Why Is Binary Modulation Preferred in Visible Light Communication?

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Discussion Overview

The discussion revolves around the preferences and challenges of using binary modulation in visible light communication (VLC) compared to radio wave modulation. Participants explore the technical limitations of modulating visible light and the methods currently employed in VLC.

Discussion Character

  • Technical explanation
  • Debate/contested
  • Exploratory

Main Points Raised

  • Some participants note that VLC typically uses toggling LEDs ON/OFF to represent binary data, questioning why visible light cannot be modulated like radio waves.
  • Others argue that the frequency of visible light is too high for current electronics to respond effectively, limiting modulation capabilities.
  • One participant suggests that while electronics are designed for lower frequencies, it raises the question of whether compatible electronics could be developed for visible light modulation.
  • A participant explains that the modulation of radio signals relies on electronics that can respond to the frequency, while visible light oscillates too quickly for electrons to respond, thus hindering signal propagation.
  • Another participant mentions that intensity modulation of light can be achieved by driving LEDs with a current proportional to an audio signal, but emphasizes that digital transmission can be more resistant to interference.
  • Amplitude modulation is acknowledged as a common technique in optical communication, but other modulation methods are also in use, with a reference to a paper on modulation schemes in optical fiber links.
  • One participant questions whether modulation in fiber optics still relies on the original laser light or another source for mixing and interference during modulation/demodulation.
  • Concerns are raised about the limitations of analogue transmission due to non-linearity of emitters and sensors, with pulse width modulation suggested as a viable analogue modulation method that can handle binary levels effectively.

Areas of Agreement / Disagreement

Participants express a mix of agreement on the challenges of modulating visible light and the methods used in VLC, but there remains uncertainty regarding the feasibility of developing new electronics for this purpose and the effectiveness of various modulation techniques.

Contextual Notes

Participants highlight limitations related to the response of materials to high-frequency signals and the non-linearity of components in analogue transmission, which may affect the performance of modulation techniques.

RAHIL008
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I read that for VLC, they use toggling the LEDs ON/OFF to represent binaries. Why cannot we modulate the visible light like radio waves.
 
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The frequency is far too high for electronics to respond, so we aren't able to modulate a signal in the same way we can with a radio wave.
 
I guess that is because "electronics" are made to handle lower frequencies of radio waves. Why cannot we make compatible electronics.?
the question is, can we modulate light? Handling is different issue.
 
Modulating and handling go hand in hand. To modulate a radio signal, the signal is generally created by the electronics and sent through the wires, whose electrons are able to respond to the frequency. Visible light oscillates too quickly for the electrons to respond, and since all materials depend on electrons to carry the signal, if they can't oscillate back and forth with the signal then the signal can't propagate. There aren't any materials that can handle light because there are no particles other than electrons that can carry an electric signal. So we can't make new electronics because the materials simply don't exist.
 
Hmm...got it...thanks :-)
 
RAHIL008 said:
I read that for VLC, they use toggling the LEDs ON/OFF to represent binaries. Why cannot we modulate the visible light like radio waves.
You can modulate the intensity of the light beam---by driving the LEDs with current that has a component proportional to the amplitude of the audio signal. But digital signal transmission can be made more immune to interfering sources, including sunlight.
 
As already said, amplitude modulation is often used in optical communication systems. However, other modulation techniques have been used as well. Here is a good paper from Stanford reviewing modulation schemes used in long-haul optical fiber links:

www-ee.stanford.edu/~jmk/pubs/mod.and.det.tech.COTA.6-06.pdf

:)
 
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Likes   Reactions: Drakkith
Thanks for the link, Berkeman, I wasn't aware we were using those modulation methods in fiber optics. Am I correct in assuming they are still using either the light from the original laser or from another source to mix with/interfere with the signal and perform modulation/demodulation?
 
Drakkith said:
Thanks for the link, Berkeman, I wasn't aware we were using those modulation methods in fiber optics. Am I correct in assuming they are still using either the light from the original laser or from another source to mix with/interfere with the signal and perform modulation/demodulation?
The LED or semiconductor laser can be pulsed on and off with its power supply.
 
  • #10
Analogue transmission by Amplitude Modulating light tends to be hampered by non linearity of emitters and sensors. Frequency Modulation is difficult, too. One form of modulation by an analogue signal is to use pulse width modulation. The level of the light signal is binary (switched on of off) - so linearity doesn't matter and the timing of beginning and ends of the pulses is easy to make proportional to the analogue signal you want to carry.
 

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