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- {{short description|Class of obsolete radio navigation systems}} ...tions. The receiver is then located at one of the two intersections. Other navigation information can be used to determine at which intersection the receiver is ...38 KB (5,903 words) - 00:05, 1 September 2024
- [[File:Loxodrome.png|thumb|300px | Rhumb line navigation path: β = constant]] ...sportation|url=https://books.google.com/books?id=buMsPGyE7boC&q=loxodromic+navigation&pg=PA139|date=7 June 2011|publisher=CRC Press|isbn=978-0-415-69114-7|pages= ...2 KB (250 words) - 01:01, 15 April 2022
- [[File:Project SPIRE Inertial Navigation Control.jpg|thumb|A 1950s inertial navigation control developed at MIT]] ...Accuracy of Navigation Systems.svg|thumb|Comparison of accuracy of various navigation systems: the radius of the circle indicates the accuracy. A smaller radius ...47 KB (6,922 words) - 21:21, 13 February 2025
- [[Satellite navigation]] solution for the receiver's position ([[geopositioning]]) involves an alg # A [[global navigation satellite system|global-navigation-satellite-system]] (GNSS) receiver measures the apparent transmitting time, ...13 KB (2,007 words) - 12:40, 2 January 2025
- In [[mathematical optimization]], '''Zermelo's navigation problem''', proposed in 1931 by [[Ernst Zermelo]], is a classic [[optimal c [[File:Zermelo Navigation under constant wind.png|thumb|Zermelo Navigation with velocity <math>\mathbf v</math>under constant wind <math>\mathbf{w}</m ...10 KB (1,607 words) - 05:18, 17 March 2024
Page text matches
- [[File:Loxodrome.png|thumb|300px | Rhumb line navigation path: β = constant]] ...sportation|url=https://books.google.com/books?id=buMsPGyE7boC&q=loxodromic+navigation&pg=PA139|date=7 June 2011|publisher=CRC Press|isbn=978-0-415-69114-7|pages= ...2 KB (250 words) - 01:01, 15 April 2022
- ...ame="GAL_ICD"/> and modernized [[Global Positioning System|GPS]] satellite navigation signals, which combines a sine [[binary offset carrier]] SinBOC(1,1) signal ...et Carrier]] (CBOC) implementation, currently used in [[Galileo (satellite navigation)|Galileo]], and the Time-Multiplexed Binary Offset Carrier (TMBOC), current ...2 KB (336 words) - 04:08, 17 April 2024
- The isoazimuth is of use when [[navigation|navigating]] with respect to an object of known location, such as a radio b ...egment capable sphérique. Navigation Nº.116 Vol.XXIX, Institut français de navigation, octubre/1981.</ref> curve for a star with coordinates (''Dec, GHA''), - [[ ...3 KB (418 words) - 23:45, 15 March 2023
- {{Short description|Real line of position in celestial navigation}} ..., published in 1843 and is the basis of an important method in [[celestial navigation]]. ...5 KB (805 words) - 12:31, 3 December 2024
- ...c environment around the robot into maps that can be comprehended by robot navigation methods. The method consists of more than one layer of costmaps, each of wh ...] (ROS), some categories of layered costmaps are provided for mobile robot navigation,<ref>{{cite web |title=costmap_2d/layered - ROS Wiki |url=https://wiki.ros. ...11 KB (1,712 words) - 16:02, 21 November 2024
- ...' is the process of deriving from a [[Sight (device)|sight]] (in celestial navigation usually obtained using a [[sextant]]) the information needed for establishi * Pub. 249 (formerly H.O. 249, Sight Reduction Tables for Air Navigation, A.P. 3270 in the UK, 1947–53, 1+2 volumes)<ref>[https://www.thenauti ...12 KB (1,693 words) - 11:00, 17 January 2025
- [[Satellite navigation]] solution for the receiver's position ([[geopositioning]]) involves an alg # A [[global navigation satellite system|global-navigation-satellite-system]] (GNSS) receiver measures the apparent transmitting time, ...13 KB (2,007 words) - 12:40, 2 January 2025
- ...in the US GPS system, Indian [[IRNSS]] system and in [[Galileo (satellite navigation)|Galileo]]<ref>{{cite web|title=Galileo Open Service Signal in Space Interf ...last3=Renfors |first3=Markku |title=BOC modulation techniques in satellite navigation systems|url=https://onlinelibrary.wiley.com/doi/abs/10.1002/wcm.407 |date=7 ...6 KB (939 words) - 02:54, 13 December 2024
- {{Short description|Measuring tool used in navigation and astronomy}} '''Nonius''' is a measuring tool used in navigation and astronomy named in honour of its inventor, [[Pedro Nunes]] (Latin: Petr ...4 KB (562 words) - 05:09, 3 July 2024
- ...ime by Sextant Observation Including a Convenient Way to Sharpen Celestial Navigation Skills While On Land |author-first=Bruce D. |author-last=Stark |publisher=S ...ns coact peacefully with haversines in rationalizing the [[Lunar distance (navigation)|LD procedure]] […]}} [http://fer3.com/arc/m2.aspx/Tables-for-clearing-Luna ...7 KB (1,019 words) - 05:13, 19 December 2024
- The same algorithm has been used in maritime port navigation since at least 1903.<ref name="miller03">{{cite book |title=Independent navigation of multiple mobile robots with hybrid reciprocal velocity obstacles ...8 KB (994 words) - 18:37, 6 April 2024
- ...frames. Harold Black played a key role in the development of the guidance, navigation, and control of the U.S. Navy's Transit satellite system at Johns Hopkins A ...elemetry data from the Transit satellite system (used by the U.S. Navy for navigation). The principles of the Transit system gave rise to the global positioning ...8 KB (1,195 words) - 16:15, 21 November 2024
- ...avigation satellite systems]] in general, a network of satellites used for navigation. ...System]] (GPS) is the American satellite-based system for positioning and navigation. Receivers on or near the Earth's surface can determine their locations bas ...14 KB (2,089 words) - 14:32, 1 October 2024
- In [[mathematical optimization]], '''Zermelo's navigation problem''', proposed in 1931 by [[Ernst Zermelo]], is a classic [[optimal c [[File:Zermelo Navigation under constant wind.png|thumb|Zermelo Navigation with velocity <math>\mathbf v</math>under constant wind <math>\mathbf{w}</m ...10 KB (1,607 words) - 05:18, 17 March 2024
- ...an Filter for Aided Attitude and Heading Reference System", AIAA Guidance, Navigation and Control Conference, 2010</ref> === Inertial navigation === ...12 KB (2,127 words) - 05:12, 22 November 2024
- |journal= Guidance, Navigation, and Control Conference and Exhibit |series= Guidance, Navigation, and Control and Co-located Conferences ...19 KB (2,648 words) - 01:19, 19 January 2025
- ...ow-Thrust Trajectory Optimization Problems |conference=2018 AIAA Guidance, Navigation, and Control Conference |url=https://arc.aiaa.org/doi/abs/10.2514/6.2018-08 ...American Control Conference (ACC) |chapter=Unscented guidance for waypoint navigation of a fixed-wing UAV |date=July 2016|chapter-url=https://ieeexplore.ieee.org ...7 KB (956 words) - 23:52, 27 September 2024
- ...trol, 2002</ref> applied feature learning techniques to the [[mobile robot navigation]] tasks in order to avoid obstacles. They used [[genetic algorithms]] for l ...on<ref>M. Mata, J. M. Armingol, Learning Visual Landmarks for Mobile Robot Navigation, Division of Systems Engineering and Automation, Madrid, Spain, 2002</ref> ...12 KB (1,908 words) - 14:48, 20 April 2024
- ...avigation system]]s (INSs). These are used in such applications as drone [[navigation]] in tunnels and mines, guidance of [[unmanned aerial vehicle]]s (UAVs), or ...igation applications: state of the art and future trends|journal=Satellite Navigation|volume=1|doi=10.1186/s43020-019-0001-5|s2cid=211018751|doi-access=free}}</r ...12 KB (1,528 words) - 22:25, 14 January 2024
- ...titute of Communications and Navigation<!-- Institut für Kommunikation und Navigation -->, [[German Aerospace Center]]<!-- Deutsches Zentrum für Luft‐ und Raumfa ...7 KB (1,000 words) - 23:12, 16 April 2024