This research discusses a more efficient geospatial monitoring technique for city infrastructure
networks. It will concentrate on polyethylene city infrastructure materials, where power, water and
communication networks are covered or protected by polyethylene materials. A technical comparison
is conducted between current and proposed geospatial monitoring techniques in order to develop an
overall performance evaluation. The mobile laser scanning technology achieved the best performance
evaluation, where detailed data analysis and collection, mobile laser missions, modeling and
interpretation, and system geometrical corrections for location and orientation have also been
conducted. Prior to conducting the performance evaluation, the research investigates mobile laser
behavior and recognition capabilities with respect to Polyethylene City infrastructure materials. After
analyzing the mobile laser pulses behavior, and its correlations with the mission ground speed and
exposed scanned surface, it is concluded that the mobile laser pulses response is constant for the
Polyethylene City infrastructure materials. The concluded mobile laser pulses constant is utilized to
develop a mathematical model for re-planning the mobile laser scanning missions to obtain the best
model for monitoring the Polyethylene City infrastructure networks
