Heavy Vehicle Guidance
The mining and constructions industries today rely very heavily on GPS monitoring, tracking and navigational data and this also is primarily because highway constructions, surveyors and marker pegs are actually replaced with in-cabin vehicle guidance and control systems for excavators, graders, bulldozers and road paving machines.
These modern and advanced specialty vehicles enable their trained drivers to program their vehicles to answer pre-programmed site plans, thereby enabling the vehicles to realize close tolerance parameters for position, level and gradient. GPS technology is specifically integrated for high-precision applications in open-cut mines like vehicle and equipment tracking and mine asset management. In such hi-technology integrational applications, GPS critical details are acquisitioned and decoded by sophisticated IT systems and meshed to engineering applications to supply multifunction guidance and control. Companies that have integrated their vehicles and mine management systems include Leica Geo-systems, Topcon Positioning Systems and Trimble / Caterpillar.
Surveying, Mapping and Geophysics
Advanced GPS survey-grade technology utilize L1 and L2 signal frequencies to rate survey markers, buildings, bridges, airports, harbors, railway stations and various other large infrastructures. This technology can also be used to determine aerial mapping, terrain data, with the Geographical Information System (GIS) applications.
GPS is traditionally used in the purchase of terrain and aerial mapping data, sensitive physical formations like volcanoes and earthquake fault lines along with the tracking / monitoring of seismic and incipient activities. This important seismic information is transmitted to TV along with other news channels for early warnings for the public to ensure adequate precautionary measures are taken well over time.
One with the major highlights inside characteristics of GPS satellite technology could be the accuracy, reliability and stability from the synchronicity of their technology this also has confirmed to be very compatible for telecommunications applications. It has been observed that GPS synchronized technology enables adequate synchronization of Coordinated Universal Time (UTC) time throughout the resolution of signals from discrete atomic clocks at specified locations. Although ground-based Chip Scale Atomic Clocks (CSAC) can be accurate for this specific purpose, the synchronization in the CSACs is reasonably problematic devoid of the GPS satellite technology.
As your neighborhood and international finance industry is fast globalizing, the international finance system that permits, governs, schedules and prioritizes digitalized monetary transactions, funds transfers and audit trails has become more and more contingent upon high precision time systems. Today, 80% with the millions of daily global retail transactions are carried out through credit and an atm card. GPS satellite technology integrates perfectly with on-board atomic clocks so that you can allow high-speed and high precision local and global transactions.