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Healthy Workout for GNSS Technology
Esri

Healthy Workout for GNSS Technology

For some companies, giving back to the community is part of a day’s work. That certainly is the case with Dillon Consulting, a professional consulting organisation in Ontario, Canada, founded in 194...

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OS Net - Preparations for Future GNSS
GNSS

OS Net - Preparations for Future GNSS

Ordnance Survey (OS) has just updated its geodetic infrastructure. Mark Greaves, Lead Consultant at Geodesy, describes these developments and takes a look at shorter and longer-term geodetic issues fo...

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CHC Navigation Introduces i83 IMU-RTK GNSS Receiver

CHC Navigation Introduces i83 IMU-RTK GNSS Receiver

CHC Navigation (CHCNAV) has announced the availability of the i83 GNSS receiver, a new and innovative addition to its premium GNSS receiver series for surveying, mapping and construction professionals...

ComNav Technology Upgrades GNSS Receivers

ComNav Technology Upgrades GNSS Receivers

ComNav Technology has announced a global upgrade of the T300 and T300 Plus GNSS receiver, including the upgrade to the new GNSS K8 platform on both receivers and the replacement of the tilt sensor to ...

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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.