Identifying where noisy PRVs interfere with logger noise measurements improves deployment efficiency.
Loggers that become disconnected from their fittings can transmit misleading data representative of the noise it can detect from the bottom of a chamber.
Where loggers are placed on sections of network that have never burst, are they delivering value for money?
By comparing timelines of bursts and repairs, acoustic loggers’ performance can be validated.
Where a logger’s signal cannot be detected, the logger is not delivering value for money.
Heavy industrial users are another common source of ambient noise that can reduce a logger’s utility when placed too close.
It is not uncommon to find that not all fixtures on a network can be logged. Determining the extent to which a network can be effectively covered informs decision making.
It is not uncommon to find that not all fixtures on a network can be logged. Determining the extent to which a network can be effectively covered informs decision making.
Radar automatically assesses which assets will deliver the most cost effective route to maximum achievable coverage.
Radar automatically assess which assets on a network will deliver the most cost effective route to maximum achievable coverage.
Radar automatically assess which assets on a network will deliver the most cost effective route to maximum achievable coverage.