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2 779 777

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C1

(51)

IPC

G01S19/42(2010-01-01)

(21) (22)

Application

2021133080, 2021-11-15

(24)

Start date

2021-11-15

(22)

Actual filing date

2021-11-15

(45)

Published

2022-09-13

(72)

Inventor

Karpik Aleksandr PetrovichMareev Artem VladimirovichMamaev Daniil Stanislavovich

(73)

Holder

Federalnoe Gosudarstvennoe Biudzhetnoe Obrazovatelnoe Uchrezhdenie Vysshego Obrazovaniia Gosudarstvennyi Universitet Geosistem I Tekhnologii»

DEVICE FOR DETERMINING THE SPATIAL COORDINATES OF CONTROLLED ELEMENTS OF ENGINEERING OR NATURAL OBJECTS DURING GEODETIC MONITORING IN REAL TIME UNDER EXTREME AMBIENT TEMPERATURES BY MEANS OF NAVIGATION EQUIPMENT RECEIVING SIGNALS FROM SPACECRAFT (SC) OF GLOBAL NAVIGATION SATELLITE SYSTEMS (GNSS), INCLUDING GLONASS/GPS SC SIGNALS Russian patent published in 2022 - IPC G01S19/42 

Abstract RU 2779777 C1

FIELD: satellite technology.

SUBSTANCE: invention relates to the field of satellite geodetic measurements and can be used to determine the spatial coordinates of controlled elements of engineering or natural objects during geodetic monitoring in real time under conditions of extreme ambient temperatures. Essence: the device contains a measuring module (1), a power source (6), a charging device (7), a means (8) of communication for transmitting geospatial measurement data. The measuring module (1) contains an interface module (4) for power supply voltage control, an interface module (5) for digital data transmission, and a measuring unit (14). The interface module (5) for digital data transmission of the measuring module (1) contains a program block (15), a memory block (16), and a digital data transmission block (17). The measuring unit (14) of the measuring module (1) contains an active GNSS antenna (2) and a phase GNSS receiver (3). The charging device (7) contains a step-down converter (10) of the supply voltage, a balancer (11) for charging supercapacitors, a charge storage (12), a current and voltage sensor (13).

EFFECT: reduced energy consumption of the device during its operation, increased energy independence of the device during operation in the process of geodetic monitoring in real time under extreme ambient temperatures, increased efficiency of access to the information provided for analysis and assessment of the condition of controlled elements of engineering or natural objects.

1 cl, 1 dwg

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RU 2 779 777 C1

Authors

Karpik Aleksandr Petrovich

Mareev Artem Vladimirovich

Mamaev Daniil Stanislavovich

Dates

2022-09-13Published

2021-11-15Filed

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