Laser harp

A laser harp is an electronic musical instrument consisting of several laser beams to be blocked, in analogy with the plucking of the strings of a harp, in order to produce sounds. It was invented by Bernard Szajner (Patent: FR2502823 (A1) Date de priorité : 1981-03-27)[1] and popularized by Jean Michel Jarre, and has been a high profile feature of almost all his concerts since 1981. In recent times, a very similar version has also been used in concerts by British electronic musician Little Boots.

It has subsequently been used in a number of different designs, including a MIDI version invented by Philippe Guerre, and a recent one created by Yan Terrien. They have also been used in public art installations such as those created by Jen Lewin on display at Lincoln Center in 2000 and Burning Man 2005.

Contents

Design

Unframed style, also known as "Infinite Beam" laser harps

This style of laser harp is generally built using a single laser, splitting its beam into an array of beams in parallel or fan arrangement. Playing the actual sound is usually handled by connecting the laser harp to a synthesizer, sampler or computer.

This frameless design is somewhat more elaborate than the Framed style, relying on the light being reflected back to a single photodiode. The fan of laser beams is actually a single beam being scanned into a fan pattern. By matching the timing of the reflected beam, it can be determined which of the beams is being blocked and which note needs to be heard. Alternative designs make use of multiple lasers; in these designs, each laser can be independently controlled (pulsed on and off) to simulate playback of prerecorded notes.

In order to generate more control data, such as a continuous range of values like those found in many MIDI controllers, several approaches are available:

Other possibilities no doubt exist. Each of these possibilities poses particular challenges and costs, though the first one is relatively inexpensive and straightforward to implement, and can use the same microcontroller which drives the lasers and reads the detectors.

The advantage of using a dedicated sensor mechanism is that the instrument can be self-contained, as opposed to requiring a computer to control it when an ILDA interface and USB camera are used. On the other hand, the PC-based approach offers more flexibility and can be constructed using mostly off-the-shelf hardware.

Unframed laser harps benefit from the use of higher-power lasers, as they facilitate easier detection by the sensor system. As the sensor is exposed to all ambient light, it can get swamped out by stage lighting behind the artist if the sensitivity is too high. Companies Kromlaser.[2] and Prolight[3] that makes Laser Harp controller, successfully avoid this problem, with ambient light and made sensor almost light independent. The use of (white or light-coloured) gloves improves the instrument's performance by allowing more light to scatter off the player's hands and therefore provide the sensor with a higher signal-to-noise ratio with respect to ambient light. Furthermore, the gloves protect the player's skin from potentially hazardous laser radiation and give audiences a more visual impression of the instrument being played.

in 2005 Franck Morisseau A.K.A. Genesis an French electronic engineer has invented a stand alone ILDA full color MIDI in/out laser harp controller and share this project on the internet[4] [5] [6]. The harpelaser.com domain was created for this project. [7]

In 2008 Maurizio Carelli, an Italian software and electronic engineer, has invented a new portable two-colors laser harp, named "KromaLASER KL-250" with only 80-100 mW Laser Beams, for the company: Kromalaser.[8] This was a prototype. After that experience he developed the definitive and powerful version of laser harp named "KromaLASER KL-450". The device features a configurable full octave with green beams for any diatonic note and red ones for any chromatic note for full Diatonic and Chromatic scale.[9] In the second half of 2010, he has also invented a full color version of the device, fully "plug & play" and Daily Light independent, standalone models (with 1W Laser) named KL-PRO. Moreover he created also a model capable to drive ILDA laserscanners using also Blue Color realizing the first multi-color laser harp controller: KL-Kontrol which prototype's name was: KL-ILDA (Copyrighted in July 2010) [10]

In February 2010 the laser harps of M.Carelli, where shown in the WIR-IN-MILAN show[11]

In September 2010 during Sound and Multimedia Fair[12] in Zagreb Croatian company Prolight made world premiere of ILDA Laser Harp Controller. It was award winning performance, and Prolight Laser Harp Controller gain huge success.

In January 2011 world's first full color laser harp[13] controller for ILDA compatible laser projectors was commercially introduced named Prolight[14][15] Laser Harp Controller LH1 and next month new Laser Harp dedicated web page was made. Prolight Laser Harp Controller LH1 is fully plug&play, daily light independent, polyphonic Laser Harp Controller which can work with any type of ILDA compliant laser projector, turning it into laser harp.

Users can switch between several modes with different number of beams as well as several beam color combinations including full color rainbow mode, bi-color, and single color combinations. Prolight Laser Harp Controller's design does not include a built-in laser projector, which enables the users to freely choose their own laser setup for every performance, whether they need a less powerful laser projector for indoor events or a high-powered laser for open air performances. It can be used with monochrome lasers or full color lasers as well.

Unframed style, "Image recognition" laser harp

The image recognition laser harp is also an unframed design, but uses a high-speed USB camera connected to a laptop computer, instead of a photodiode to detect the reflected light from the hand breaking the beam. The digital picture is analyzed by the computer software to determine which beam is broken and send the appropriate MIDI signal back to the synthesizer, which is responsible for creating the sound. The computer also controls the laser projector via an ILDA USB laser controller.

Framed style

The framed style, which is often created to look like a harp with strings, uses an array of photodiodes or photoresistors inside the upper or lower part of the frame to detect blocking of the laser beams.The lasers can be mounted on the 'neck' or upper side of the harp, shining down, or on the body, shining up. Typically, the lasers used are very low-powered 5 mW red or green lasers, which are considered safe for public interaction by the FDA. Any number of laser beams can be arranged in this type of laser harp, from as few as one or two, up to 32 or more, depending on the capacity of the MIDI controller(s) and software being used. This style of Laser Harp can be created in any size, from a lap sized harp to a room sized installation, or larger, like the installations seen at Burning Man. In this design, only an analog DC (on/off) trigger is created by the breaking of the beam (and the DC circuit made by the beam shining on the optic sensor), which is sufficient to trigger any number of events (musical or otherwise) as determined by the data analyzer/software in question. In the MIDI controller, this analog DC current interruption is converted to a digital signal, which is then used to trigger many possible events or actions. Some software comes equipped with full wave file editors and synthesizers, and can also trigger video and still imagery via projection units.

Typical framed style laser harp software functions

Play Modes:

Switch Modes:

All beams do not have to be set to the same Play or Switch Mode - each beam may be set up differently.

Safety considerations

In order to produce laser beams visible in normal air, a relatively powerful laser is needed; at least about 20 mW of power, depending on the type of laser and the design of the instrument, is required in order to produce a visible array of beams. However, a considerably more powerful laser is needed to yield spectacular results, generally 500 mW or more. In any case, class IIIb or IV lasers will usually be necessary, introducing a significant risk of skin and eye damage unless precautions (gloves and protective glasses) are taken.

Use in Jean-Michel Jarre concerts

The laser harp is one of the most famous instruments used by Jean Michel Jarre in his concerts. The original laser harp was made by Geoffrey Rose in 1975/6 and he coined the name laser harp at that time. Bernard Szajner patented the Laser Harp (Patent: FR2502823 (A1) Date de priorité : 1981-03-27)[16] that Jarre used for The Concerts In China tour for a track simply titled Laser Harp (or Harpe Laser in its original French), the instrument is used in almost every concert with the exception of Aero and the Oxygene 30th Anniversary Tour. It is almost always used in the second part of Second Rendez-Vous, but has also been used for tracks including Third Rendez-Vous, Chronologie 3, Calypso 2, and Oxygene 7. The characteristic sound of the laser harp in Jarre's performances is generated by a factory preset on the Elka Synthex[17][18] synthesizer.

Some people suspect the laser harp, as well as some other custom instruments, is a fake; careful inspection of concert footage of Jarre playing the harp occasionally indicates that striking the same beam produces different notes, suggesting that the harp is simply designed to trigger the next correct note irrespective of which beam is broken. However, this method is unreliable, as videos are invariably edited before release. As an example, in the live recording of the Paris La Défense concert as broadcast on the Europe 2 radio station, it can be clearly heard that the laser harp is malfunctioning, and in fact after a while gets replaced by a different synthesizer. In the video release, no trace is left of this malfunction. Also the harp is fitted with foot pedals for selecting scales, making it quite plausible that the same beam can house different notes.

During Jarre's 2009 In-doors Arena Tour, he commented on his blog that he "should make a few intentional mistakes for people to really understand that it is live".[19] Later the same day, at a concert in Helsinki, the harp "suddenly froze in Rendez Vous 2 for unknown reasons".[20][21]

Several amateur electronics enthusiasts have created their own versions of the laser harp.

See also

References

  1. ^ "Laser Harp Patented by Bernard Szajner". Laser Harp Patent - Patent Office of Paris. http://fr.espacenet.com/publicationDetails/originalDocument?CC=FR&NR=2502823A1&KC=A1&FT=D&date=19821001&DB=fr.espacenet.com&locale=fr_FR. Retrieved 14 September 2011. 
  2. ^ "Kromalaser: Laser harp MIDI controller for ILDA compliant laser projectors with light independent sensor". 2011-02-02. http://www.kromalaser.com/laser-harp-kl-kontrol. Retrieved 1 May 2011. 
  3. ^ "Prolight Laser harp MIDI controller for ILDA compliant laser projectors with light independent sensor". 2011-02-02. http://www.laser-harp.com. Retrieved 1 May 2011. 
  4. ^ "PROJET : Harpe laser". http://www.laserfreak.net/forum/viewtopic.php?t=37151. 
  5. ^ "PROJET : Harpe laser". http://soj.mesdiscussions.net/soj/Electronique/Montage/projet-harpe-laser-sujet_4008_1.htm. 
  6. ^ "Harpe laser". http://www.harpelaser.com. 
  7. ^ "harpelaser.com domain creation date". http://www.raynette.fr/services/whois/index.php?action=domain_info&domain=harpelaser.com. 
  8. ^ Company's Domain (2008-10-11). "Kromalaser's Domain Creation Date for Laser Harp: kromalaser.com". http://reports.internic.net/cgi/whois?whois_nic=kromalaser.com&type=domain. Retrieved 1 May 2011. 
  9. ^ Maurizio Carelli (2010-01-18). ""Kromalaser Hymn" played with Bi-Color Laser Harp". http://www.youtube.com/watch?v=GDkD1vwZPUg. Retrieved 2010-03-07. 
  10. ^ Multi Color, ILDA Controller. "M.Carelli Laser Harp project's History". http://www.kromalaser.com/laser-harp-arpa-laser-project. Retrieved 12 May 2010. 
  11. ^ Multi Color, Laser Harp. "ref. WiR-in-Milan Swho 2010 M.Carelli Laser Harp". http://www.posermag.com/blog/2010/02/24/wirinmilan-27022010/. Retrieved 08 Jun 2010. 
  12. ^ "Award winning Prolight Laser Harp Controller". http://www.prolight.hr/en/news/news_item-6-award-winning-performance-at-the-international-autumn-fair-2010. 
  13. ^ ""Enter Sandman" played on Full Color Laser Harp by Famous Harpist player Doris Karamatic". http://www.youtube.com/prolight#p/u/1/sX90nKWuAus. 
  14. ^ Company's Domain creation related to the laser harp (2008-10-11). "Prolight's Domain Creation Date for the laser harp as product". http://reports.internic.net/cgi/whois?whois_nic=laser-harp.com&type=domain. Retrieved 1 May 2011. 
  15. ^ Company's Domain (2001-02-02). "Prolight's Domain Creation Date". http://whois.com.hr/domena/prolight.hr. Retrieved 1 May 2011. 
  16. ^ "Laser Harp Patented by Bernard Szajner". Laser Harp Patent - Patent Office of Paris. http://fr.espacenet.com/publicationDetails/originalDocument?CC=FR&NR=2502823A1&KC=A1&FT=D&date=19821001&DB=fr.espacenet.com&locale=fr_FR. Retrieved 14 September 2011. 
  17. ^ JMPSynth (2009-04-01). "Elka Synthex Sounds". http://www.youtube.com/watch?v=7EmNBrIt_CE. Retrieved 2009-04-01. 
  18. ^ Wavebox2011 (2011-02-27). "Elka Synthex Laser Harp". http://www.youtube.com/watch?v=zLOq-BUtjFQ&feature. Retrieved 2011-02-27. 
  19. ^ Jean Michel Jarre (2009-05-16). "Scandinavian ellipsis". http://aerojarre.blogspot.com/2009/05/scandinavian-ellipsis.html. Retrieved 2009-05-25. 
  20. ^ Jean Michel Jarre (2009-05-17). "Flash back". http://aerojarre.blogspot.com/2009/05/flash-back.html. Retrieved 2009-05-25. 
  21. ^ Jean Michel Jarre (2009-05-26). "Freezing laserharp @1:08". http://www.youtube.com/watch?v=wxa8ZctOsBU&feature=channel. 

External links

Companies

Amateurs