Digital Transport Projects with Global Navigation Satellite Systems - the road to building integrated digital transport systems

Igor Sokolov, Alexander Misharin, Vasily Kupriyanovsky, Oleg Pokusaev, Yuri Lipuntsov

Abstract


The article provides an analysis of projects related to the use of global navigation satellite systems (GNSS). Computer networks, power transmission, broadcasting, and telecommunications require high-precision and synchronized time in a geographically distributed network. All of them may depend on the time received from the global navigation systems. Transportation systems, supply chains, and the general population — everyone or anyone who moves has significant advantages in positioning and navigation capabilities. The paper considers the existing global navigation systems GPS, GLONASS, Galileo, BeiDou. The principles of measuring distances in GNSS are described. In the portfolio of GNSS application projects, transport dominates, and among them, the first place was occupied by aviation. However, other uses are also being considered. Transforming European railways into digital by switching to ERTMS / ETCS digital signaling while improving their security is one of the most important EU transport projects. However, the current solution, based, in fact, on the physical marking of a railway track by electronic devices (tags) is quite expensive and not sufficiently anti-vandal-proof. The transition to GNSS here is one of the main areas of work with the EU space. The many projects launched on the application of GNSS solutions in railway transport, and attempts to transfer these solutions from the aviation and automotive sectors only underline the importance of this direction

Full Text:

PDF (Russian)

References


Satellite-derived Time and Position: A Study of Critical Dependencies © Crown copyright 2018

Civil Aviation Authority: Flying RNAV (GNSS) Approaches in Private and General Aviation Aircraft. CAP 773. 2014. [On-line]. Available at: https://publicapps.caa.co.uk/docs/33/CAP773FINAL.pdf

The Global Positioning System [official web-page]: Space Segment. 2017. [On-line]. Available at: http://www.gps.gov/systems/gps/space/

The Global Positioning System [official web-page]: Control Segment. 2017. [On-line]. Available at: http://www.gps.gov/systems/gps/control/#elements

European Space Agency [Navipedia]: Galileo Ground Segment. September 2014. [On-line]. Available at: http://www.navipedia.net/index.php/Galileo_Ground_Segment

European Organisation for the Safety of Air Navigation: Communications, Navigation and Surveillance. At the heart of the future ATM system. In: Skyway magazine No. 54, Winter 2010. [On-line]. Available at: http://www.eurocontrol.int/sites/default/files/publication/files/2010 winter-skyway54.pdf

Information and Analysis Center for Positioning, Navigation and Timing: Glonass. [On-line]. Available at: https://www.glonassiac.ru/en/GLONASS/

The Global Positioning System [official web-page]: Space Segment. 2017. [On-line]. Available at: http://www.gps.gov/systems/gps/space/

European Space Agency [Navipedia]: SNAS. September 2014. [On-line]. Available at: http://www.navipedia.net/index.php/SNAS

Jůn, F.: Učebnica na lety podľa prístrojov, 1. vydanie, BratislavaDOLIS, 2015. 191 s. ISBN 978-80-8181-049-7

European Space Agency [Navipedia]: GNSS signal. May 2014. [On-line]. Available at: http://www.navipedia.net/index.php/GNSS_signal

Oxford Aviation Training: Joint Aviation Authorities Airline Transport Pilot's Licence Theoretical Knowledge Manual. Navigation 2 - Radio Navigation, Jeppesen GmbH, Ltd. 2001. ISBN 0-88487-288-2

Galileo Open Service Signal In Space Interface Control Document (OS SIS ICD) Version 1.2 published end 2015, EU © European Union 2015

Galileo OS Service Definition Document .First version in 2016 with Initial Service performance .Updated version in 2017-18 with more consolidated FOC performance, EU © European Union 2016

Galileo NeQuick Ionospheric Model Version 1.2 published in Sept 2016, EU © European Union 2016

Galileo SIS Operational Status Definition Version 1.1 published in July 2016 ,EU © European Union 2016

Ionospheric Correction Algorithm for Galileo Single Frequency Users 2016,EU © European Union 2016

Sokolov, Igor, et al. "Modern EU research projects and the digital security ontology of Europe." International Journal of Open Information Technologies 6.4 (2018): 72-79.

Соколов, И. А., et al. "Цифровая экономика Западной Австралии-умные горнорудные и нефтегазовые предприятия, железные дороги, морские порты и формализованные онтологии." International Journal of Open Information Technologies 6.6 (2018).

Kupriyanovsky, Vasily, et al. "Formalized ontologies and services for high-speed and digital railways." International Journal of Open Information Technologies 6.6 (2018): 69-86.

Волокитин, Ю. И., et al. "Проблемы цифровой экономики и формализованные онтологии." International Journal of Open Information Technologies 6.6 (2018).

Куприяновский, В. П., et al. "Технологии трансграничных цифровых сервисов в ЕС, формализованные онтологии и блокчейн." International Journal of Open Information Technologies 6.7 (2018).

Климов, А. А., et al. "BIM и инженерные формализованные онтологии на цифровой железной дороге Европы в объединении EULYNX-экономика данных." International Journal of Open Information Technologies 6.8 (2018).

Kupriyanovsky, Vasily, et al. "On the effects of formalized ontologies in the data economy-the EU experience." International Journal of Open Information Technologies 6.8 (2018): 66-78.

Kupriyanovsky, Vasily, et al. "On development of transport and logistics industries in the European Union: open BIM, Internet of Things and cyber-physical systems." International Journal of Open Information Technologies 6.2 (2018): 54-100.

Kupriyanovsky, Yulia, et al. "Smart container, smart port, BIM, Internet Things and blockchain in the digital system of world trade." International Journal of Open Information Technologies 6.3 (2018): 49-94.

Kupriyanovsky, Vasily, et al. "Intellectual mobility and mobility as a service in Smart Cities." International Journal of Open Information Technologies 5.12 (2017): 77-122.

CODECS D2.6 Deployment guidance – final version April 2018

CODECS D2.5 Webinar documentation – Profiles: lessons learned and perspectives April 2018

CODECS D3.4 Update of harmonised use case road map April 2018

CODECS D4.6 Website report on aligning open strategic issues from corridor-projects and pilots April 2018

CODECS D4.5 Website report on aligning open strategic issues April 2018

CODECS D4.4 Updated website report on state-of-the-art strategy for C-ITS deployment April 2018

CODECS D2.4 Deployment Guidance – Draft Version March 2018

CODECS D2.3 Workshop Documentation – Platforms, Pilots, Progress May 2017

CODECS D4.3 Feasibility study on common technical specifications for interfacing the vehicle and urban traffic management system December 2016

CODECS D4.2 Requirements of urban transport authorities regarding cooperative V2I and I2V systems and their strategic policy implications December 2016

CODECS D2.2 State-of-the-Art Analysis of C-ITS Deployment November 2016

CODECS D2.1 Workshop Documentation – Deployment Status July 2016

CODECS D3.1 Workshop perspectives in functional roadmapping February 2016

CODECS D4.1 Website report on state-of-the-art strategy for C-ITS deployment in Europe November 2015

CODECS D5.2 Project Folder August 2015

CODECS D1.1 General Project Presentation July 2015

INFRAMIX D2.1 Requirements catalogue from the status quo analysis 12.02/2018

INFRAMIX D2.2 Architecture and interface specification of the co-simulation environment 21/03/2018

INFRAMIX D6.1 Communication strategy and Plan (incl. periodic updates) 27.12.2017

inLane D2.1 Sensor Data Fusion v1 30.12.2016

inLane D2.3 Report on Developed Vision-Based Software Modules v1 30.12.2016

inLane D2.5 Report on Sensor-to-Map Data Alignment v1 30.12.2016

inLane D3.1 Report on Lane Level Navigation Application and Enhanced Maps v1 30.12.2016

inLane D4.1 Report on Prototype Integration, Validation and Testing Protocols v1 30.12.2016

inLane D5.1 Report on User Trials v1 30.12.2016

inLane D6.2 Analysis of Strategic Communication Priorities and Dissemination Plan v 2 08.12.2017

inLane D6.3 Marketing Materials 03.08.2016

inLane D6.4 Report of Annual Dissemination Activities v1 30.12.2016

inLane D6.9 Standardisation Plan v1 20.07.2017

inLane D7.3 Periodic Report 30.06.2017

inLane D7.7 Quality Assurance Plan 01.05.2016

GNSS for IFR flights. Supporting learning material for students and instructors (CaBilAvi - Deliverable D9.1) © GSA 2017

GNSS for VFR flights. Supporting learning material for students and instructors (CaBilAvi - Deliverable D17.1) © GSA 2017

GNSS in civil aviation. Learning material for “winter training” (CaBilAvi - Deliverable D18.1) © GSA 2017

STARS D2.1 Specification of the Measurement Information 09.11.2018

STARS D2.2 Measurement Procedures Specification 25.12.2017

STARS D2.3 Identification of the Representative Railways Lines / Sites 10.01 2017

STARS D4.1 Description of methodology for data record sorting and saving 27.02.2017

STARS D5.1 State of the art on EGNSS system for the rail application 02.03.2017

STARS D5.3 EGNSS Target Performance to meet railway safety requirements 07.07.2017

STARS D6.1 Definition of economic model, scenarios and case 10.04.2018

Куприяновский, Василий Павлович, et al. "ЦИФРОВАЯ ЖЕЛЕЗНАЯ ДОРОГА-ERTMS, BIM, GIS, PLM И ЦИФРОВЫЕ ДВОЙНИКИ." Современные информационные технологии и ИТ-образование 13.3 (2017).

MOMIT D1.1 Technologies and challenges report 2018-01-30

MOMIT D1.3 RPAS regulatory gaps-barriers analysis 2017-11-30

MOMIT D5.2 Dissemination And Communication Strategy And Action Plan 2018-02-28

MOMIT D5.3 Project Website 2017-10-31


Refbacks

  • There are currently no refbacks.


Abava  Кибербезопасность IT Congress 2024

ISSN: 2307-8162