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Was (wer) ist Infrared Data Association - definition
INDUSTRY CONSORTIUM FOR THE IRDA STANDARD
IrDA; IrFM; IrDA port; Serial IR; Infrared port; Infrared eye; IrSS; IrDa; Infrared Data Transmission; IrCOMM; IR port
Infrared Data Association
<standard, body> (IrDA) A non-profit trade association
providing standards to ensure the quality and interoperability
of infrared (IR) hardware.
The association currently has a membership of over 160
companies from around the world, representing computer and
telecommunications hardware, software, components and
adapters.
IrDA typically uses direct infrared i.e. point-to-point,
line-of-sight, one-to-one communications. The standards
include: IrDA Data (SIR, FIR, VFIR), IrDA Control,
and AIR.
Ports built to the above standards can be found in products
such as PDAs, Palm devices, printers, desktop adapters,
notebooks, and digital cameras.
http://irda.org.
{IrDA Serial Infrared Interface
(http://cesdis1.gsfc.nasa.gov/linux/misc/irda.html) }.
Linux-IrDA support (http://cs.uit.no/linux-irda/).
(1999-10-14)
infrared
![Active-infrared night vision: the camera illuminates the scene at infrared wavelengths invisible to the [[human eye]]. Despite a dark back-lit scene, active-infrared night vision delivers identifying details, as seen on the display monitor.](https://commons.wikimedia.org/wiki/Special:FilePath/Active-Infrared-Night-Vision.jpg?width=200 "Active-infrared night vision: the camera illuminates the scene at infrared wavelengths invisible to the [[human eye]]. Despite a dark back-lit scene, active-infrared night vision delivers identifying details, as seen on the display monitor.")
![Infrared light from the [[LED]] of a [[remote control]] as recorded by a digital camera](https://commons.wikimedia.org/wiki/Special:FilePath/Blue infrared light.jpg?width=200 "Infrared light from the [[LED]] of a [[remote control]] as recorded by a digital camera")
![[[Beta Pictoris]] with its planet Beta Pictoris b, the light-blue dot off-center, as seen in infrared. It combines two images, the inner disc is at 3.6 μm.](https://commons.wikimedia.org/wiki/Special:FilePath/ESO - Beta Pictoris planet finally imaged (by).jpg?width=200 "[[Beta Pictoris]] with its planet Beta Pictoris b, the light-blue dot off-center, as seen in infrared. It combines two images, the inner disc is at 3.6 μm.")
![Materials with higher [[emissivity]] appear closer to their true temperature than materials that reflect more of their different-temperature surroundings. In this thermal image, the more reflective ceramic cylinder, reflecting the cooler surroundings, appears to be colder than its cubic container (made of more emissive silicon carbide), while in fact, they have the same temperature.](https://commons.wikimedia.org/wiki/Special:FilePath/Effect of emissivity on apparent temperature.jpg?width=200 "Materials with higher [[emissivity]] appear closer to their true temperature than materials that reflect more of their different-temperature surroundings. In this thermal image, the more reflective ceramic cylinder, reflecting the cooler surroundings, appears to be colder than its cubic container (made of more emissive silicon carbide), while in fact, they have the same temperature.")
![The [[greenhouse effect]] with molecules of methane, water, and carbon dioxide re-radiating solar heat](https://commons.wikimedia.org/wiki/Special:FilePath/Greenhouse-effect-t2.svg?width=200 "The [[greenhouse effect]] with molecules of methane, water, and carbon dioxide re-radiating solar heat")
![hair salons]], c. 2010s](https://commons.wikimedia.org/wiki/Special:FilePath/Hooded dryer for infrared hair drying at hair salon - shown from three perspectives.jpg?width=200 "hair salons]], c. 2010s")
![An infrared reflectogram of ''[[Mona Lisa]]'' by [[Leonardo da Vinci]]](https://commons.wikimedia.org/wiki/Special:FilePath/Infrared reflectograms of Mona Lisa.jpg?width=200 "An infrared reflectogram of ''[[Mona Lisa]]'' by [[Leonardo da Vinci]]")
![IR satellite picture of cumulonimbus clouds over the [[Great Plains]] of the United States.](https://commons.wikimedia.org/wiki/Special:FilePath/NOAA Shares First Infrared Imagery from GOES-17 (43904870711).gif?width=200 "IR satellite picture of cumulonimbus clouds over the [[Great Plains]] of the United States.")
![Thermography helped to determine the temperature profile of the [[Space Shuttle thermal protection system]] during re-entry.](https://commons.wikimedia.org/wiki/Special:FilePath/STS-3 infrared on reentry.jpg?width=200 "Thermography helped to determine the temperature profile of the [[Space Shuttle thermal protection system]] during re-entry.")
![false-color]] infrared space telescope image has blue, green and red corresponding to 3.4, 4.6, and 12 [[μm]] wavelengths, respectively.](https://commons.wikimedia.org/wiki/Special:FilePath/Wide-field Infrared Survey Explorer first-light image.jpg?width=200 "false-color]] infrared space telescope image has blue, green and red corresponding to 3.4, 4.6, and 12 [[μm]] wavelengths, respectively.")
ELECTROMAGNETIC RADIATION WITH LONGER WAVELENGTHS THAN THOSE OF VISIBLE LIGHT
Infra-red radiation; Infra-red; Infrared radiation; Near-infrared; Infrared Radiation; Infrared light; Near infrared; Infra-red light; Near Infrared; 1550 nm; LWIR; MWIR; Infra red; Infared; 1300 nm; Infrared spectrum; Infra Red; Infra-Red; InfraRed; Infrared sources; Long-wave infrared; Line of light; Infrared communication; Calorific rays; Calorific Rays; Mid-infrared; Infrared rays; Thermal infrared; Infra-red reflectography; Infrared reflectography; Infrared Rays; Infrared Ray; IR-A; IR-B; IR-C; IR radiation; NIR Photons; MIR photons; Short-wavelength infrared; Infrared bands; Short-wave infrared; Mid-wave infrared; Near-infrared light; Mid infrared; 830 nm; 850 nm; Thermal infrared radiation; Applications of infrared radiation; History of infrared science; Infrared source
<electronics> (IR) Electromagnetic waves in the frequency
range just below visible light corresponding to radiated heat.
IR waves can be generated by a kind of LED and are often
used for remote controls for televisions etc. and in some
docking stations.
(1997-01-30)
infrared
ELECTROMAGNETIC RADIATION WITH LONGER WAVELENGTHS THAN THOSE OF VISIBLE LIGHT
Infra-red radiation; Infra-red; Infrared radiation; Near-infrared; Infrared Radiation; Infrared light; Near infrared; Infra-red light; Near Infrared; 1550 nm; LWIR; MWIR; Infra red; Infared; 1300 nm; Infrared spectrum; Infra Red; Infra-Red; InfraRed; Infrared sources; Long-wave infrared; Line of light; Infrared communication; Calorific rays; Calorific Rays; Mid-infrared; Infrared rays; Thermal infrared; Infra-red reflectography; Infrared reflectography; Infrared Rays; Infrared Ray; IR-A; IR-B; IR-C; IR radiation; NIR Photons; MIR photons; Short-wavelength infrared; Infrared bands; Short-wave infrared; Mid-wave infrared; Near-infrared light; Mid infrared; 830 nm; 850 nm; Thermal infrared radiation; Applications of infrared radiation; History of infrared science; Infrared source
also infra-red
1.
Infrared radiation is similar to light but has a longer wavelength, so we cannot see it without special equipment.
ADJ: ADJ n
2.
Infrared equipment detects infrared radiation.
...searching with infra-red scanners for weapons and artillery.
ADJ: ADJ n
Wikipedia
Infrared Data Association
The Infrared Data Association (IrDA) is an industry-driven interest group that was founded in 1994 by around 50 companies. IrDA provides specifications for a complete set of protocols for wireless infrared communications, and the name "IrDA" also refers to that set of protocols. The main reason for using the IrDA protocols had been wireless data transfer over the "last one meter" using point-and-shoot principles. Thus, it has been implemented in portable devices such as mobile telephones, laptops, cameras, printers, and medical devices. The main characteristics of this kind of wireless optical communication are physically secure data transfer, line-of-sight (LOS) and very low bit error rate (BER) that makes it very efficient.
