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Thermal noise
Audio means that it is audible, in other words, that humans are capable of hearing, whereas sound extends beyond the human ear capabilities, like ultrasound which is higher pitched than what our ears can hear.
One person's interference is another person's signal ... literally. For example, in ordinary AM radio, signals on the same frequency as a local station, but coming from another city some distance away, may cause background sounds that make listening to the station difficult or unpleasant. In other cases, transmitters emit 'harmonics' of their intended radio signal, which overlay carriers on other frequencies producing a similar effect. There are many other causes and sources of interference. Noise is another matter however, although it also 'interferes' with the operation of systems. Ordinarily, noise is no one else's signal, that is, it does not carry any information. Sources of noise include automobile ignition systems, electric motors, and the Sun, among many other things. The result is the same as far as the signal of interest is concerned however - both noise and interference cause problems receiving the desired signal properly, whether by causing objectionable sounds in the background of a radio program, 'snow' on a (non-digital) TV display, or errors in digital reception or data transmission (which can cause the complete loss of a digital TV signal for example). Noise and interference are also problems in systems where there is no intent to transmit or receive a radio carrier. For example, in computer systems, traces on circuit boards or in cables move data from one place to another in order to carry out the functions of the system. When traces are placed next to each other over (relatively) long distances on the circuit board or in a cable, the impulses can couple into the adjacent traces causing errors in the data transferred, such as corruption of data files or malfunctions of programs. In this example, the source of the problem is technically 'interference', but noise can also occur within systems, for example from a defective power supply or a poor contact in a connector. Many techniques are widely used to avoid the problems of noise and interference, including shielding, twisted pair wiring, FM and PM modulation, and forward error correction (FEC) among others. --- Very lengthy explanation of something very simple, NOISE INTERFERENCE is really unwanted signals introduced by noisy parts. Interference, however, may come from radio, tv, magnetics, and many other sources, including blocking of the signals. --- (See discussion)
ANALOG:continuous,rate of transmission is slow,less reliable 2 transmit,more noise,interference is more DIGITAL:non continuous,rate of transmission is fast,more reliable 2 transmit,less noise,interference is less
There are at least 50 different possible sources of perceived interference to an FM radio. Most likely is electrical noise from a nearby motor, fluorescent light fixture, or light dimmer. That's my opinion; I could be wrong.
Data is information while interference is a noise being introduced from other sources. Thus, data interference is an information with noise and that its integrity can not be ascertained.
They dont make noise only interference
Is that the signal interference + noise ratio?
Noise that household appliances generate
Sound is a type of wave; therefore there can be both constructive and destructive interference. "Noise", among other things, may refer to any sound that is considered unpleasant. This need not be related to interference. For example, any sound that is too loud will be considered "noise".
hang up
Noise and interference are two terms used for unexpected, unknown and overcoming results of experiments
No. Fiber is immune to electrical interference; there is no cross-talk between signals in different cables and no pickup of environmental noise.
Funkentstört = suppressed (against noise or radio interference)
to produce interference pattern the sources should be coherent but two independent sources cannot produce such pattern. hence they won't produce interference fringes
No noise
Interference and noise are distinguished the same way in all situations not just optical communication. Noise is caused by random thermal effects or statistical effects to to the randomized distribution of electron flow. Interference is due to a system being sensitive to external perturbation, due to weather, dust, vibration etc.