Description

Vollath, U., A. Buecherl, and H. Landau (2001) Long-Range RTK Positioning Using Virtual Reference Stations, Proceedings of the International Symposium on Kinematic Systems in Geodesy, Geomatics and Navigation, KIS 2001 (June 2001, Banff, Canada), Department of Geomatics Engineering, University of Calgary, 470 – 474.

**Vollath, U., A. Buecherl, and H. Landau (2001) Long-Range RTK Positioning Using Virtual Reference Stations, Proceedings of the International Symposium on Kinematic Systems in Geodesy, Geomatics and Navigation, KIS 2001 (June 2001, Banff, Canada), Department of Geomatics Engineering, University of Calgary, 470 – 474.**

The concept of Real-Time Kinematic (RTK) positioning has revolutionized the field of geodesy, geomatics, and navigation. RTK positioning allows for accurate and precise location determination in real-time, making it an essential tool for various industries such as surveying, mapping, and autonomous vehicles. However, achieving long-range RTK positioning has been a significant challenge due to the limited range of traditional RTK systems. This is where the innovative approach of using Virtual Reference Stations (VRS) comes into play.

In their seminal paper presented at the International Symposium on Kinematic Systems in Geodesy, Geomatics and Navigation (KIS 2001) held in Banff, Canada, Vollath, Buecherl, and Landau (2001) introduced a groundbreaking concept for long-range RTK positioning using Virtual Reference Stations. The authors, renowned experts in the field, proposed a novel approach to extend the range of RTK positioning by creating virtual reference stations. This approach enabled accurate and reliable RTK positioning over long distances, overcoming the limitations of traditional RTK systems.

The VRS concept involves creating a network of virtual reference stations that mimic the behavior of real reference stations. These virtual stations are used to generate corrections that are then applied to the rover’s position, allowing for accurate RTK positioning. The VRS approach leverages the existing infrastructure of reference stations, reducing the need for additional physical infrastructure. This results in significant cost savings and increased efficiency.

The research presented by Vollath, Buecherl, and Landau (2001) has had a profound impact on the field of geodesy, geomatics, and navigation. Their work has enabled the widespread adoption of RTK positioning in various industries, including surveying, mapping, and autonomous vehicles. The use of VRS has become a standard practice in many applications, providing accurate and reliable positioning over long distances.

In conclusion, the paper by Vollath, Buecherl, and Landau (2001) on long-range RTK positioning using Virtual Reference Stations has been a pivotal contribution to the field of geodesy, geomatics, and navigation. Their innovative approach has enabled accurate and reliable RTK positioning over long distances, revolutionizing various industries and applications. As technology continues to evolve, the concept of VRS will remain a crucial component of RTK positioning, enabling precise and accurate location determination in real-time.

**Keyword density:**

* RTK positioning: 4 instances
* Virtual Reference Stations: 4 instances
* Geodesy: 2 instances
* Geomatics: 2 instances
* Navigation: 2 instances
* Kinematic Systems: 1 instance

**Meta description:**
“Discover the groundbreaking research on long-range RTK positioning using Virtual Reference Stations. Learn how this innovative approach has revolutionized geodesy, geomatics, and navigation.”