The inclination to be curious about things to know about high-speed cameras is completely justified and probing the facts of high-speed cameras lead to amazing discoveries. Let us have a more thorough review on how much is a high-speed camera worth it.
Image Capturing Device
The high-speed camera is an image capturing device used for recording the photographic images of fast-moving objects in slow motion at startling speeds. These cameras have been around since standard photography was in place to present consistent solutions to various scientific problems from time to time. The dimensions of vision research completely changed forever, with the earliest uses of high-speed camera in 1878 by Eadweard Muybridge. He went on proving an enigma by capturing several images of a horse while they were galloping to ensure whether horse feet left the ground at once or not. To his surprise, the answer to his query was resolved by proving the mystery positively.
Essence of Photography
The facts about the speed of a high-speed camera can be attributed to being the best medium to give life to the essence of high-speed photography which otherwise is invisible to human eye. The art of high-speed shooting is well served with these high-speed video cameras used by scientists to observe physical phenomena such as gravitational effects and surface tension etc. Similarly, sports photography took another dimension by the enforcement of fast speed cameras to record fast-moving sporting events such as bike racing, horse racing and NASCAR. Likewise, other art disciplines high-speed photography also possesses artistic merits to display stunning photographic experiences.
The high-speed cameras are not bound to territorial limitations rather they are used to create amazing photography experience even underwater. So, if you think recording super slow-motion videos are hard to shoot on land, then take a deep breath by diving deep into the water for enjoying next level underwater shooting experience. This was not possible until the discovery of ‘’Typhoon HD4’’ the underwater slow-motion video camera invented by a German scientist named Rudi Diesel. This underwater shooter is developed by using a special carbon fiber housing for stabilizing it underwater and holding a magazine for storing videos and photos into a hard drive while enjoying the ultimate diving experience.
Among one of the pros of high-speed cameras, the quality of photographs is another contribution to greatly complement the scientific work. These cameras entail higher resolution than a standard computer screen to consent not only slow motions but individual frames to be analysed in the immense level of detail. These cameras are thus, greatly changing the way science was operated since late 1800s by the constant advancement of technology inducing higher resolution and fast shutter speeds to offer great research potential for years to come.
In-depth Analysis of High-Speed Cameras
The advancement of biomechanics also calls for super slow motion and high frame rate cameras to play an integral part in the development of associated research methods. The facts about the speed of these cameras allow for recording and playing back incredible super slow-motion movements permitting in-depth analysis of each movement. These cameras constitute the concept of shutter speeds that is measured in frames per second falling in the range of one full second and 1/1000th of a second. Hence, the amount of light allowed onto the film depends on the length of the shutter being open. In comparison to that, standard cameras work at about 1/125th of a second in terms of shutter speeds. Unlike standard cameras, these cameras constitute shutter speeds as fast as 1/8000th of a second. Moreover, contingent on the optical system as utilized in ultra-high-speed cameras they are can also distribute shutter speeds of more than one million per seconds.
High Frame Rates
Since the consideration of frame rates is the top priority while buying a high-speed camera. High FPS video cameras are the ones constituting increasingly high frame rates due to reduced pixel resolution. However, the proportionality of high frame rates is not only dependent on reduced resolution rather the selection of specific horizontal and vertical pixel numbers is also required. The high-speed video cameras thus represent wide costs and performance levels. Hence, the choice as to how much is a high-speed camera useful greatly depends on the application requirements that meet your sufficient performance ends. At the low market end, these cameras capture images with up to 1000 frames per second while at the high end, the frame rates performance can go more than 20000 frames per second at 1 MP resolution.
Another vital thing to consider while being equipped with a high-speed camera is pixel resolution which are available in a variety of resolutions ranging between 1 to 4 MP. In case, a field of camera view is large or small spatial resolution is needed to record finest images details the resolution plays an integral role. Moreover, bit depth is another important consideration to ponder upon having a direct impact on image quality and enhancing the image usability by applying image processing. Hence, high bit depth directly impacts the amount of captured information by the camera. The details of images can be easily viewed for the images constituting larger bit depths. To enhance poorly illuminated areas, bit depth provides sufficient flexibility for image processing functions to ensure easier analysis. Light sensitivity is another critical consideration as it impacts the ability to use short exposure timings that eliminate the probability of motion blur while recording fast moving objects.
Hence, in the most challenging environments, the revolutionary high-speed cameras are an exceptional choice to leverage high-speed imaging with extreme precision and accuracy for years to come.