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Light painting

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Light painting inside an abandoned limestone quarry in France

Light painting, painting with light, light drawing, light art performance photography, or sometimes also freezelight are terms that describe photographic techniques of moving a light source while taking a long-exposure photograph, either to illuminate a subject or space, or to shine light at the camera to 'draw', or by moving the camera itself during exposure of light sources. Practiced since the 1880s, the technique is used for both scientific and artistic purposes, as well as in commercial photography.

Light painting also refers to a technique of image creation using light directly, such as with LEDs on a projective surface using the approach that a painter approaches a canvas.

History

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Light painting dates back to 1889 when Étienne-Jules Marey and Georges Demeny traced human motion in the first known light painting Pathological Walk From in Front.[1]

The technique was used in Frank Gilbreth's work with his wife Lillian Moller Gilbreth in 1914 when the pair used small lights and the open shutter of a camera to track the motion of manufacturing and clerical workers.

Man Ray, in his 1935 series "Space Writing," was the first known art photographer to use the technique. He made a self-portrait with a time exposure and while the shutter was open, with a penlight he inscribed his name in cursive script in the space between him and the camera, overwriting the letters with more cryptic marks.[2][3] Historian of photography Ellen Carey (*1952) describes her discovery of the artist's signature in this image while examining it in 2009.[4]

Pure Energy and Neurotic Man, a light painting by Barbara Morgan (1940)

Photographer Barbara Morgan began making light paintings in 1935–1941.[5] Her 1941 photomontage Pure Energy and Neurotic Man incorporates light drawing and realises her stated aim; "that if I should ever seriously photograph, it would be...the flux of things. I wanted then, and still do, to express the ‘thing’ as part of total flow."[6] In making innovative photographs of dancers, including Martha Graham and Erick Hawkins she would have them move while holding lights.

In 1949 Pablo Picasso was visited by Gjon Mili, a photographer and lighting innovator, who introduced Picasso to his photographs of ice skaters with lights attached to their skates. Immediately Picasso started making images in the air with a small flashlight in a dark room. This series of photos became known as Picasso's "light drawings." Of these photos, the most celebrated and famous is known as Picasso draws a Centaur.[7]

Peter Keetman (1916–2005), who studied photography in Munich from 1935 to 1937, was the 1949 co-founder of FotoForm (together with Otto Steinert, Toni Schneiders et al.), a group with great impact on the new photography in the 50s and 60s in Germany and abroad. He produced a series Schwingungsfigur (oscillating figures) of complex linear meshes, often with moiré effects, using a point-source light on a pendulum.[8]

During the 1970s and '80s Eric Staller[9] used this technology for numerous photo projects that were called "Light Drawings". Light paintings up to 1976 are classified as light drawings.[10]

In 1977 Dean Chamberlain extended the technique using handheld lights to selectively illuminate and/or color parts of the subject or scene with his image Polyethylene Bags On Chaise Longue at the Rochester Institute of Technology. Dean Chamberlain was the first artist to dedicate his entire body of work to the light painting art form.[1] The artist photographer Jacques Pugin made several series of images with the light drawing technique in 1979.[11] Now, with modern light painting, one uses more frequently choreography and performance to photograph and organize.

Photographs of a representation of an electromagnetic radio wave with S.W.I.M. (Sequential Wave Imprinting Machine), which represents traveling waves in stationary spacetime coordinates (i.e. as a "sitting wave")[12]

In the 1970s and early 1980s, Steve Mann invented, designed, built, and used various wearable computers to visualize real-world phenomena such as sound waves, radio waves, and sight fields by light painting using computational photography.[13][14][15][16]

Since the 1980s, Vicki DaSilva has been working exclusively in light painting and light graffiti.[17] In 1980, DaSilva[18] started making deliberate text light graffiti works, the first being "Cash".[19] She continued these light graffiti photographs throughout the 1980s and eventually started using 4 foot fluorescent bulbs hooked up to pulley systems to create sheets of light. In the early 2000s she began making work with 8 foot fluorescent lamps, holding the lamp vertically and walking through spaces with it.[20][21]

From the late 1980s Tokihiro Satō's photographs combine light, time and space in recording his movements in a series beginning with his “photo respirations” where his use of an 8 x 10-inch view camera fitted with a strong neutral-density filter to achieve lengthy exposures lasting one to three hours provide the opportunity for him to move through the landscape.[22] When shooting in daylight, using a mirror, he flashed light from the sun into the camera lens, resulting in points of light and flares that punctuate the image and track his movements, though his presence is not seen directly. For nocturnal or interior views he “draws” with a small torch.

Light art performance photography: Natural Breakdancer

Light painting as an art form enjoyed a surge in popularity in the 21st century, partly due to the increasing availability of dSLR cameras and mobile phone cameras enabling immediate feedback for adjustments of lights and exposure; advances in portable light sources such as LEDs; and the advent of media sharing websites by which practitioners can exchange images and ideas.

In March 2007, JanLeonardo coined the term light art performance photography (LAPP)[23] which emphasises the performative aspect that is evident earlier in Satō's work,[24] and used it to describe the creation of new figures and structures only with light. Following the original Greek meaning of Photography (Greek φῶς, phos, genitive: φωτός, photos, "light" (of the luminary), "brightness" and γράφειν, graphein, "drawing", "carve", "create", "write") it is a symbiosis of light art and photography. The main difference from other light painting or light writing, it has been claimed,[23] is the role of the background in the photo.[clarification needed] Locations in the natural landscape or amongst buildings, such as industrial ruins, are carefully researched for distinctive backgrounds for each composition and LED-lamps are often used for contrasting cold and warm light to emphasize the existing structures. Collaboration is usually required in the performance of the work, with one person creating light figures and structures while the other operates the camera. In collaboration with Jörg Miedza, JanLeonardo founded the project LAPP-PRO.de that further developed the technique until in 2011, the pair disassociated. LAPP has grown internationally since its inception.[25][23]

In 2012, Reid Godshaw created an artistic identity known as "Harmonic Light", creating portraits of people around the world at events and festivals, asking questions to get in tune with subjects' personalities, intentions and motivations to change the world. The work combines many self-taught methods of creating imagery using lasers, custom made LED POV brushes and wands, power drills, handheld RGB flashlights, fiber optics, and even lasers to create a meaningful connection of time and space that embodies how people feel. Godshaw has created imagery at many events around the world including The Grammys in 2019 and over 100 festivals[citation needed].

Techniques

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Light painting on the road

Light painting using handheld lights to selectively illuminate or colour parts of the subject or scene or to evenly light large architectural interiors has been used in professional photography since the 1930s as described by Leslie Walker[26] and Ansel Adams.[27] Light painting requires a slow shutter speed, usually at least a second in duration. Light painting can imitate characteristics of traditional painting; superimposition and transparency can easily be achieved by moving, adding or removing lights or subjects during or between exposures.

Projector light painting, by waving a white translucent flash diffuser in the light path of a portable projector, the continuous motion creates an invisible screen in the air for the projected image in the photo.

Light paintings can be created using a webcam.[clarification needed] The painted image can already be seen while drawing by using a monitor or projector. Another technique is the projection of images on to irregular surfaces (such as faces or buildings), in effect "painting" them with light. A photograph or other fixed portrayal of the resulting image is then made.

Kinetic light painting is achieved by moving the camera and is the antithesis of traditional photography. At night, or in a dark room, the camera can be removed from the tripod and used like a paintbrush. For example, using the night sky as the canvas, the camera as the brush and artificially-lit cityscapes as the palette. Putting energy into moving the camera by stroking lights,[clarification needed] making patterns and laying down backgrounds can create abstract artistic images. Also known as "camera drag" or "shutter drag".

There are five basic types of light painting or light drawing: Historically they have just been lumped into a category called light painting, there are subclasses of the different ways you can use a light recorder (aka camera) to make photographs of just light or adding subject matter into a light painting or light drawing. A distinction can be made between light painting and light drawings or subgroups of this type of work;

  1. Picasso's classic light drawing with a penlight published in Life magazine circa the 1960s.
  2. Light painting the subject in a totally dark room with a camera on a tripod, open the camera up and paint light onto the subject with a light source generally a small penlight.
  3. Long exposure with a camera fixed on a tripod. Open the camera up and paint light into the camera – draw light into the camera – use a strobe to freeze the subject, or illuminate the scene with different light sources.
  4. Ambient light and strobe. With handheld strobe separate from the camera – in your dark (night) environment – open hand held camera to create a low light expanded time image and set strobe off to freeze subject matter as most photographs do. The strobe is a very short blast of freezing light, and freezes intended subject.
  5. Pure Light – Light a Painting (Abstract); With an arrangement of fixed lights in a dark room or studio and a handheld camera – open the handheld camera up and move through the lights painting the light into the camera sensors. Yields images of just light as an abstract design. The reverse can be done with a fixed camera on a tripod and moving lights. Both drawing and painting. Any form of long exposure light art when moving the camera through space rather than the lights themselves is also known as "shutter drag" or "camera drag".

Sequential Wave Imprinting Machine (S.W.I.M.)

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Rotary S.W.I.M. (Sequential Wave Imprinting Machine) is one or more rows of addressable LEDs spun by a motor to display images, text, graphics, and graphs such as a plot of the rotating magnetic field of polyphase motor in polar stationary coordinates[28][29][30][31][32].
GIF animated photograph sequence depicting a modern version of S.W.I.M..
Modern version of S.W.I.M. made with light-emitting diodes, here displaying the electromagnetic radio wave emitted from a cellular telephone in real-time

In the 1960s and 1970s a row of computer-controlled light sources attached to a stick was waved back-and-forth or spun (by hand or on a motor) to sequentially "imprint" upon the naked eye (or cameras) images, text, graphics, and graphs (plots of mathematical or recorded or live functions), originally using incandescent lamps at high voltage for quick response, and this system was called S.W.I.M. (Sequential Wave Imprinting Machine).[33][34][35] Originally a radar system was used to track the position of the S.W.I.M. to appropriately index into the content so that if it was waved backwards the content played backwards, and if it was waved faster the content played faster, etc., such as to create "virtual" content overlayed in near perfect alignment with physical reality.[36][37] More modern versions of S.W.I.M. use SDR (Software-Defined Radio) combined with inertial measurement units to track position.[38]

Rotary S.W.I.M.

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When the S.W.I.M. is waved in a circular motion rather than reciprocally waved back-and-forth, the tracking system only needs to determine speed, but not direction, and is therefore much easier to implement, not requiring a quadrature detector or direction detector or the like. Such rotary S.W.I.M. is often mounted onto the shaft of a motor, so that it does not need to be waved back-and-forth by hand. In this configuration it can continuously display images, text, graphics, and graphs, such as a plot of the rotating magnetic field in the motor, or its rotor current, in coordinates in which the rotary motion of the motor is cancelled out, so as to make visible various functional aspects of the motor in real-time.[39] Rotary S.W.I.M. is also used for realtime visualization of audio, brain activity, and meditation.[40]

This technology is used commercially so that designers and engineers can visualize and understand a complete electric vehicle powertrain, and not just the motor to which the S.W.I.M. is attached.[41]

LED S.W.I.M.

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Early S.W.I.M. sometimes used colored bulbs, but in 1980, L.E.D.-based versions of the S.W.I.M. were made for both hand-held and wearable use to display images, text, graphics, and graphs in color, while the lower voltages made it safer and easier to use in teaching labs as well as near water and even underwater.[42][43][44]

Such displays are often attached to individual drones (e.g. rotors of drones) or make use of drone swarms.[45][46]

A spinning LED display.
Spinning (rotor) LED display

The term "persistence of vision display" or "POV display" has been used for LED display devices that compose images by displaying one spatial portion at a time in rapid succession, (for example, one column of pixels every few milliseconds).[47] A two-dimensional POV display is often accomplished by means of rapidly moving a single row of LEDs along a linear or circular path.[citation needed] The effect is that the image is perceived as a whole by the viewer as long as the entire path is completed during the visual persistence time of the human eye. A further effect is often to give the illusion of the image floating in mid-air. A three-dimensional POV display is often constructed using a 2D grid of LEDs which is swept or rotated through a volume.[48] POV display devices can be used in combination with long camera exposures to produce light writing.[49]

A common example of this can be seen in the use of bicycle wheel lights that produce patterns.[50]

Equipment

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Light painting made by spinning burning steel wool in an enclosed space

A variety of light sources can be used, ranging from simple flashlights to dedicated devices like the Hosemaster, which uses a fiber optic light pen.[51] Other sources of light including candles, matches, fireworks, lighter flints, steel wool, glowsticks, and poi are also popular.

A tripod is usually necessary due to the long exposure times involved. Alternatively, the camera may be placed on or braced against a table or other solid support. A shutter release cable or self-timer is generally employed in order to minimize camera shake. Color gels can also be used to color the light sources.

Some light painters make their own dedicated devices to create light trails over the photo background; this can include computer-controlled devices like the Pixelstick. These devices are often Arduino-controlled LED arrays that can render images that could not be made by drawing in the air with a single light source alone. LED lights, luminescent materials, pyrotechnics, fireworks and flashlights are also used.

Light painters also sometimes employ Persistence of Vision (POV) LED instruments, initially designed for flow art forms/performance art such as hula hoops, poi, Fiber optic whips, and staff. These high-speed POV LED wands, whips, and other flow tools are very effectively adapted as light painting brushes due to their focus on usability and maneuverability. Their utility is often further enhanced by the integration of accelerometers, remote control systems, as well as durability leading to much more comfort in creating complex imagery.

Important artists

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Awards and recognition

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See also

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References

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  1. ^ a b "History". Light Painting Photography. 8 December 2010.
  2. ^ Foresta, M. (1991). Tracing the Line: Art and Photography in the Age of Contact. Aperture (Archive : 1952–2005) (125), 16-23.
  3. ^ Anne Collins Goodyear; Jonathan Frederick Walz; Kathleen Merrill Campagnolo (January 2016). This is a portrait if I say so : identity in American art, 1912 to today. Contribution by Dorinda Evans. Bowdoin College Museum of Art in association with Yale University Press (published 2016). ISBN 978-0-300-21193-1. OCLC 989165304.
  4. ^ Carey, Ellen (Fall 2011). "At Play With Man Ray". Aperture. No. 204. p. 77.
  5. ^ Franks, Elizabeth Ellen. “Capturing Motion: A Catalog Raisonné of the Photomontage Works of Barbara Morgan 1935-1980.” MA Thesis, University of California Riverside, 2013.
  6. ^ Morgan, Barbara, and Marianne F. Margolis. Barbara Morgan: Photomontage. Dobbs Ferry, N.Y: Morgan & Morgan, 1980
  7. ^ ""Pablo Picasso" by Gjon Mili". VP Gallery. Archived from the original on 2009-01-26. Retrieved 2008-12-23.
  8. ^ Jäger, Gottfried; Reese, Beate; Krauss, Rolf H (2005). Concrete photography = Konkrete fotografie. Kerber Verlag. ISBN 978-3-936646-74-0.
  9. ^ Eric Staller – Light Drawings
  10. ^ "Light Painting Photography History". Light Painting Photography. 8 December 2010. Retrieved April 3, 2020.
  11. ^ "Light Painting Historical Catalogue (part two)". Light Painting World Alliance (LPWA). 8 November 2023.
  12. ^ Steve Mann (2016). "Surveillance (Oversight), Sousveillance (Undersight), and Metaveillance (Seeing Sight Itself)" (PDF). The IEEE Conference on Computer Vision and Pattern Recognition (CVPR) Workshops. IEEE. pp. 1–10.
  13. ^ Campus Canada, ISSN 0823-4531: p. 55, Feb-Mar 1985; pp. 58-59, Apr-May 1986; and p. 72, Sep-Oct 1986.
  14. ^ Impulse, ISSN 0315-3649, Volume 12, Number 2, 1985
  15. ^ Mann, S. (1997). Wearable computing: A first step toward personal imaging. IEEE Computer, 30(2), pp. 25-32.
  16. ^ Godshaw, Reid (2016). "The Art and Science of Light Painting". The STEAM Journal. 2 (2). Article 23. doi:10.5642/steam.20160202.23.
  17. ^ McRee, Claire (2016). "The Multivalent Subject: Photographic Approaches to Allentown". Allentown X7 Photographic Explorations. Allentown Art Museum of the Lehigh Valley. ISBN 978-1-882011-65-0.
  18. ^ Vicki DaSilva
  19. ^ Vicki DaSilva – Light Graffiti
  20. ^ Vicki DaSilva – Light Painting – Interiors
  21. ^ Vicki DaSilva – Light Painting – Exteriors
  22. ^ Satō, Tokihiro; Siegel, Elizabeth (2005). Photo respiration : Tokihiro Sato photographs (1st ed.). Chicago: Art Institute of Chicago. ISBN 978-0-86559-217-9. OCLC 718345388.
  23. ^ a b c JanLeonardo Woellert & Joerg Miedza – Faszination Lichtmalerei: Die Kunst der Light Art Performance Photography, 09/2010, dpunkt Verlag, ISBN 978-3-89864-669-7 (German)
  24. ^ Anonymous. (2016). IN TERMS OF ART. Art and AsiaPacific (100), 98-109.
  25. ^ "Interview". Canon Professional Network. Canon. February 2009.
  26. ^ Walker, Leslie C (1940). The technique of painting with light. The Nash-Jones publishing company. Retrieved 17 March 2016.
  27. ^ Adams, Ansel; Baker, Robert (1981). The negative (1st ed.). New York Graphic Society. p. 174. ISBN 978-0-8212-1131-1.
  28. ^ Mann, Steve (Oct 1985) Rotary S.W.I.M. (Sequential Wave Imprinting Machine), Impulse, 12(2), ISSN 0315-3694, 471 Richmond Street West, Toronto, Ontario, M5V 1X9
  29. ^ Mann, Steve (1985), "Campus Canada", ISSN 0823-4531, p55 Feb-Mar 1985, pp58-59 Apr-May 1986, p72 Sep-Oct 1986"
  30. ^ Mann Steve (1992), "Wavelets and Chirplets: Time-Frequency Perspectives, With Applications", Archibald, Petriu, Editor, "Advances in Machine Vision, Strategies and Applications", World Scientific, World Scientific Series in Computer Science, Vol. 32, Cover and pp 99-128, New York, ISBN 981-02-0976-2
  31. ^ Mann, Steve, Danson Evan Garcia, Phillip V. Do, Derek Lam, and Pete Scourboutakos. "Moveillance: Visualizing electric machines." In 2020 22nd Symposium on Virtual and Augmented Reality (SVR), pp. 420-424. IEEE, 2020.
  32. ^ Mann, Steve, Jaden Bhimani, Calum Leaver-Preyra, Kyle Simons, and Jimi Tjong. "Powertrain photography and visualization using SWIM (Sequential Wave Imprinting Machine) for veyance safety." In 2022 IEEE International Conference on Vehicular Electronics and Safety (ICVES), pp. 1-8. IEEE, 2022.
  33. ^ S. Mann, Campus Canada, ISSN 0823-4531, p55 Feb-Mar 1985, pp58-59 Apr-May 1986, p72 Sep-Oct 1986.
  34. ^ Wavelets and Chirplets: Time-Frequency Perspectives With Applications, S. Mann, 1992, DOI: 10.1142/9789814355841_0006 in "Advances in Machine Vision, Strategies and Applications", editors Archibald and Petriu, World Scientific, Singapore . New Jersey . London . Hong Kong, World Scientific Series in Computer Science – Vol. 32, ISBN 981-02-0976-2, Vol. 32.
  35. ^ Intelligent Image Processing, S. Mann, 2001, John Wiley and Sons textbook, Wiley Interscience Series.
  36. ^ Wavelets and Chirplets: Time-Frequency Perspectives With Applications, Steve Mann, 1992
  37. ^ Mann, S. (2018, August). Phenomenological augmented reality with the sequential wave imprinting machine (swim). In 2018 IEEE Games, Entertainment, Media Conference (GEM) (pp. 1-9). IEEE.
  38. ^ Mann, S., Do, P. V., Lu, Z., & Lau, J. K. (2020, April). Sequential wave imprinting machine (SWIM) implementation using SDR (software-defined radio). In 2020 seventh international conference on software defined systems (SDS) (pp. 123-130). IEEE.
  39. ^ Mann, S., Garcia, D. E., Do, P. V., Lam, D., & Scourboutakos, P. (2020, November). Moveillance: Visualizing electric machines. In 2020 22nd Symposium on Virtual and Augmented Reality (SVR) (pp. 420-424). IEEE.
  40. ^ Bhargava, A., O’Shaughnessy, K., & Mann, S. (2020, October). A novel approach to eeg neurofeedback via reinforcement learning. In 2020 ieee sensors (pp. 1-4). IEEE.
  41. ^ Mann, S., Bhimani, J., Leaver-Preyra, C., Simons, K., & Tjong, J. (2022, November). Powertrain photography and visualization using SWIM (Sequential Wave Imprinting Machine) for veyance safety. In 2022 IEEE International Conference on Vehicular Electronics and Safety (ICVES) (pp. 1-8). IEEE.
  42. ^ Intelligent Image Processing
  43. ^ "Extended Reality", S. Mann and C. Wyckoff, MIT 4-405, 1991.
  44. ^ Mann, S., Sadrzadeh-Afsharazar, F., Khaki, S., Lu, Z., Mann, C., & Bhimani, J. (2022, March). Waterhci part 1: Open water monitoring with realtime augmented reality. In 2022 IEEE International Conference on Signal Processing, Informatics, Communication and Energy Systems (SPICES) (Vol. 1, pp. 49-54). IEEE.
  45. ^ Mann, S., Lu, Z., Sadrzadeh-Afsharazar, F., Mann, C., Khaki, S., & Bhimani, J. (2022, March). WaterHCI Part 2: Open water sensing, meta-sensing, and observing with drones and augmented reality. In 2022 IEEE International Conference on Signal Processing, Informatics, Communication and Energy Systems (SPICES) (Vol. 1, pp. 378-383). IEEE.
  46. ^ Mann, S., Khaki, S., Bhimani, J., Verges, G., & Sadrzadeh-Afsharazar, F. (2021, October). Drone-based sensing and exploration of overhead electric power lines. In 2021 IEEE 4th International Conference on Power and Energy Applications (ICPEA) (pp. 76-81). IEEE.
  47. ^ "POV – The Persistence of Vision Principle". POV Globe Project. 2015. Archived from the original on 2020-10-22. Retrieved 2021-06-26.
  48. ^ Ruggeri, Luca (2017-06-14). "DIY an Amazing 3D POV Holographic Display!". Open Electronics. Archived from the original on 2017-08-28. Retrieved 2021-06-26.
  49. ^ Sierzputowski, Kate (2015-07-29). "Photographer Stephen Orlando Captures the Movement of Musicians Through Light Painting". Colossal (blog). Archived from the original on 2015-08-02. Retrieved 2021-06-21.
  50. ^ Bushwick, Sophie (2014-10-24). "DIY: How To Light Up Your Bike Wheels [Video]". Popular Science. Camden Media. Archived from the original on 2015-08-29. Retrieved 2021-06-26.
  51. ^ Greenspun, Philip (January 2007). "Studio Photography". Photo.net. Archived from the original on 2007-09-29. Retrieved 2007-09-26.
  52. ^ "Deutscher Preis für Wissenschaftsfotografie 2008 – 1. Platz" (PDF). Archived from the original (PDF) on 27 December 2014. Retrieved 18 November 2014.

Further reading

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  • JanLeonardo Woellert & Joerg Miedza (2011). Painting with Light: Light Art Performance Photography (English ed.). Rocky Nook. ISBN 978-1-933952-74-1.
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