Editing Near–far problem (section)

==Solutions==

In [[CDMA]] systems and similar [[cellular phone]]-like networks, the problem is commonly solved by dynamic output power adjustment of the transmitters. That is, the closer transmitters use less power so that the SNR for all transmitters at the receiver is roughly the same. This sometimes can have a noticeable impact on battery life, which can be dramatically different depending on distance from the base station. In high-noise situations, however, closer transmitters may boost their output power, which forces distant transmitters to boost their output to maintain a good SNR. Other transmitters react to the rising noise floor by increasing their output. This process continues, and eventually distant transmitters lose their ability to maintain a usable SNR and drop from the network. This process is called ''power control runaway''. This principle may be used to explain why an area with low signal is perfectly usable when the cell isn't heavily loaded, but when load is higher, service quality degrades significantly, sometimes to the point of unusability.

Other possible solutions to the near–far problem:
# Increased receiver dynamic range - Use a higher resolution ADC.  Increase the dynamic range of receiver stages that are saturating.
# Dynamic output power control – Nearby transmitters decrease their output power so that all signals arrive at the receiver with similar signal strengths.
# TDMA – Transmitters use some scheme to avoid transmitting at the same time.