{
"$type": "site.standard.document",
"description": "An algorithm for determining of a vehicle orientation based on a coherent processing of GNSS signals received by three spaced antennas and a special GNSS receiver for implementing this algorithm are considered. The three antennas are logically combined into two pairs, with one of the antennas…",
"path": "/patents/1293835",
"publishedAt": "2021-06-24T00:00:00.000Z",
"site": "at://did:plc:oql6ds5vnff4ugar6rruliwd/site.standard.publication/3mn3ohu7oxx5w",
"tags": [
"G01S19/54",
"Limited Liability Compay \"Topcon Positioning Systems\""
],
"textContent": "An algorithm for determining of a vehicle orientation based on a coherent processing of GNSS signals received by three spaced antennas and a special GNSS receiver for implementing this algorithm are considered. The three antennas are logically combined into two pairs, with one of the antennas becoming common for both pairs. The GNSS receiver measures the first carrier phase difference between the signals received within each pair of antennas. The first differences of the full phases are represented as the sum of an integer number of periods of the carrier frequency and the fractional part of the period. Values of the fractional parts of the first differences are used to compute the orientation of the vector connecting the antennas phase centers within each pair. The use of the fractional parts of the first differences makes it possible to exclude the integer ambiguity resolution in carrier phase measurements. The attitude of the vehicle is calculated from the orientation of two non-collinear vectors with a common origin, measured by two pairs of antennas. In the special GNSS receiver for the vehicle's attitude measurements, each antenna is connected to its own RF front end. All RF front ends, heterodynes, digital navigation processors of this receiver are clocked from one common clock oscillator. In this case, all the carrier phase measurements of the GNSS signals received by the three spaced antennas are performed and processed coherently, i.e. in a common time scale.",
"title": "GNSS-based attitude determination algorithm and triple-antenna GNSS receiver for its implementation"
}