Latest Articles

The Evolution of FLEPOS 3.0
Trimble

The Evolution of FLEPOS 3.0

A continuously operating reference station (CORS) provides GNSS data to support very accurate 3D positioning and additional geophysical applications. Flemish Positioning Services (FLEPOS) is the real-...

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Ask the Specialist: GPS Signal Tracking
GPS

Ask the Specialist: GPS Signal Tracking

Have you ever wondered about the GPS signal-tracking capabilities ‘L1P, L2E'? One of our readers asked our specialist for an explanation, and this is what he replied. We received the following quest...

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The Race to Resurface Silverstone
Topcon

The Race to Resurface Silverstone

Lead contractor Tarmac, along with its industry leading road planing business, NRP, racetrack specialist Dromo and project partner Topcon Positioning Group, combined expertise with innovative surveyi...

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Latest news

Galileo High Accuracy Service begins delivery

Galileo High Accuracy Service begins delivery

Galileo has begun the delivery of its High Accuracy Service (HAS), as officially announced by Thierry Breton, European Commissioner for the Internal Market. He described HAS as “feeding a prosperou...

ComNav Introduces Venus Laser RTK for Rodless Surveys

ComNav Introduces Venus Laser RTK for Rodless Surveys

ComNav Technology has launched a laser GNSS receiver which enables rodless surveys – the Venus Laser RTK – as part of its new Universe series of GNSS receivers. Surveyors in the field are often r...

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Positioning, in its essence, represents the meticulous process of accurately determining the spatial location of an object concerning a specific framework or datum. This fundamental concept of positioning plays an indispensable role in the domains of geography and hydrography, persistently guiding the quest to pinpoint the precise locations of the objects and features we seek to measure and understand.

Depending on the specific application at hand, the framework within which positioning occurs can be either of a global or local nature. When thinking on a global scale, the utilization of advanced techniques like Global Navigation Satellite Systems (GNSS) comes into play. In this scenario, the framework for positioning is meticulously defined by geodetic coordinate reference systems, ensuring the utmost accuracy in spatial determinations on a planetary scale.

Conversely, in more localized settings, positioning takes on a distinct character, tailored to the unique demands of specific tasks. For instance, in the realms of construction and engineering, the precision of positioning is paramount, and it's achieved through instruments such as the Total Station, allowing for the highly accurate alignment and placement of structures and infrastructure. Meanwhile, indoor navigation is another intriguing facet of local positioning, where the frameworks are often established within the confines of buildings, where technologies like indoor positioning systems enable precise and efficient navigation.

As we delve deeper into the world of positioning, it becomes evident that this art and science of location determination extends its influence far and wide, offering versatile solutions for diverse applications, all while maintaining an unwavering commitment to spatial accuracy.