Публикация:Михайлова 2020 Universal ranging code generator of GLONASS and GPS open navigation signals — различия между версиями

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== Аннотация ==  
 
== Аннотация ==  
  
atellite navigation  systems  are  used  to  de-termine the position and synchronization of users of thesesystems.  Each  system  includes  a  satellite  constellation  inorbit,  broadcasting  navigation  information  and  signals.By  estimating  the  travel  time  of  signals  from  differentsatellites  to  receiver,  the  user’s  location  can  be  calculate.Signals  include  ranging  codes  to  measure  propagationdelay.Navigation systems such as GPS and GLONASS includeabout  30  satellites.  Each  satellite  transmits  up  to  10different signals. And each signal has its own ranging code.In  this  paper,  the  universal  ranging  code  generator  ofopen navigation signals is presented. This structure allowsthe  generation  of  ranging  codes  for  about  75%  of  allopen  GLONASS  and  NAVSTAR  GPS  navigation  signals.Ranging codes generation methods for the existing GNSSsare  considered.  Initialization  parameters  to  configure  theuniversal generator are also found. In addition, we receiveddifferent types of navigation signals using the FPGA-basedreceiver that includes the universal ranging code generatormodule.  As  a  result,  correlation  functions  of  differentsignals  are  obtained.  
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Satellite navigation  systems  are  used  to  de-termine the position and synchronization of users of thesesystems.  Each  system  includes  a  satellite  constellation  inorbit,  broadcasting  navigation  information  and  signals.By  estimating  the  travel  time  of  signals  from  differentsatellites  to  receiver,  the  user’s  location  can  be  calculate.Signals  include  ranging  codes  to  measure  propagationdelay.Navigation systems such as GPS and GLONASS includeabout  30  satellites.  Each  satellite  transmits  up  to  10different signals. And each signal has its own ranging code.In  this  paper,  the  universal  ranging  code  generator  ofopen navigation signals is presented. This structure allowsthe  generation  of  ranging  codes  for  about  75%  of  allopen  GLONASS  and  NAVSTAR  GPS  navigation  signals.Ranging codes generation methods for the existing GNSSsare  considered.  Initialization  parameters  to  configure  theuniversal generator are also found. In addition, we receiveddifferent types of navigation signals using the FPGA-basedreceiver that includes the universal ranging code generatormodule.  As  a  result,  correlation  functions  of  differentsignals  are  obtained.  
  
 
== Галерея ==
 
== Галерея ==

Версия 17:52, 13 апреля 2020

Ilya V. Korogodin, Olga K. Mikhaylova, Ivan V. Lipa Universal ranging code generator of GLONASS and GPS open navigation signals // 2020 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE). — 2020.

BibTeX:
 @article{mikhaylova2020REEPE,
   author = "Ilya V. Korogodin and Olga K. Mikhaylova and Ivan V. Lipa",
   title = "Universal ranging code generator of GLONASS and GPS open navigation signals",
   journal = "2020 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE)",
   url = "https://ieeexplore.ieee.org/document/9059133",
   doi = "10.1109/REEPE49198.2020.9059133",
   year = "2020",
   language = english
 }

Аннотация

Satellite navigation systems are used to de-termine the position and synchronization of users of thesesystems. Each system includes a satellite constellation inorbit, broadcasting navigation information and signals.By estimating the travel time of signals from differentsatellites to receiver, the user’s location can be calculate.Signals include ranging codes to measure propagationdelay.Navigation systems such as GPS and GLONASS includeabout 30 satellites. Each satellite transmits up to 10different signals. And each signal has its own ranging code.In this paper, the universal ranging code generator ofopen navigation signals is presented. This structure allowsthe generation of ranging codes for about 75% of allopen GLONASS and NAVSTAR GPS navigation signals.Ranging codes generation methods for the existing GNSSsare considered. Initialization parameters to configure theuniversal generator are also found. In addition, we receiveddifferent types of navigation signals using the FPGA-basedreceiver that includes the universal ranging code generatormodule. As a result, correlation functions of differentsignals are obtained.

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