Instruction manual

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Menus and Parameters

2-85

BreezeACCESS Version 4.3 System Manual

 Dwell Time (AU only) – The time spent on a radio channel before

hopping to the next channel according to the operational hopping

sequence.

The allowed selections are 32, 64 and 128 Kilo-microseconds.

The default value is 128 Kilo-microseconds.

When the ACSE Option is enabled this parameter is not applicable

and the dwell time is the ACSE Dwell Time, set to a fixed value of 60

milliseconds.

 Interference Avoidance Parameters: These parameters enable to

define the interference avoidance algorithm. The algorithm is

designed to minimize the probability of the modem identifying

interference as a possible desired signal. Such an occurrence should

be avoided, as locking on the interfering signal may disable the

modem from timely identifying the appearance of a desired signal.

Setting a certain level as a threshold below which signal are

considered as interference is not sufficient, since the energy in the

relevant spectrum of interfering signals may temporarily be well

above the threshold level. On the other hand, setting the threshold

at a higher level to overcome the effect of temporary occurrences of

high-level interferences is not a good solution, as it may cause the

unit to reject desired signals. The solution is a dynamic decision

algorithm that will follow temporary high-level interferences and

adjust the decision threshold accordingly.

There are two different algorithms; one for identifying transmissions

of messages initiated by another unit, and one for identifying

response from another unit to a message transmitted by the unit.

The algorithm for identifying transmissions of messages initiated by

another unit includes two settable parameters: Noise Floor and

Carrier to Interference Difference Level.

The Noise Floor parameter represents the equivalent noise level in

the neighborhood of the unit, including both the thermal noise and

average level of interference in the relevant spectrum.

Carrier to Interference Difference Level is the minimal difference

between the level that is defined as the Current Noise Level and the

level of a “good” signal (a signal that the unit should treat as a

possibly desired signal).

The modem of the unit continuously estimates the level of the

received energy at the relevant spectrum. The Current Noise Floor

is defined as follows:

If the last estimated energy level was lower than or equal to the

Noise Floor, then the Current Noise Floor is equal to the Noise

Floor.

If the last estimated level was above the Noise Floor, it can be either

interference or a possibly “good” signal. If it is lower than the last

Current Noise Floor, or if the difference from the last Current

Noise Floor is less than the Carrier to Interference Difference