Falsing

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In telecommunications, falsing describes a decoder assuming that it is detecting a valid input when one is not present. This is also known as a false decode. To make the concepts simpler, this article will discuss analog circuits used before digital signal processing.

Examples of decoder falsing include:

  • a telephone answering machine detecting dial pulses from a rotary dial as ringing voltage. The result being that the answering machine answers in response to dialing.
  • a two-way radio with an enabled CTCSS decoder turns on the receive audio for one or two syllables of a signal with a close-in-tone-frequency (but wrong) CTCSS tone. The person listening to the radio occasionally hears nonsense partial words from the receiver's speaker: "et"... "up"...
  • a ringy telephone circuit with SF single-frequency signaling and poor level discipline drops calls because it sees harmonic frequencies or the distorted waveform as a valid "circuit idle" or "on-hook" SF signal.
  • power line transients cause a telemetry decoder to momentarily decode the power line noise as a false "turn-on" command, causing a remote-controlled water well pump to cycle on and off needlessly.

Analog tone decoders used in telephone and two-way radio systems are designed to work in a balance between expensive, complicated filtering and low cost simplicity. The engineering problem is to make the simplest circuit that will work reliably. A decoder generally tries to filter audio input to strip off every audio component except a sought-after, specific tone. In part, a decoder is a narrow bandpass filter. A signal that gets through the narrow filter is rectified into a DC voltage which is used to switch something on or off.

Falsing sometimes occurs on a voice circuit when a human voice hits the exact pitch to which the tone decoder is tuned, a condition called talk-off.

For the tone decoder to work reliably, the audio input level must be in the linear range of audio stages, (undistorted). A 1,500 Hz tone fed into an amplifier that distorts the tone could produce a harmonic at 3,000 Hz, falsely triggering a decoder that is tuned to 3,000 Hz.

Reducing the possibility of falsing

Some systems that use tone signaling require higher reliability and less probability of falsing. One method of reducing falsing uses formats with simultaneous, paired tones. In decoding dual tones such as ICAO's SelCall, Quik Call I, MF, or DTMF, pairs of decoders are used and their outputs are connected to logical and cicuitry. When tones are decoded, they are submitted to the and logic. If both are decoded at the same time, the and logic output shows a decoded pair of tones is present. To false in a dual-tone system, both decoders would have to false at the same moment. Two-out-of-five code and similar methods provide an additional check in some applications.

Another method is to subject tone decoding to a time constraint. In the case of Quik Call I or a string of DTMF digits, the falsing would have to occur in the exact order required to actuate the decoder. This is much more improbable than falsing in a single tone decoder. In two-tone sequential, tone and voice radio paging, decoders are actuated by decoding one tone and then a second in the proper sequence. Falsing could only occur if the two decoders falsed in a valid sequence within the decoder's time constraints. Examples of systems of two-tone sequential paging are Motorola Quik Call II, General Electric Mobile Radio Type 99, and later-model Plectron receivers.

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