Abstract
Global Navigation Satellite System (GNSS) is considered to be one of the most crucial tools for different applications, i.e. transportation, geographic information systems, mobile satellite communications, and others. Without a doubt, the GNSS has been widely employed for different scientific applications, such as land surveying, mapping, and precise monitoring for huge structures, etc. Thus, an intense competitive has appeared between companies which produce geodetic GNSS hardware devices to meet all the requirements of GNSS communities. This study aims to assess the performance of different GNSS receivers to provide reliable positions. In this study, three different receivers, which are produced by different manufacturers, were fixed to form a triangle. Simultaneous observations were made in static mode (2.5 to 3 hours). This observation technique was carried out three times by changing the location of receivers in each time to ensure that three receivers observed each station three times. To evaluate the performance of each receiver, OPUS web-based processing software and TOPCON TOOLS were used to process the raw GNSS observations. The distances between adjacent stations were computed for each observation and compared to standard distances, which were measured using a total station. Furthermore, the internal angles were also computed and compared to those measured by Total Stations. The results showed that some calculated distances are closer to the corresponding distances measured by the total station. This indicates that the receivers involved in the composition of these distances are the most accurate.
Highlights
Global Navigation Satellite System (GNSS) is defined as satellite navigation systems, which prepare independent geospatial positioning with worldwide coverage
The ranges to the satellites are computed using the time of arrival of the radio signal that passes with the speed of light to the receiver
Set 2: At this set the receivers positions were switched in clockwise direction over the same three points, the sequence would be as follow: the three devices (Topcon GR5, Leica as 10 and Leica GS 15) were installed simultaneously on the points (SUR, KHW, SCI), respectively, using static GNSS survey technique with observed period about 2.5-3 hours
Summary
Global Navigation Satellite System (GNSS) is defined as satellite navigation systems, which prepare independent geospatial positioning with worldwide coverage. GNSS includes Global Positioning System (GPS), Global Navigation Satellite System (GLONASS), Galileo, Beidou and other regional systems. The central standard of navigation satellite system is the establishment of a trilateration network from any station on the ground to the navigation satellites. The ranges to the satellites are computed using the time of arrival of the radio signal that passes with the speed of light to the receiver. The range to the navigation satellite can be calculated by multiplying the travel time by the light's speed in a vacuum. The positions of the satellites are observed by the ground stations and this is compulsory for post process, Lechner and Baumann, 2000
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