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"$type": "site.standard.document",
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"description": "A navigation system (10) for an automated vehicle includes an object-detector (18), a first-map (24), a second-map (30), and a controller (36). The object-detector (18) indicates relative-positions (20) of a plurality of objects (22) proximate to the host-vehicle (12). The first-map (24) indicates…",
"path": "/patents/1408800",
"publishedAt": "2024-06-05T00:00:00.000Z",
"site": "at://did:plc:oql6ds5vnff4ugar6rruliwd/site.standard.publication/3mn3ohu7oxx5w",
"tags": [
"G01C21/005",
"APTIV TECHNOLOGIES AG [CH]"
],
"textContent": "A navigation system (10) for an automated vehicle includes an object-detector (18), a first-map (24), a second-map (30), and a controller (36). The object-detector (18) indicates relative-positions (20) of a plurality of objects (22) proximate to the host-vehicle (12). The first-map (24) indicates a first-object (26) and a second-object (28) detected by the object-detector (18). The second-map (30) is different from the first-map (24). The second-map (30) indicates the first-object (26) and the second-object (28). The controller (36) is in communication with the object-detector (18), the first-map (24), and the second-map (30). The controller (36) is configured to determine a first-coordinate (40) of the host-vehicle (12) on the first-map (24) based on the relative-positions (20) of the first-object (26) and the second-object (28), determine a second-coordinate (50) of the host-vehicle (12) on the second-map (30) based on the relative-positions (20) of the first-object (26) and the second-object (28), and align the first-map (24) and the second-map (30) based on the first-coordinate (40), the second-coordinate (50), and the relative-positions (20) of the first-object (26) and the second-object (28).",
"title": "ALIGNMENT OF MULTIPLE DIGITAL MAPS USED IN A VEHICLE"
}