Development of BeiDou Navigation Satellite System

Similar documents
China Satellite Navigation Office

Operation and Development of BeiDou Navigation Satellite System

Update of BeiDou Navigation Satellite System

Development of BeiDou Navigation Satellite System

International Cooperation Research Center, China Satellite Navigation Office

Jun Shen International Cooperation Center. China Satellite Navigation Office

BeiDou: Bring the World and China to Your Doorstep

China Satellite Navigation Office

Update on BeiDou Navigation Satellite System

Status of COMPASS/BeiDou Development

Status of the European EGNOS and Galileo Programmes. Frank Udnaes Galileo policy and Infrastructure group EC DG-TREN. June 2008

ASSEMBLY 37TH SESSION

Update of BeiDou System and its Applications

Nigerian Communications Satellite Ltd. (NIGCOMSAT)

Principal Investigator Co-Principal Investigator Co-Principal Investigator Prof. Talat Ahmad Vice-Chancellor Jamia Millia Islamia Delhi

General Assembly. United Nations A/AC.105/946

International GNSS Monitoring & Assessment Service for OS (igmas) ICG September 2011, Tokyo, Japan

«Current state and prospects of development of commercial application GLONASS/GNSS in the Russian Federation»

High Precision Applications with BeiDou

PRELIMINARY PROGRAMME

GNSS Programme. Overview and Status in Europe

SATELLITE BASED AUGMENTATION SYSTEM (SBAS) FOR AUSTRALIA

ISU Symposium The Public Face of Space Strasbourg, France February A quiet and sustainable success story.

GLONASS Status and Modernization

10 th APEC TRANSPORTATION MINISTERIAL MEETING 7 th October 2017 Port Moresby, Papua New Guinea Ministerial Statement

ICG-12 Kyoto Japan WG-B December Dr. Lisa Mazzuca

IMO WORLD-WIDE RADIONAVIGATION SYSTEM (WWRNS) GALILEO receiver performance standards. Submitted by the European Commission

Understanding GPS/GNSS

Overview of the global GNSS market and status of Galileo

GPS/WAAS Program Update

GLObal Navigation Satellite System (GLONASS)

Current status of Quasi-Zenith Satellite System. Japan Aerospace Exploration Agency QZSS Project Team

European GNSS Evolution

European GNSS Applications in H2020

Dimov Stojče Ilčev. CNS Systems

SDCM present status and future. GLONASS signals development.

CLICK HERE TO KNOW MORE

DYNAMIC POSITIONING CONFERENCE October 7-8, Sensors II. Redundancy in Dynamic Positioning Systems Based on Satellite Navigation

Understanding GPS: Principles and Applications Second Edition

IMO WORLDWIDE RADIONAVIGATION SYSTEM (WWRNS) Study on Communication Techniques for High Accuracy DGPS in the Republic of Korea

GAGAN Initiatives Jan 18, 2018

GAGAN-Extension to the Gulf Region. Joint ACAC/ICAO MID Workshop on GNSS 7 th & 8 th November 2017

King AbdulAziz University. Faculty of Environmental Design. Geomatics Department. Mobile GIS GEOM 427. Lecture 3

DEFINING THE FUTURE OF SATELLITE SURVEYING WITH TRIMBLE R-TRACK TECHNOLOGY

RESOLUTION MSC.401(95) (Adopted on 8 June 2015) PERFORMANCE STANDARDS FOR MULTI-SYSTEM SHIPBORNE RADIONAVIGATION RECEIVERS

Perspective of Eastern Global Satellite Navigation Systems

EUROPEAN GNSS ADOPTION OPPORTUNITIES IN TRANSPORT WITH FOCUS ON RAIL

New Funding Opportunities to Support Safety of Navigation: EGNOS and Galileo

COMMUNICATIONS FOR MARITIME SAFETY AND EFFICIENCY. Francis Zachariae, Secretary-General, IALA

Report on GNSS Training

GNSS in Maritime and Education in Egypt

System Status and Performance Improvement Prospects

Indian GNSS Industry Overview Challenges and future prospects

One Source for Positioning Success

Experiences with Fugro's Real Time GPS/GLONASS Orbit/Clock Decimeter Level Precise Positioning System

Report on the United Nations/Croatia Workshop on the Applications of Global Navigation Satellite Systems

Overview of Intellectual Property Policy and Law of China in 2017

GPS Civil Service Update & U.S. International GNSS Activities

Lecture-1 CHAPTER 2 INTRODUCTION TO GPS

International Cospas-Sarsat Programme : From operations to MEOSAR prospects

Protection Augmentation Toughness and Alternatives of GNSS. Melaha 2016 Concord Al-Salam Hotel Cairo, April 25,2016 Refaat Rashad

International Committee on Global Navigation Satellite Systems (ICG)

VIIIth European Interparliamentary Space. Mr. Rainer Grohe Executive Director Galileo Joint Undertaking

GMDSS modernisation and e-navigation: spectrum needs

Technical Specifications Document. for. Satellite-Based Augmentation System (SBAS) Testbed

Introduction to Total Station and GPS

GLOBAL NAVIGATION SATELLITE SYSTEMS (GNSS) ECE 2526E Tuesday, 24 April 2018

The technical contribution of QZSS and GNSS to Tsunami early warning system

IPSTAR Project. Shin Satellite Public Company Limited 19

Comprehensive Study of GNSS Systems

RESOLUTION MSC.233(82) (adopted on 5 December 2006) ADOPTION OF THE PERFORMANCE STANDARDS FOR SHIPBORNE GALILEO RECEIVER EQUIPMENT

ICG 9 PRAGUE 10 November 2014

Galileo - European Global Navigation Satellite System

Prospect for Global Positioning Augmentation Service by QZSS

Developments in Satellite Navigation and Wireless Spectrum

Status of Multi-GNSS Monitoring Network Establishment

Report of the Working Group B: Enhancement of Global Navigation Satellite Systems (GNSS) Services Performance

Precise Point Positioning with BeiDou

RECOMMENDATION ITU-R M *

European GNSS: Galileo and EGNOS for next generation Road Charging

Challenges and Solutions for GPS Receiver Test

The EU Satellite Navigation programmes status Applications for the CAP

Precise Positioning... what does it mean? Precise GNSS Positioning Not just a niche technology. Chris Rizos 15/12/15

EGNOS Operations Oper and T and heir T Planned Ev E olution v

GBAS FOR ATCO. June 2017

Where Next for GNSS?

Building Sustainable and Resilient Communities

International Committee on Global Navigation Satellite Systems (ICG) and its Programme on Global Navigation Satellite Systems (GNSS) Applications

Update on GNSS Time Creation and Distribution - How well does it really work?

Indian Regional Navigation Satellite System (IRNSS) / Navigation with Indian Constellation (NavIC) and GPS Aided Geo Augmented Navigation (GAGAN)

Current Status of the Japanese Quasi-Zenith Satellite System (QZSS)

GE 113 REMOTE SENSING

BeiDou Next Generation Signal Design and Expected Performance

Global Navigation Satellite Systems (GNSS)Part I EE 570: Location and Navigation

Remarks by Mr. Sun Chengyong. Head of Delegation. Ministry of Science and Technology, China. May 15-16, 2017

GALILEO Research and Development Activities. Second Call. Area 1A. Statement of Work

Public Workshop on Optimising the Use of the Radio Spectrum by the Public Sector in the EU. Applications and Technologies

GLOBAL POSITIONING SYSTEMS

European Radio Navigation Plan. Gilles LEQUEUX, European Commission Policy Development and Strategies

Demonstrator of a Data Processing Centre (DPC) for satellite-based AIS services

Transcription:

Development of BeiDou Navigation Satellite System May 18 2015 Krasnoyarsk, Russian Federation

Contents 1 2 3 4 5 System Overview System Application International Cooperation Recent Plan Summary

Contents 1 2 3 4 5 System Overview System Application International Cooperation Recent Plan Summary

Development Objectives The BeiDou System is committed: Ø To provide continuous, stable and reliable positioning, navigation and timing services to global users; Ø To meet the requirements derived from national security, economic and social development sectors, to accelerate IT applications and the transformation of economic development methods, and to improve both economic and social benefits; Ø To serve the world and benefit the mankind through joint efforts with other navigation satellite systems across the globe.

Basic Principles Openness The BeiDou System will offer open services free of charge for global users. Independency Develop and operate BeiDou system independently. Compatibility The BeiDou System is devoted to pursue compatibility and interoperability with other navigation satellite systems, and enable users to obtain better services. Basic Principles Gradualness The establishment of BeiDou System follows a stepwise manner in the light of Chinese actual technical and economic conditions.

Development Steps The BeiDou System has been developing in line with the threestep roadmap and the thinking of from regional to global, and from active to passive, and forms a development path as region-highlighted, worldoriented, with its own features. The 1st step: 1994~2000, provide regional active services The 3rd step: 2013~2020, provide global passive services 第 一步第 二步第三步 The 2nd step: 2004~2012, provide regional passive services

System Architecture Space Segment Ground Segment User Segment 5 GEO satellites 3 IGSO satellites 27 MEO satellites Master Control Stations (MCS) Uplink Stations (US) Monitoring Stations (MS) BeiDou terminals Terminals compatible with other satellite navigation systems Four types of services: open, authorized, wide area differential and short message services.

System Architecture l Ground & Satellite based l Positioning and navigation services meter/decimeter-level (wide area) centimeter-level (real time, China and its neighboring areas) 175 reference stations (backbone network),1000+ stations (regional density network) l CAT-I services for civil aviation users Dual-frequency multi-system augmentation signals Preliminary Scheme Argumentation & Integrity

Current Status l Since formal regional services provision on December 27 2012, the BeiDou System has maintained continuous and stable operation, and the service performance has met with the specification requirements. Constellation(Now) 14 operational satellites in orbit (5GEO+5IGSO+4MEO) Global constellation(2020) 35 satellites (5GEO+30 Non-GEO)

Current Status BDS System Performancei region l Most parts of the Asia-Pacific region: 55 N-55 S, 55 E-180 E B1I Horizontal Positioning Accuracy l Open Service Performance Specification: Position Accuracy: better than 10 m, Velocity Accuracy: better than 0.2 m/ s. Time Accuracy: better than 20 ns. B1I Elevation Positioning Accuracy

Current Status l With 14 fresh BeiDou satellites in orbit, there is the largest number of available GNSS satellites in the BeiDou coverage area. l A hybrid, asymmetric constellation consisting of GEOs, IGSOs and MEOs l IGSOs and GEOs could provide better elevation angle. Service performance is more outstanding in the city canyon, multi-level traffic interchange, and tree-sheltered environment Distribution of visible in-orbit BeiDou satellites

Current Status l The 1st new-generation satellites satellite successfully launched on March 30, 2015. l New signals and inter-satellite link, and other technologies is undergoing in-orbit test as scheduled. l Right now, the new-generation satellite has preliminarily verified the new technology structure and performance specifications, which meet the designed requirements. The first next-generation BeiDou satellite

Fundamental Policies Ø Provide open services free of charge for users. Ø Maintain and perfect the system constantly, improve service performance continuously, and offer services with higher quality. Ø Release open service performance specifications on schedule, bring the function of government and market to full play, promote innovation, popularization and internationalization of BeiDou/GNSS applications, and lay foundation for the national strategic emerging industries. Ø Adhere to the concept of development and win-win cooperation, realize compatibility and interoperability between BeiDou and other GNSS, give the system efficiency into full play and increase users benefits.

Contents 1 2 3 4 5 System Overview System Application International Cooperation Recent Plan Summary

Fundamental Products l Promote the R&D and industrialization of fundamental navigation products with independent IPR in an all-round way, with the core as BDS/GNSS compatible chips. Ø the sales volume of BDS/GNSS navigation chip/module has surpassed 6 million pieces Ø the sales volume of high-precision surveying boards has surpassed 85, 000 sets, which amounts to 1/3 of the domestic market share Ø the sales volume of navigation antenna is approximately 3 million sets Ø the sales volume of high-precision antenna is approximately 280, 000 pieces, which amounts to 90% of the domestic market share

Fundamental Products The research and development of next-generation BDS/GNSS chips which integrate baseband with RF has made great breakthroughs, and will meet global users' demands in the mass market, such as smart phones, PAD, wearable equipment, etc. Smart phones PAD Wearable equipment

Industrial/Regional Applications In view of the significant orientation and fields which have impact on the national welfare, the people's livelihood, and national security, carry out demonstrative applications in selected industries and regions with relevantly large application scales and outstanding marketing prospects. Harbin 18 Demonstration area Shihezi Beijing Shanxi Xi'an Xinyang Mianyang Hefei Hubei Chengdu Hunan Guizhou Weifang Jiangsu Pearl River Delta Shanghai Yangtze River Delta Zhangzhou Totally 750,000 sets of BeiDou terminals have been promoted and applied. Shenzhen

Mass Market Applications

Applications Cases Road Transportation Management Cargo, personnel and dangerous goods transportation management Over 80 thousand BeiDou vehicle terminals installed in 9 provinces and cities More than 2 thousand BeiDou/GPS handheld terminals equipped for regional law enforcement

Applications Cases Marine Fishery Vessel position monitoring Emergency alarm and rescue Port entry and departure management

Applications Cases Maritime Ship Management Integrating BeiDou/GNSS, GIS, satellite communications, mobile communications, etc Tracking & monitoring personnel and cargo logistics Information exchanges services among ships, between ships and the monitoring authority

Applications Cases Disaster Early Warning Air-land-sea integrated disaster surveillance network Collect and transmit real-time information through BeiDou Short message services, mobile/satellite communication Beidou/GNSS Government Buoy Deformation monitoring Communication (DDN/Radio/Mobile) Beidou Receiver Alerts to Meteorological Dept. Weather balloon Meteorological Instruments Monitoring Networks Servers Disaster Early Warning Platform Industry Dept. General Public

Applications Cases Map Emergency Rescue & Command Integrate BeiDou/GNSS, GIS, RS, communication technology Provide positioning and navigation services to rescue staff and vehicles Plan the path for supplies Report information to the commanding center Command Platform, Command Receiver of Beidou, Gateway, Screen (Command Center) Satellites (Beidou/CAPS/INMARSAT/Thuraya) Communication Disaster List MAP Satellites Communication DGNSS Signal Beidou/GPS Position Satellites/ Mobile DGNSS Server Mobile Communication DGNSS Signal Wireless Base Station (GPRS/CDMA2000/WCDMA) Communication Disaster List MAP Picture Disaster Area Disaster Area

Applications Cases Agriculture

Applications Cases City Bus Management

Applications Cases Outdoor Tourism

Published Document Related technical documents BeiDou Open Service Performance Standard (version 1.0) BeiDou Signal-In-Space Interface Control Document (version 2.0) Two civil signals of BeiDou- B1I &B2I (Both Chinese and English versions of above documents are available at www.beidou.gov.cn; http://en.beidou.gov.cn/)

Contents 1 2 3 4 5 System Overview System Application International Cooperation Recent Plan Summary

Bilateral Cooperation Keep coordinating with other navigation satellite systems in the sector of compatibility and interoperability, to jointly provide high quality services for users.

Bilateral Cooperation l The Project Committee on China-Russia GNSS cooperation l The first bilateral round table meeting on GNSS cooperation l The MOU on China-Russia cooperation in the field of satellite navigation l GLONASS ground stations in China and BeiDou ground stations in Russia l The joint statement on compatibility and interoperability.of BeiDou and GLONASS

Bilateral Cooperation The first bilateral meeting of China- U.S. civil GNSS cooperation has been held, the cooperation mechanism between BeiDou and GPS has been set up, and the Joint Statement between these two systems have been signed.

Bilateral Cooperation The frequency coordination towards navigation frequency channel between BeiDou and Galileo has been completed, and the cooperation mechanism between these systems are under discussion.

Multilateral Cooperation Actively undertake international responsibility, promote the compatibility and coexistence among navigation satellite systems. Actively participate in the 9th Meeting of the ICG, IWG, ITU and other GNSS activities organized by the United Nations Deeply join in the coordination of important subjects, such as the compatibility and interoperability among basic systems and Satellite-Bases Augmentation Systems, service performance parameter, GNSS monitoring and assessment, etc.

Applications Cooperation Advocate integrated applications of multiple systems, push forward the BeiDou services to spread abroad and benefit neighboring countries, and include applying BeiDou System into the national strategic planning of jointly building the Silk Road Economic Belt and 21st- Century Maritime Silk Road, namely "One Belt and One Road". Carry out cooperation with Korea, Australia, Indonesia, Pakistan, Thailand, Singapore, the United Arab States, Nigeria, etc. Continue to hold BeiDou ASEAN Tour and BeiDou Asia-Pacific Tour, and promote system applications. Satellite navigation cooperation meeting between China-Australia Visit Egypt for on-site survey in 2015 BeiDou ASEAN Tour Thailand

International Standardization Actively propel the recognition of the BeiDou System in international organizations, such as IMO, ICAO and 3GPP. The Ship-borne BeiDou-based Receivers Performance Standard has been approved by IMO, making the BeiDou System the third navigation satellite system worldwide recognized by IMO.

International Standardization Promote the establishment of BeiDou Working Group affiliated to the 104th professional committee of RTCM. 16 technical standards which support positioning function of the BeiDou System have been approved by the 3rd and 4th Generation Partnership Projects.

Technical Exchanges Encourage academic exchanges, host the China Satellite Navigation Conference, and keep attending other international academic conferences in the field of satellite navigation. In the aspect of International Exchange and Training, CSNO has organized three sessions of Master Program majored in satellite navigation, while 44 trainees from 8 countries in the Asia- Pacific and African areas have been recruited. Three sessions of Summer School on Frontier Technology in the field of satellite navigation have successfully organized, and more than 200 trainees have completed their studies.

Contents 1 2 3 4 5 System Overview System Application International Cooperation Recent Plan Summary

System Construction 1. Keep improving the continuous stability and service accuracy of the BeiDou System, ensure its regional service performance maintain stable and grow better. 2. Launch another 3-4 next-generation BeiDou satellites in 2015, and steadily accelerate the deployment of next-generation global constellation, to lay foundations for serving the areas along the Silk Road Economic Belt and 21st-Century Maritime Silk Road by 2018. 3. Complete the construction of 150 reference stations for the frame network of BeiDou ground based augmentation system, and 300 reference stations for regional density network before the end of 2015, and broadcast the correction data, with meter/decimeter-level positioning accuracy available to major regions nationwide, centimeter level to density regions, and millimeter level correction data for post-processing services. The regional density network will be established within the whole country before the end of 2018.

Application Promotion 1. Carry out all-round R&D and industrialization of new generation BDS/GNSS fundamental products, to promote mass market applications amount to tenmillion units. 2. Bring GNSS to full play in the integration procedure between industrialization and IT applications, push forward all-scale industrial and regional demonstrative applications. 3. Comprehensively implement industrial policies and action plans on products quality monitoring, standardization and IPR protection. Improve the industry chain of satellite navigation.

International Cooperation 1. Publicize the white paper of the BeiDou System and explain its development concepts, policies and opinions. 2. Perfect the cooperation mechanism among GNSS, deeply participate in the tasks under the ICG, ITU, IMO, ICAO, 3GPP and other international organizations, enhance coordination between BeiDou and GPS, GLONASS, Galileo in the field of compatibility and interoperability. 3. Grasp the opportunity of jointly building the One Belt and One Road national strategy, promote the international applications of BeiDou/ GNSS.

Contents 1 2 3 4 5 System Overview System Application International Cooperation Recent Plan Summary

Summary The BeiDou System has been providing stable services to the Asia-Pacific area, successfully launched the first next-generation BeiDou satellite to verify new technologies, deploy the BeiDou augmentation system from allround scale, and steadily push forward the construction of BeiDou System. The BeiDou applications market has been preliminarily fostered, expanding from the typical industries to mass market, and the application industry is under fast development. The BeiDou system deeply promotes cooperation among GNSS, and keeps strengthening international exchanges. "BeiDou" becomes one of the Chinese brands.

Thanks

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback