M. O. Lytvyn scite author profile

The asphalt road construction, as well as the quality of the road, relies nowadays to a great extend on the experience of the road construction workers. The development of a system for machine control and fleet management on an asphalt road construction site, which enables building roads of better quality and durability, was the main objective of the described work. Especially the mass flow of asphalt and the detailed optimization of different machine control loops as well as quality dependent measurement systems can bring a significant improvement of the process and final quality. The improvements are based on real-time and position information. Here, a GNSS receiver as main positioning utility was developed for the applications. The paper describes the research work that was conducted within the European GNSS Agency funded project 'advanced Galileo navigation system for asphalt fleet machines' (ASPHALT) with the final objective to build roads of better quality and dur ability. The project was finished successfully in May 2012. This paper introduces the ASPHALT project, describes the developed GNSS receiver, the antenna, the RF frontend, and the baseband; the RTK solution to achieve the high precision position solution; the PVT solution, and the EDAS implementation to provide continuous EGNOS correction data stream for position calculation. Furthermore, test results of static and dynamic measurements show the performance of the developed GNSS receiver and the whole system

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Comparison between results of Ukrainian permanent GPS-network data processing with GAMIT/GLOBK and MAO GPS Local analysis centre results

Lytvyn¹

2005

Kosm. nauka tehnol.

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Optimization of the Permanent GNSS Stations Network of Ukraine

Yatskiv¹,

Emets²,

Lytvyn³

et al. 2011

Nauka innov.

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Real-Time landslide monitoring using single-frequency PPP: Proof of concept

Lytvyn

Pollabauer

Troger

et al. 2012

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M. O. Lytvyn

How can an orbit prediction module speed up the TTFF and help to authenticate the position?

GNSS receiver for high-precision satellite navigation in the area of road construction

Comparison between results of Ukrainian permanent GPS-network data processing with GAMIT/GLOBK and MAO GPS Local analysis centre results

Optimization of the Permanent GNSS Stations Network of Ukraine

Real-Time landslide monitoring using single-frequency PPP: Proof of concept

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