1 / 15

Standardisation Ivan Konaktchiev Certification Engineer

Standardisation Ivan Konaktchiev Certification Engineer. Context. As Galileo is maturing, interaction with user communities needs to intensify Many Communities consider standardisation as a prerequisite for adoption of new systems. But drivers are different :

ama
Download Presentation

Standardisation Ivan Konaktchiev Certification Engineer

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. EU funding for sustainable energy

  2. Standardisation Ivan Konaktchiev Certification Engineer

  3. Context • As Galileo is maturing, interaction with user communities needs to intensify • Many Communities consider standardisation as a prerequisite for adoption of new systems. But drivers are different : • Regulatory (e.g. SoL applications) • Commercial (e.g. Mobile phones)

  4. Standardisation Overview • Aviation • Framework well established. Main actors are : • The International Civil Aviation Organization (ICAO) • EUROCAE and RTCA, two non-profit organizations that are dealing with standardization of civil aviation equipments • Maritime • Framework well established. Main actors are : • The International Maritime Organization (IMO) • The International Association of Lighthouse Authorities (IALA) • A number of other committees such as RTCM, IEC and NMEA • Mobile Phones • Framework is also well defined. • The Third Generation Partnership Project (3GPP • Other organizations such as the Open Mobile Alliance (OMA) • Achievements

  5. Objectives • Support the development of Dual frequency SBAS specifications • Strengthen Galileo standardisation in strategical areas such as road, rail and LBS • Draft High level Minimum performance standards for non-safety applications

  6. Project Structure • SBAS Dual Frequency Standardisation • Location Based Services Standardisation • Road Standardisation • Standardisation of safety related applications in railways • Performance standards for non-safety applications • Project Management

  7. SBAS Dual Frequency • Objective: • complement and amplify the scope of dual frequency standardisation work in order to cover all necessary aspects of future SBAS systems • Tasks: • definition of RF characteristics of the future SBAS signals (incl. optimisation of interoperability with Galileo) • Support to SBAS navigation message data content definition • Definition of civil aviation receiver functional and performance requirements for the new SBAS signals • Support to EC for standardisation of SBAS • Interfaces • ICAO, RTCA, EUROCAE • STANDARDS - FP7 Project

  8. Location Based Services • Objective • complement and broaden the European GNSS introduction work in the Location Based Services • Tasks: • Introduction of European GNSS positioning in Assisted-GNSS standard under development for the professional sector. • Analysis of synergies and standardisation of GNSS (in particular Galileo and EGNOS) and Digital Video Broadcasting (DVB) services • Analysis of synergies and standardisation of GNSS and WIMAX technology

  9. Road • Objective • Progress on satellite navigation solutions specifications in the road sector and investigate standardisation for the innovative features of EGNOS and Galileo • Tasks: • Analysis and progress in the frame of the CEN TC 278 and ISO TC204 • Analysis of the required performances for each Galileo added value service and testing activities for relevant road applications • Technical studies on Standardization of hybrid positioning techniques using GNSS and modelling the road user environment

  10. Safety related applications in railways • Objective: • Improve the common understanding of Galileo used for safety related applications in railways and provide technical support to standardisation • Tasks: • Analysis of the safety related applications and contribution to the common understanding of the use of EGNOS and Galileo in railways sector • Provision of specific recommendations for better and easier introduction of the EGNOS/Galileo solutions in ERTMS • Technical studies to define the required GNSS performances and testing activities for relevant rail communities for SoL applications • Technical studies and modelling of the rail user environment and its influence on the GNSS signal performances • Development of initial standards

  11. Performance standards for non-safety applications • Objective • Pave the road to efficient minimum performance standardisation activities for non-safety applications in the transport sector • Tasks • Identification of non-safety applications in the road, rail and multimodal transport sectors that will benefit from performance standardisation. • Analysis of the possibility to build GNSS technological standards groups in charge of GNSS based location technologies, Receiver operations and protocols. • Identification of the needs for hybridisation techniques and algorithms • Initial development of minimum performance standards for non-safety applications • Provision of an implementation plan for the minimum performance standardisation • Technical studies and modelling multimodal transport environment and its influence on the GNSS signal performances

  12. Duration & Budget • 24 months contract • Progress meetings on 3 monthly basis • Firm Fixed Price contract, 100% funding • Ceiling Price : 1M€ • Indicative sharing of effort • 10% on Road • 35% on Performance standards • 15% on Rail • 25% on SBAS • 15% on LBS

  13. Professional Capacity • Deep knowledge of satellite navigation systems • Experience in the different fields of application (aviation, mobile telecommunications, rail and road) • Prior experience in standard development processes specific to each user community • Access to the relevant regulatory and industrial standardisation fora and experience in the working procedures used by these standardisation fora. • Good knowledge of GNSS User receiver technology • Deep knowledge of EFC systems architecture and engineering expertise, incl functionality and data required for EFC based on GNSS/CN • Good knowledge of road system architecture and engineering expertise including EFC systems • Deep knowledge of ERTMS system architecture and operations

  14. Management/Interfaces • EC/GSA in direct contact with work package leaders for standardisation tasks • Interaction with standardisation fora to be strictly controlled by EC/GSA (travel plan, attendance, presentations, reporting…) • Interaction with existing STANDARDS contract • Interface to be foreseen with application specific contracts • Interface with on-going standardisation mandate for Space

  15. Questions

More Related