from the paper negative, Talbot made contact prints, reversing the light and shadows to create a detailed picture. In 1841, he perfected this paper-negative process and called it a calotype, Greek for beautiful picture.

Tintypes

Tintypes, patented in 1856 by Hamilton Smith, were another medium that heralded the birth of photography. A thin sheet of iron was used to provide a base for light-sensitive material, yielding a positive image.

Wet Plate Negatives

In 1851, Frederick Scoff Archer, an English sculptor, invented the wet plate negative. Using a viscous solution of collodion, he coated glass with light-sensitive silver salts. Because it was glass and not paper, this wet plate created a more stable and detailed negative.
Photography advanced considerably when sensitized materials could be coated on plate glass. However, wet plates had to be developed quickly before the emulsion dried. In the field this meant carrying along a portable darkroom.

Dry Plate Negatives & Hand-held Cameras

In 1879, the dry plate was invented, a glass negative plate with a dried gelatin emulsion. Dry plates could be stored for a period of time. Photographers no longer needed portable darkrooms and could now hire technicians to develop their photographs. Dry processes absorbed light quickly so rapidly that the hand-held camera was now possible.

Flexible Roll Film

In 1889, George Eastman invented film with a base that was flexible, unbreakable, and could be rolled. Emulsions coated on a cellulose nitrate film base, such as Eastman's, made the mass-produced box camera a reality.

Color Photographs

In the early 1940s, commercially viable color films (except Kodachrome, introduced in 1935) were brought to the market. These films used the modern technology of dye-coupled colors in which a chemical process connects the three dye layers together to create an apparent color image.

Photographic Films

The first flexible roll films, dating to 1889, were made of cellulose nitrate, which is chemically similar to guncotton. A nitrate-based film will deteriorate over time, releasing oxidants and acidic gasses. It is also highly flammable. Special storage for this film is required.
Nitrate film is historically important because it allowed for the development of roll films. The first flexible movie films measured 35-mm wide and came in long rolls on a spool. In the mid-1920s, using this technology, 35-mm roll film was developed for thecamera. By the late 1920s, medium-format roll film was created. It measured six centimeters wide and had a paper backing making it easy to handle in daylight. This led to the development of the twin-lens-reflex camera in 1929. Nitrate film was produced in sheets (4 x 5-inches) ending the need for fragile glass plates.
Triacetate film came later and was more stable, flexible, and fireproof. Most films produced up to the 1970s were based on this technology. Since the 1960s, polyester polymers have been used for gelatin base films. The plastic film base is far more stable than cellulose and is not a fire hazard.
Today, technology has produced film with T-grain emulsions. These films use light-sensitive silver halides (grains) that are T-shaped, thus rendering a much finer grain pattern. Films like this offer greater detail and higher resolution, meaning sharper images.
  • Film Speed (ISO) — An arbitrary number placed on film that tells how much light is needed to expose the film to the correct density. Generally, the lower the ISO number, the finer grained and slower a film. ISO means International Standards Organization. This term replaces the old ASA speed indicator. The slower the film, the more light is needed to expose it.

Photographic Prints

Traditionally, linen rag papers were used as the base for making photographic prints. Prints on this fiber-base paper coated with a gelatin emulsion are quite stable when properly processed. Their stability is enhanced if the print is toned with either sepia (brown tone) or selenium (light, silvery tone).
Paper will dry out and crack under poor archival conditions. Loss of the image can also be due to high humidity, but the real enemy of paper is chemical residue left by photographic fixer. In addition, contaminants in the water used for processing and washing can cause damage. If a print is not fully washed to remove all traces of fixer, the result will be discoloration and image loss.
  • Fixer (Hypo)—A chemical, sodium thiosulfate, used to remove residual silver halides (grain) from films and prints when processing them. Fixer "fixes" the remaining silver halides in place on either film or prints. Fixer is also called hypo.
The next innovation in photographic papers was resin-coating, or water-resistant paper. The idea is to use normal linen fiber-base paper and coat it with a plastic (polyethylene) material, making the paper water-resistant. The emulsion is placed on a plastic covered base paper. The problem with resin-coated papers is that the image rides on the plastic coating, and is susceptible to fading.
At first color prints were not stable because organic dyes were used to make the color image. The image would literally disappear from the film or paper base as the dyes deteriorate. Kodachrome, dating to the first third of the 20th century, was the first color film to produce prints that could last half a century. Now, new techniques are creating permanent color prints lasting 200 years or more. New printing methods using computer-generated digital images and highly stable pigments, offer permanency for color photographs.
By definition a camera is a lightproof object, with a lens, that captures incoming light and directs the light and resulting image towards film (optical camera) or the imaging device (digital camera).
All camera technology is based on the law of optics first discovered by Aristotle. By the mid-1500s a sketching device for artists, thecamera obscura (dark chamber) was common. The camera obscura was a lightproof box with a pinhole (later lens were used) on one side and a translucent screen on the other. This screen was used for tracing by the artists of the inverted image transmitted through the pinhole.
Around 1600, Della Porta reinvented the pinhole camera. Apparently he was the first European to publish any information on the pinhole camera and is sometimes incorrectly credited with its invention.
Johannes Kepler was the first person to coin the phrase Camera Obscura in 1604, and in 1609, Kepler further suggested the use of a lens to improve the image projected by a Camera Obscura.

Daguerreotype Cameras

The earliest cameras used in the daguerreotype process were made by opticians and instrument makers, or sometimes even by the photographers themselves. The most popular cameras utilized a sliding-box design. The lens was placed in the front box. A second, slightly smaller box, slid into the back of the larger box. The focus was controlled by sliding the rear box forward or backwards. A laterally reversed image would be obtained unless the camera was fitted with a mirror or prism to correct this effect. When the sensitized plate was placed in the camera, the lens cap would be removed to start the exposure.

Box Camera

George Eastman. a dry plate manufacturer from Rochester, New York, invented the Kodak camera. For $22.00, an amateur could purchase a camera with enough film for 100 shots. After use, it was sent back to the company, which then processed the film. The ad slogan read, "You press the button, we do the rest." A year later, the delicate paper film was changed to a plastic base, so that photographers could do their own processing.
Eastman's first simple camera in 1888 was a wooden, light-tight box with a simple lens and shutter that was factory-filled with film. The photographer pushed a button to produce a negative. Once the film was used up, the photographer mailed the camera with the film still in it to the Kodak factory where the film was removed from the camera, processed, and printed. The camera was then reloaded with film and returned.

Flashlight Powder

Blitzlichtpulver or flashlight powder was invented in Germany in 1887 by Adolf Miethe and Johannes Gaedicke. Lycopodium powder (the waxy spores from club moss) was used in early flash powder.

Flashbulbs

The first modern photoflash bulb or flashbulb was invented by Austrian, Paul Vierkotter. Vierkotter used magnesium-coated wire in an evacuated glass globe. Magnesium-coated wire was soon replaced by aluminum foil in oxygen. On September 23, 1930, the first commercially available photoflash bulb was patented by German, Johannes Ostermeier. These flashbulbs were named the Vacublitz. General Electric made a flashbulb called the Sashalite.

Filters - Frederick Charles Luther Wratten (1840-1926)

English inventor and manufacturer, Frederick Wratten founded one of the first photographic supply businesses, Wratten and Wainwright in 1878. Wratten and Wainwright manufactured and sold collodion glass plates and gelatin dry plates.
In 1878, Wratten invented the "noodling process" of silver-bromide gelatin emulsions before washing. In 1906, Wratten with the assistance of Dr. C.E. Kenneth Mees (E.C.K Mees) invented and produced the first panchromatic plates in England. Wratten is best known for the photographic filters that he invented and are still named after him - Wratten Filters. Eastman Kodak purchased his company in 1912.

35mm Cameras

As early as 1905, Oskar Barnack had the idea of reducing the format of film negatives and then enlarging the photographs after they had been exposed. As development manager at Leica, he was able to put his theory into practice. He took an instrument for taking exposure samples for cinema film and turned it into the world's first 35 mm camera: the 'Ur-Leica'.

Polaroid or Instant Photos

Polaroid photography was invented by Edwin Herbert Land. Land was the American inventor and physicist whose one-step process for developing and printing photos created instant photography. The first Polaroid camera was sold to the public in November, 1948.

Disposable Camera

Fuji introduced the disposable camera in 1986. We call them disposables but the people who make these cameras want you to know that they're committed to recycling the parts, a message they've attempted to convey by calling their products "single-use cameras."

Digital Camera

In 1984, Canon demonstrated first digital electronic still camera.

ALL ABOUT PHOTOGRAPHY


Photographs

Photographs make us stop and look at the world in a different way. They can make us focus in on a particular aspect of a subject, look at the familiar from an alternative viewpoint, enable us to see things we would never otherwise have the opportunity to see, and trigger a variety of emotional responses. Most of the time we see without really looking, we gather impressions and rarely stand and look or examine. Often we see what we want to see or what we expect to see rather than what is actually there!

High Speed Photography

Fast science, slow motion! High speed photography is the process of capturing a large number of images in a small amount of time. In this video, a special camera is used to capture images at around 2500 frames per second. This allows the subject to be played back 100 times slower than normal — something that takes one second to happen takes 100 seconds to play back. This allows observers to see phenomena which are normally too fast to observe.

Historically speaking

Photography has been around for a very long time. The basic principle of the camera was in use a thousand years ago when Arab astronomers were projecting images of well lit objects onto the walls of darkened rooms. This so called camera obscura (dark room) was also documented by Leonardo da Vinci in 1519, and about this time it was being advocated as an aid to drawing. The image produced existed only while the light reflected from the object into the room.
It was not until 1826 that a record of the image was achieved when the first photographic image was produced on bitumen by Nicephore Niepce. It took an eight hour exposure and followed ten years of experimentation. Many better systems were suggested and in 1841 the process of photographic printing invented by W. H. Fox Talbot was patented, and introduced to the world as 'photogenic drawing'.
In 1850 albumen paper was invented for use in photography, and by 1894 a German paper company was using 60 000 fresh eggs a day.
Advances in chemistry and materials technology eventually led to the production of cameras able to take rolls of film (Leon Warnerke, 1875), and flexible negative films based on celluloid (John Carbutt, 1888).
In 1888 George Eastman produced the Kodak box camera with roll paper. Each roll took 100 photographs, but the camera and film had to be returned to the factory for developing, printing and reloading.
Photography fulfils a large number of purposes. For many it is used to capture moments and scenes that they wish to remember, and photographs produce family albums. It is important as an information tool to record details, and to record history.
The advent of moving pictures and then sound tracks revolutionised the entertainment industry!
In order to get some of the best shots, wildlife photographers sometimes need to get into precarious positions, so there can be an element of danger. However the danger now does not compare to the dangers associated with photography in its early days. Then, gun cotton dissolved in nitric acid was used to produce the emulsion ('film'), mercury vapours were given off by the developer and cyanide was a constituent of the fixer. The film used for early movies had a nitrocellulose base - flammable if not even explosive!

Photography basics

The word photograph comes from two Greek words - photos meaning light and graphein meaning to draw.
Without light there is no sight and no photographs of the type in this exhibition.
Light from objects enters the camera and hits the film while the shutter is open. This causes a chemical reaction. Developing and fixing the film involve further chemical reactions to produce the photograph itself.
Black and white photographic film is essentially composed of a layer of photographic emulsion on a thin plastic base, along with other layers that provide structure and protection.
The 'active ingredient' in the photographic emulsion is a silver halide that is sensitive to light. When exposed to light the silver halide crystals produce a latent image as they begin to break down into black specks of metallic silver. Developing the film completes the formation of silver to produce a negative of the picture.
A photographic print is made by allowing light to shine through the negative onto light sensitive photographic paper, usually through an enlarger.
Colour films contain three emulsion layers on a plastic base. Each of these layers is sensitive to a different colour of light - yellow, cyan and magenta.
Combinations of these three colours produce other colours.
Check out the parrot exhibit in the foyer to remind yourself!
Developers for colour films contain dye couplers which attach dyes to the silver that forms during the development of a colour film. The silver is then dissolved, leaving behind the dye.

Taking photographs

In photography, the photographer has control over a number of variables. These determine the quality of a particular photograph.
The photographer obviously selects the subject. With wildlife photography it may be that many other variables are to an extent out of the control of the photographer. After all it is wild life. Patience is a definite virtue!
The variables that are under control are those relating to the camera, the film and lighting in terms of the situation and/or time of day selected for the photographing.
The camera
The controllable variables are the lens and its position, the aperture, the shutter speed and the use or otherwise of filters.
The lens, or more usually system of lenses is, designed to focus a clear image onto the film. A small inverted image of the picture is formed at the principal focus of the lens. Often the surfaces of the lenses are coated to reduce reflections. Different lens systems can be used to produce different types of photograph.
Short focal length lenses (eg 28 mm) are also called wide angle lenses since they can take in up to about 75 degrees and still bring it to focus on the film.
Long focal length lenses (eg 500 mm) are also called telephoto lenses. Cameras with these lenses need to be supported on a tripod!
Zoom lenses can be adjusted to a variety of different focal lengths. Spot them at the sports events!
In any particular situation, the amount of light reaching the film can be controlled through altering the shutter speed and the aperture or f stop.
(see Exposure time in the Taking photographs section)
The shutter speed is the length of time that the shutter stays open for to allow light into the camera.
The aperture is a direct control of the amount of light let into the camera - it controls the size of the hole that the light comes through.
In automatic cameras, altering the aperture (f stop) automatically controls the length of time for which the shutter is open so that the amount of light reaching the film is the correct amount for that type of film.
Explaining f stops
An f stop of f/2 or f2 means that the aperture (hole) diameter is half of the focal length of the lens.
An f stop of f/4 or f4 means that the aperture (hole) diameter is one quarter of the focal length of the lens.
Each time the diameter of the aperture is halved, it reduces the area (and so the amount of light passing through) by to one quarter. To get the same amount of light onto the film, the exposure to light would have to be four times as long, so the shutter speed would be four times as long.
In practice the fstops are determined so that going from one fstop to the next changes the aperture area (and therefore exposure) by a factor of two.
The usual f stops are f2, f2.8, f5.6, f8, f11, f16.
The f stop system was developed by the Royal Photographic Society of Great Britain and is a recognised standard. No matter where the lens is manufactured, no matter what the focal length of the lens, if it is set at f4 then it will let through the same amount of light, provided the lens is set to focus at infinity.
The aperture controls the amount of light entering the camera, but it has another important effect too; it alters the depth of field.
With a large aperture, only things at a particular distance from the lens will be in focus and the rest of the picture will be out of focus. This is a narrow depth of field.
With a small aperture, objects over a greater range of distances will be in acceptably sharp focus. This is a greater depth of field.
To understand why, consider the diagrams opposite. These show a point of light being photographed with the real focus just behind the film, using a large and a small aperture. Notice the size of the patch of film that is affected in each case
Exposure times can be linked to the f stops or they can be controlled manually.
The film
Films vary in the speed with which they respond to light
The silver halide crystals in film are also called grains, and they vary in size. They are mixed with gelatin to form a smooth mixture called the photographic emulsion.
The size of a grain in the emulsion determines how quickly that grain reacts to light, The smaller the grain, the higher the intensity of light it needs to be affected (exposed).
The comparative sizes of the grains in film emulsions determine how long it takes for them to be exposed, so we can get varying shades of grey, and also produce fast and slow films.
Fast films contain a range of grain sizes, but they are all large, so that the film responds quickly to light. Slow films by comparison have a range of small sized grains, and need a longer time to be affected!
The speed of a film is stated as an ISO number. ISO stands for International Standards Organisation.
The higher the number, the faster the film.
Combinations of film type and exposure time can be used to create different effects in photography. For example, very fast film and short exposure can be used to 'freeze' motion. Very fast film with longer exposure gives a slightly blurry picture that gives the impression of the movement.
The light
The light source itself and the shadows, reflections and patterns it produces can all contribute to a photograph, in content and in atmosphere.
If the source of light is small and close, then shadows formed are dark and have very well defined edges. This gives the photograph a hard quality. By comparison, if the source of light is large and distant and such as the sun, then the light has been diffused through clouds and reflected off surfaces and gives less well defined shadows. The picture has a much softer quality.
The position and number of light sources determines the number and direction of shadows and so impacts on the composition and mood of the picture.

Composition

Notice that the photographs in this exhibition all make the subject look really important and make you want to look closer.
This is achieved by good composition.
The photographs are uncluttered, they do not contain details that do not contribute to the real picture. You are forced to focus on the really important!
The frame
The edge of a photograph acts as a frame that does not really exist in nature, and can be used to produce shapes in the photograph shapes that are not really there.
When photographs are viewed, the viewer has no way of knowing what was actually there beyond the frame.
Try looking at photographs and imagining what else was there.
Try blocking off (major) portions of a photograph (or picture in a magazine) to make new, different pictures with a different focus!

The design

Line
Good photographic design considers the dominant line and the overall arrangement of shapes within the photographic frame.
In black and white photographs, the line is a very important design feature.
The dominant line in a photograph may be a real line ( the horizon, telegraph wires), or it may be a 'line' formed by a number of elements within the picture.
Horizontal or vertical lines give stability to a picture, diagonal lines create a feeling of instability and so can make a picture more dynamic.
The dominant line of a picture may be a curve, and this is often arranged within a picture so that the viewers eye follows the curve in a natural way - starting at the top left and moving through to bottom right of the frame. The closer the curves come to the edges of the frame, the more dynamic the picture is as the eye movements need to be greater.
Positioning
Rarely is the focal point placed in the centre of the photograph. More often it is placed elsewhere, so encouraging the viewer's eye to move around the whole image and so look closer.
“Rules of composition” have been formulated to help create interesting and pleasing compositions. These 'rules' lead to good composition and produce designs that are harmonious and pleasing to the eye.
Angle
An unusual angle on a subject can encourage people to look closer. If a picture is the 'normal view', it may be dismissed as 'seen that before' unless there is something else that attracts the viewer in!
Often a high or low vantage point is used so that the background of the subject is changed from normal - the sky or the ground may provide an uncluttered background so that focus is on the subject even though the subject is 'normal view'.
Depth
A photograph is only a two dimensional representation of a three dimensional reality.
While our mind will often put back the three dimensionality, it can be aided in the composition by using perspective. Often points of interest are placed in the foreground, the middle distance and at distance! How many landscapes have tree foliage in the foreground?
Perspective lines (getting closer together implies distance) can also be reinforced by the placement of the subjects in the picture, so drawing the viewer from the outsides (foreground) towards the main subject at greater depth. This effect can also be achieved by using dark foreground tones, getting lighter at depth.
Colour also has an effect on how three dimensional a photograph appears. Warm colours like red and yellow seem to come forward, whereas the cool colours like blue seem to recede.
Exposure time
All photographs are pictures of moment(s) in time. By choosing appropriate lengths of time to capture moving subjects in a particular photograph, different effects can be achieved. Long exposures capture the subject in different parts of the motion and so appear blurry. This gives the impression of motion but gives less information about the subject itself. To give good information about the subject, the motion needs to be 'frozen' in time by using fast exposure. Much of the wildlife photography is high speed photography, freezing the action. Since the shutter is open for a very short period of time, little time is available for light to get into the camera, so lighting needs to be good and/or fast film used.
What the photographer has to do is determine the appropriate time!
If in a picture different things are moving at different speeds, it is possible to have the main subject appearing clear, but other moving things still appearing as a blur.
A technique that is sometimes used for action shots is called the slow sync flash technique, where slow shutter speed is used in dull light along with a flash to capture the main subject. This gives blurred background and sharp, recognisable main subject!
It is possible to keep the subject in motion in the picture for an extended period of time by using a slow shutter speed and panning and tracking the subject as it moves against the background and the background appears as a blur.
Other techniques that can be used to show movement include multiple exposure photographs, zooming in while the shutter is open, and manipulating the print during development stage.
Photography as an art is more than just merely pointing and shooting. These notes should provide you with enough information to understand some of the technical details.

Resources

The late Bill Germon's help was much appreciated during the writing of this information. For additional information, we have also included some internet addresses:

Jenis-Jenis Foto Jurnalistik



Jenis foto jurnalistik dapat diketahui melalui kategori yang dibuat Badan Foto Jurnalistik Dunia (World Press Photo Foundation). Kategori itu adalah sebagai berikut :


1. Spot Photo Foto spot adalah foto yang dibuat atau diambil dari peristiwa yang tidak terjadwal atau biasa disebut secara spontan. Misalnya foto peristiwa kecelakaan, kebakaran , dan perang. karena dibuat dari peristiwa yang jarang terjadi dan menampilkan konflik serta ketegangan maka foto spot harus segera disiarkan. dalam pengambilan foto ini , dibutuhkan keberuntungan dan keberanian saat pengambilan gambar. Memperlihatkan emosi subjek yang difotonya sehingga memancing emosi yang melihat hasil foto tersebut.

2. General News Photo Merupakan foto yang diabadikan dari peristiwa yang terjadwal, rutin, dam biasa. Temanya bisa bermacam-macam, yaitu politik, ekonomi dan humor. contoh foto badut pertunjukan.

3. People in The News Photo merupakan foto tentang orang atau masyarakat dalam suatu berita. Yang ditampilkan adalah pribadi atau sosok yang menjadi berita itu. Contoh foto Osama bin Laden, Mantan Presiden Soeharto, dll.

4. Daily Life Photo Adalah foto tentang kehidupan sehari-hari manusia dipandang dari segi kemanusiawiannya (human interest). Misalnya tentang foto pedagang alat musik.

5. Potrait Adalah foto yang menampilkan wajah seseorang secara close up dan "mejeng". Ditampilkan karena adanya kekhasan pada wajah yang dimiliki atau kekhasan lainnya.

6. Sport Photo Adalah foto yang dibuat dari peristiwa olahraga. Pada pengambilan foto ini, dibutuhkan peralatan foto yang memadai, karena objek dengan si pemotret berada pada jarak tertentu. Contoh foto pemain sepak bola ketika menekel lawan.

7. Science and Technology Photo Adalah foto yang diambil dari peristiwa-peristiwa yang ada kaitannya dengan ilmu pengetahuan dan teknologi. Misalnya pada foto-foto kedokteran, penemuan mikro chip komputer, dll.

8. Art and Culture Photo adalah foto yang dibuat dari peristiwa seni dan budaya. misalnya foto perhelatan seni Reog Ponorogo.

9. Social and Environment Adalah foto-foto tentang kehidupan sosial masyarakat serta lingkungan hidupnya. Contoh foto penduduk disekitar TPA Sampah dan kegiatannya.

what it called HDR photo


HDR or High Dynamic Range understood as a state or process of making images that contain a large range of dynamic rangethe range of difference between a "light" and the "dark" is very largecalled the dynamic range of exposureHDR was formerly called HDRI (High Dynamic Range Imaging).

Definition HDR as a "process", some say less precisebut it was already popular on the forums so yes we are wearing.

Others say that HDR is a technique of digital non-destructive if the purpose of making a digital image file of a photo eksposurenyya berobjek same but different values ​​so that it has a dynamic range of areas of higher than normal digital images produced from digital camerasThe ultimate goal of making HDR file is processing to display a unique pattern on the object image.


Three Main Steps How to Create HDR photos:

AMulti-Exposure
2Merge
3Tone-Map

In summary is as follows:
-Multi-Exposure: Make some of the same photo but different exposure(Bracketing).
-Merge: Combine pictures with HDR Merge.
-Tone-Map: Map to Perform Tone Tone combined to set the darkness bright.

It was the three main steps to HDRwhich is described in more detailEach time you want to create HDR imageseasy to remember there are three main steps in the process of HDR in the
"Multi-Exposure" / "Merge/ "Tone-Map"

So if there is a state of nature or portraits or anything in this world that contains a light and dark differences are very large (of the Dynamic Range) you can create HDR photos of the situation. Not always be daytimenighttime is also a lot that contains HDR circumstances.