ERA-GLONASS system architecture IVS unification End-user advantages Yaroslav Domaratsky, PhD Project office director 19 Dec 2012 ※無断転載、転用禁止 GLONASS Union information Founding members JSC “MTS”, JSC “Vimpelcom”, JSC “Megafon”, JSC “RTComm.ru” (Rostelecom), LLC Yandex, JSC “Navigation-Information Systems”, “GLONASS/GNSS-Forum” Association, LLC “Summa-Telecom” Major dates: May, 18th 2012 – foundation of Partnership for Development and Use of Satellite Navigation Technologies (GLONASS Partnership); May 25th 2012 – GLONASS Partnership is appointed to be National Navigation Services Provider (Government regulation #522); May 18th 2012 – GLONASS Partnership is dedicated to be sole contractor for ERA GLONASS infrastructure deployment (Government regulation #1732-p) Oct 8th 2012 - the Ministry of Transportation of Russian Federation signed a Contract with GLONASS Partnership for deployment and operations of ERA GLONASS Emergency Response System. The capabilities of ERA GLONASS infrastructure can be used to facilitate the development of interoperable telematics systems, like fleet management systems for transportation transit corridors, passenger transportation, heavy, hazardous cargo forward and deliveries, road tolling systems, stolen vehicle recovery service, digital tachographs The capabilities of ERA GLONASS infrastructure make it possible to introduce innovative products based on Insurance Telematics Services. Those are road traffic accident reconstruction Service for Compulsory Insurance and Pay-as-You-Drive/Pay-as-You-Use Insurance Programs for Voluntary Insurance. ※無断転載、転用禁止 ERA-GLONASS System: National Initiative to Increase Safety on Russian Roads GLONASS/GPS Systems Project started in May 2010 Shall be ready for full scale operation starting 2014 ERA-GLONASS Vehicle Terminal Mobile communication networks ERA-GLONASS operator Regional EMERCOM center (1-1-2 service) Emergency Response Services Response to a road traffic accident Fully deployed ERA GLONASS system could save up to 4,000 lives every year. In Russia annual economic effect could be up to 8 billion rubles from the reduction in number of fatalities, not including savings due to reduction in number of heavy injuries. ※無断転載、転用禁止 2011 2012 2013 Design Planning Project Development Pilot Projects System Deployment Design and deployment of ERA-GLONASS infrastructure Legislation enabling the creation and operation of ERA-GLONASS System Development of ERA-GLONASS in-vehicle system prototypes Ensuring interaction with emergency response services ERA-GLONASS full-scale operation starts in 2014 2010 Start of ERA-GLONASS project (Government Contract signed) May 2010 ERA-GLONASS System: System Design Milestones and Activities ※無断転載、転用禁止 ERA-GLONASS Federal Infrastructure Will be deployed: • 8 navigation-information centers • 72 regional communication centers Technical solution will provide best possible coverage Main roads coverage*: • МТС 82% ERA-GLONASS • Megafon 75% • Beeline 73% 90% * Official data, March 2012 2011 2012 2013 GLONASS Union assigned to build and to operate ERA-GLONASS system in Russia ※無断転載、転用禁止 ERA-GLONASS System Architecture ※無断転載、転用禁止 Innovation cycle targets ※無断転載、転用禁止 Main differences between ERA-GLONASS and eCall GLONASS GNSS support is the must – Combined GNSS receivers (e.g. GLONASS/GPS/Galileo) are OK MSD transmission – In-band (primary method – standardized by 3GPP) – SMS (back-up mechanism) Echo cancellation and noise reduction requirements defined Test requirements defined: – Test session can be initiated from vehicle, test results can be transmitted to back-end UMTS 900/2100 support Remote IVS configuration Remote IVS software upgrade Crash acceleration profile record and transmission IVS installation in OEM pre-installed and aftermarket / retrofit configurations “Black box” function Standardized I/O port and standardized communication protocol to connect additional sensors. ※無断転載、転用禁止 ERA-GLONASS IVS requirements development and approval IVS requirements review data IVS national standards review data Requirements review started July 2010 Standards drafts review started Aug 2011 Requirements review duration 13 months Standards drafts review duration 3 months Number of companies received requirements 370 Number of companies notified about standards drafts review 345 Number of companies submitted comments 33 Number of companies submitted comments 12 Total number of comments received 1081 Total number of comments received 285 Confirmed IVS requirements review was organized effectively - OEM associations – 22 members in total - more than 5 Tier 1 suppliers 35 OEM’s confirmed they do understand IVS requirements More than 5 Tier 1 suppliers and more than 5 Russian companies confirmed aftermarket / retrofit IVS mass production can start in Q1 2013 Defined IVS introduction year is 2014 IVS suppliers ready for mass production starting in Q1 2013 Some OEM companies ready for factory IVS installation in 2013 ※無断転載、転用禁止 IVS national standards development and approval status National standards approved in Dec 2011 GOST R 54620—2011 Global navigation satellite system. Road accident emergency response system. In-vehicle emergency call system. General technical requirements GOST R 54618–2011 Compliance test methods for electromagnetic compatibility, environmental and mechanical resistance requirements of In-Vehicle Emergency Call System GOST R 54619—2011 Protocol of Data Transmission from In-Vehicle Emergency Call System to Emergency Response System Infrastructure National standards passed public review in 2012 Functional test methods of In-Vehicle Emergency Call System and data transfer protocols Compliance testing for the requirements for quality speakerphone in a vehicle Test methods for navigation module of In-Vehicle Emergency Call System Requirements to determine the mechanism of the road accident, the algorithm determining the events and methods of testing in-vehicle system in the definition of the road accident (aftermarket / retrofit IVS only) Test methods for wireless communication module of In-Vehicle Emergency Call System. ※無断転載、転用禁止 Defined IVS introduction schedule 01 Oct 2014 – new vehicles of categories М2, М3 intended for passenger transportation and new vehicle of category N1 (weight > 2.5 tons), new vehicle of categories N2 and N3 intended for dangerous cargo transportation (assessment of compliance in the form of vehicle type approval at first time) 01 Jan 2015 – new vehicles of categories М1, N1 (assessment of compliance in the form of vehicle type approval at first time); new vehicles of categories N2, N3 not intended for dangerous cargo transportation; new vehicles of categories М2, М3 not intended for passenger transportation (assessment of compliance in the form of vehicle type approval at first time) 01 Jan 2016 – vehicles of categories M2, M3 intended for passenger transportation and vehicles of category N1 (weight > 2.5 tons), vehicles of categories N2 and N3 intended for dangerous cargo transportation that will put in circulation at first time (as new vehicles as well as all vehicles not previously in use in the territory of the Russian Federation which will be imported to Russia) 01 Jan 2017 – all categories of vehicles that will put in circulation at first time (as new vehicles as well as all vehicles not previously in use in the territory of the Russian Federation which will be imported to Russia). ※無断転載、転用禁止 Value added services support - priorities * - the feature can be implemented on board or off board ** - optional feature ※無断転載、転用禁止 What next - proposals to extend ERA-GLONASS features Crash reconstruction Vehicle track and acceleration information recording before, during and after the crash, trustable vehicle track and acceleration information transmission per request; Vehicle state information recording before, during and after the crash, trustable vehicle state information transmission per request; Automated real time crash information analysis at back end. Crash prevention Road and environmental information collection from drivers and other information sources; Automated road state information collection from vehicles, automated information aggregation and filtering, processed information transmission to Police and other consumers; Road state and other related information transmission to drivers along the road; Active crash prevention using V2V communication technologies; Active crash prevention using V2I communication technologies. IVS unification ERA-GLONASS IVS unification with below systems: fleet management; road tolling; digital tachographs; passenger transportation ticketing systems; other connected IVS. ※無断転載、転用禁止 IVS unification – problems today Need to install a number of IVS with duplicated functions Different IVS using different internal and external GNSS and GSM/UMTS antennas (not optimal antenna performance) Different IVS implement different UI (buttons, voice, display) – driver distraction Interfaces between IVS components not standardized – need to install new IVS to implement additional functions or need to use proprietary interfaces between IVS components (higher system cost) Cost estimation today assuming big volume: Fleet management – 6 000 RUB ERA-GLONASS – 4 000 RUB Digital tachograph – 22 000 RUB Road tolling – 9 000 RUB Passenger transportation ticketing > 20 000 RUB Total cost: > 61 000 RUB Target: decrease system cost by at least 40% (24 400 RUB) with the unified IVS. ※無断転載、転用禁止 IVS unification – main principles Unification based on government regulation (emergency call, fleet management, road tolling, digital tachographs) Standardize interfaces between IVS components Develop IVS installation requirements and procedures Standardize interfaces with OEM pre-installed systems Develop true connected GNSS digital tachograph Standardize vehicle “black box” features (aka. EDR) including data upload path Unify user interface Standardize IVS / back ends communication protocols Promote “connected IVS” approach. ※無断転載、転用禁止 Thank you [email protected] ※無断転載、転用禁止
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