Whole sky camera#Cloud stereoscopy

Whole sky cameras typically use a fisheye lens that takes in an extremely wide, hemispherical image. Such lenses were originally developed for use in meteorology.{{r|hill1924}}

However, alternative techniques are based on the photography of a mirror-like hemisphere which are more common.{{r|deperman1949}}

One of the first reported whole sky cameras was based on a series of pictures with lenses inclined to the horizon at an altitude of 45 degrees. With a lens that covers an angular field of 90 degrees, such camera revolves about a vertical axis.{{r|fassig1915}}

In meteorological applications, whole sky cameras are used to study cloud cover, the current level of UV radiation, fractional cloud coverage, sky polarization, the computation of cloud base height and wind speed at cloud heights. Other uses include creating time-lapse photography of clouds. Whole sky cameras may be equipped with a sun tracking device to block sunlight which is too bright for the typical dynamic range of photographs. Sun tracking allows for reliable estimates of cloud fractional coverage, including cover in the part of the sky close to the Sun. There are techniques such as HDR which permit the taking of high dynamic range photographs without a sun tracker.{{Cite web |title=Direct HDR Capture of the Sun and Sky |url=https://vgl.ict.usc.edu/Data/SkyProbes/ |access-date=April 4, 2025 |publisher=USC Institute for Creative Technologies - ICT Vision & Graphics Lab}}{{Cite journal |last1=Chauvin |first1=Rémi |last2=Nou |first2=Julien |last3=Thil |first3=Stéphane |last4=Grieu |first4=Stéphane |date=2017-07-01 |title=Generating high dynamic range images using a sky imager |url=https://www.sciencedirect.com/science/article/pii/S2405896317300514 |journal=IFAC-PapersOnLine |series=20th IFAC World Congress |volume=50 |issue=1 |pages=219–224 |doi=10.1016/j.ifacol.2017.08.037 |issn=2405-8963|doi-access=free }}{{Cite journal |last1=Urquhart |first1=B. |last2=Kurtz |first2=B. |last3=Dahlin |first3=E. |last4=Ghonima |first4=M. |last5=Shields |first5=J. E. |last6=Kleissl |first6=J. |date=2015-02-20 |title=Development of a sky imaging system for short-term solar power forecasting |url=https://amt.copernicus.org/articles/8/875/2015/ |journal=Atmospheric Measurement Techniques |language=English |volume=8 |issue=2 |pages=875–890 |doi=10.5194/amt-8-875-2015 |doi-access=free |bibcode=2015AMT.....8..875U |issn=1867-1381}}

Whole sky camera also popularly known as an all-sky camera in the astronomical field is used for meteor, fireball, and spacecraft reentry recording and identification. While mostly identical to the meteorological application, the system for astronomical use tends to have a more sensitive night camera and much longer exposure due to the night-use nature of the camera.all-sky camera. Oxford Reference. Retrieved 28 Aug. 2024, from https://www.oxfordreference.com/view/10.1093/oi/authority.20110803095404574.

Whole sky cameras in stereo configurationsKassianov, E., C.N. Long, and J. Christy, 2005: Cloud-Base-Height Estimation from Paired Ground-Based Hemispherical Observations. J. Appl. Meteorol., 44, 1221–1233. can be used to derive cloud base height and cloud base motion. The first work on this application of photogrammetry was done in 1896.{{r|koppe1896}}

{{Gallery

|title=Examples of modern whole sky cameras

|File: Whole sky camera1.jpg|Simple whole sky camera based on Canon A75 located north of Kennedy Space Center during meteorological experiment close to the MCR radar|File:Camera2Markowicz.jpg|Whole sky camera based on reflecting (mirror) dome with sun tracker. Constructed by K. Markowicz|File: Ladd Observatory Skycam.jpg|Night sky camera mounted on the roof of an observatory|File: Sky monitor.jpeg|Closeup of the weatherproof box housing a whole sky camera}}

{{Gallery

|title=Examples of whole sky images

|Image:Fassig mwr 1915 fig6.jpg|Baltimore, Md., Sept. 16, 1914, 7:45am. Taken from Mueller's inclined camera.

|Image: Whole sky july24.jpg|N. Of Kennedy Space Center, Fl. on July 24, 2009. Taken from Flatau's camera.

|Image:Camera1Markowicz.jpg|Sky image based on K. Markowicz's design. Black stripe covering the sun (sun tracker) is visible.

|File:Mk011118ut101257.jpg|Sky image from the CONCAM at Mauna Kea Observatories on Nov. 18, 2001, showing the long trail of a Leonid meteor|File:Fireball20120119.jpg|Sky image from Ladd Observatory on January 19, 2012, showing the flash of a bright fireball}}

{{Wikiversity|SkyCam}}

{{reflist|2|refs=

{{cite journal| doi = 10.1002/qj.49705021110 | last = Hill| first = R.

| title = A lens for whole sky photographs | orig-year = 1924| journal = Quarterly Journal of the Royal Meteorological Society| pages=227–235 | volume=50 | year=1924 | issue = 211|bibcode = 1924QJRMS..50..227H }}

{{cite journal| last = Depermann | first = C. E.| title = An improved mirror for photography of the whole sky | journal = Bulletin of the American Meteorological Society| pages=282–285| year=1949| volume = 30| issue = 8| doi = 10.1175/1520-0477-30.8.282| bibcode = 1949BAMS...30..282D| doi-access = free}}

{{cite journal| last = Fassig| first = Q.L.| title = A revolving cloud camera

| journal = Monthly Weather Review| pages=274–275| year=1915

| doi=10.1175/1520-0493(1915)43<274:arcc>2.0.co;2| volume=43 | issue = 6|bibcode = 1915MWRv...43..274F | doi-access = free}}

{{cite book| last = Koppe| first = C.| title = Photogrammetrie und Internationale Wolkenmessung | url = https://archive.org/details/photogrammetrie00koppgoog| publisher=Druck und Verlag von Friedrich Vieweg und Sohn| location= Braunschweig, Germany

| pages=[https://archive.org/details/photogrammetrie00koppgoog/page/n274 108]| year=1896}}

}}

{{Meteorological equipment}}

Category:Meteorological instrumentation and equipment