METHOD OF MEASURING RELATIVE POSITION OF OBJECTS FROM GLOBAL NAVIGATION SATELLITE SYSTEM SIGNALS Russian patent published in 2016 - IPC G01S19/00

Abstract RU 2592077 C1

FIELD: data processing; measurement equipment.

SUBSTANCE: invention relates to differential navigation systems and is applicable for high-precision navigation, geodesy, orientation of objects in space by signals of global navigation satellite systems (GNSS - GLONASS, GPS, Galileo, Bei Dou and others), in which pseudo-range is measured to navigation satellites at carrier oscillation phase. In differential systems accurate determination of relative position of objects is carried out on differences of pseudo-phase measurements obtained in navigation receivers spaced apart on area.

EFFECT: high accuracy and reliability of determining relative position of objects with reduction of time costs.

1 cl, 2 dwg

Similar patents RU2592077C1

Title	Year	Author	Number
METHOD OF DETERMINING MUTUAL POSITION OF OBJECTS BY SIGNALS OF GLOBAL NAVIGATION SATELLITE SYSTEMS	2016	Zhodzishskij Aleksandr Isaakovich Nesterov Oleg Valeryanovich	RU2624268C1
FLYING VEHICLE HIGH-ACCURACY AUTOMATIC LANDING SYSTEM	2004	Urlichich Jurij Matehvich Dvorkin Vjacheslav Vladimirovich Markov Sergej Sergeevich Povaljaev Egor Aleksandrovich	RU2287838C2
METHOD FOR DETERMINATION OF OBJECT RELATIVE COORDINATES WITH SURVEY TO ARBITRARY POINT OF SPACE AND SYSTEM FOR ITS REALIZATION	2004	Urlichich Ju.M. Dvorkin V.V. Vinogradov A.A. Averin S.V.	RU2253128C1
METHOD OF DETERMINING INTEGRITY OF HIGH-PRECISION NAVIGATION DETERMINATIONS OF CONSUMER AND SYSTEM THEREFOR	2014	Kurshin Vladimir Viktorovich Molokanov Andrej Vladimirovich	RU2577846C1
METHOD OF LOCATING CONSUMERS OF NAVIGATION INFORMATION OF SATELLITE NAVIGATION SYSTEMS	2013	Sebrjakov German Georgievich Shcherbakov Vladimir Ivanovich	RU2517176C1
METHOD DETERMINING ORIENTATION OF OBJECTS IN SPACE, RANGE TO THEM AND BEARING, POSITION COORDINATES AND COMPONENTS OF VELOCITY VECTOR BY NAVIGATION RADIO SIGNALS OF SPACECRAFT OF SPACE RADIO NAVIGATION SYSTEMS	1998	Armizonov N.E. Kozlov A.G. Armizonov A.N. Chmykh M.K.	RU2152625C1
METHOD OF DETERMINING PROPAGATION SPEED AND DIRECTION OF ARRIVAL OF IONOSPHERIC PERTURBATION	2013	Dikarev Viktor Ivanovich Zavirukha Viktor Konstantinovich Tasenko Sergej Viktorovich Shatov Pavel Viktorovich Alpatov Viktor Vladimirovich Skorokhodov Ilya Aleksandrovich	RU2560094C2
METHOD OF DETERMINING LOCATION OF OBJECT WITH USE OF GLOBAL NAVIGATION SATELLITE SYSTEMS AND SYSTEM FOR ITS IMPLEMENTATION	2012	Urlichich Jurij Matehvich Zhodzishskij Aleksandr Isaakovich Bol'Shakov Vadim Olegovich Nesterov Oleg Valer'Janovich Kishko Dmitrij Vladimirovich	RU2492499C1
METHOD OF ANGULAR ORIENTATION OF OBJECT BY SIGNALS OF SATELLITE RADIO-NAVIGATION SYSTEMS	2010	Aleshechkin Andrej Mikhajlovich	RU2446410C1
RANGE-FINDING METHOD OF LOCATION AND COMPONENTS OF VECTOR OF VELOCITY OF OBJECTS BY RADIO SIGNALS OF SPACECRAFT OF SATELLITE RADIO NAVIGATION SYSTEMS	1994	Armizonov Nikolaj Egorovich Chmykh Mikhail Kirillovich Cheremisin Vladimir Filippovich Armizonov Aleksej Nikolaevich	RU2115137C1

RU 2 592 077 C1

Authors

Zhodzishskij Aleksandr Isaakovich

Nesterov Oleg Valeryanovich

Dates

2016-07-20—Published

2015-07-17—Filed