RAIM for Ship and Rig Management



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RAIM for Ship and Rig Management Maritime Applications Institute of Space Technology and Space Applications University FAF Munich, Germany PhD Student Diana Fontanella Diana.Fontanella@unibw.de PhD Student Victoria Kropp Victoria.Kropp@unibw.de PhD Student Hanno Beckmann Hanno.Beckmann@unibw.de Prof. Dr. Ing. Bernd Eissfeller Bernd.Eissfeller@unibw.de Peking, China 7 November 2012

Presentation Overview Motivation & Objectives Present enavigation Receiver Autonomous Integrity Monitoring (RAIM) Horizontal Protection Levels (HPL) RAIM Availability Simulation Performances HPL Values for the Harbor in Hamburg RAIM Availability Over the Globe Threats & Alternative Systems 2

Motivation & Objectives What benefits does Receiver Autonomous Integrity Monitoring (RAIM) offer to marine navigation? Can multi constellation dual frequency GNSS RAIM meet Arctic challenges and provide integrity for the safety, reliable and cost effective oil transport and exploitation Can classical RAIM extended to operate with dual frequency and dual constellation GNSS achieve 99.8% of IMO future GNSS availability requirements A 22/Res. 915 Availability of RAIM is the percentage of time that provides usable navigation service within a specified coverage area 3

Present enavigation Mix of AtoN (Aids to Navigation) Augmentation through IALA 1 DGPS e Navigation elements AIS 2,3 (Automatic Identification System) ECDIS (Electronic Chart Display and Information System) GNSS/DGNSS (Global Navigation Satellite Systems/ Differential GNSS) Radars (X Band or S Band) eloran (enhanced LOng RAnge Navigation) other radio navigation means 1 International Association of marine aids to navigation and Lighthouse Authorities 2 http://www.marinetraffic.com e Navigation is the collection, integration and display of maritime information onboard and ashore by electronic means to enhance berth to berth navigation and related services, safety and security at sea and protection of the marine environment IALA e navigation definition RAIM 3 is a vital technology and an easy way to provide a GNSS integrity monitoring solution 3 possible integration of position integrity enhanced by RAIM (Receiver Autonomous Integrity Monitoring) 4

RAIM Receiver Autonomous Integrity Monitoring (RAIM) is a technique that uses an overdetermined solution to perform a consistency check on the satellite measurements The output of the algorithm is the Horizontal Protection Level (HPL), which is the radius of circle, centered at the true user position that is assured to contain the indicated horizontal position with the given probability of false alarm (P FA ) and missed detection (P MD ) ISTAR (Integrity Simulation Tool for Advanced RAIM) allows to estimate Horizontal Protection Levels based on the various GNSS constellations and multiple frequencies Ref.: MultiRAIM Project, founded by the Bundesministerium für Wirtschaft und Technologie (BMWi), administered by the Agency of Aeronautics of the DLR in Bonn (FKZ 50NA1004) 5

Summary of Major Steps 1 Horizontal Alert Limit (HAL ) 6

Horizontal Protection Level (HPL) Ref.[1]: Kaplan, p. 353 Ref.[2]: J.E.Angus, RAIM with Multiple Faults. Ref.[3]: T.Walter, P.Enge, Weighted RAIM for Precision Approach, Palm Springs, CA, September 1995, pp. 1995 2004 7

HPL over 10 Sidereal Days Hamburg harbour GPS 27 Sat GAL 27 Sat Time period: 10 Days, Time step: 600 s Pmd = 10-4 System Level Parameters Port approach and restricted waters Absolute accuracy Horizontal (Meters) Alert Limit (Meters) Integriy Time to Alarm (s) IMO GNSS performance requirements for general navigation according to Res. A.915(22) on future GNSS 8 Integrity Risk per(3 hours) 10 25 10 10 5

RAIM Availability (HPL 2 ) Grid: 5 x 5 Time period: 10 Days Time step: 600 s GPS 27 Sat GAL 27 Sat HAL = 15 m URA = 1.2 m SISA = 1.2 m Pfa = 2.1 10 5 P apriori_sat = 10 4 Mask angle:10 Service Level Parameters Availability % per 30 days Continuity % over 3 hours Coverage Fix interval (s) Port approach and restricted waters 99.8 N/A Global 1 IMO GNSS performance requirements for general navigation according to Res. A.915(22) on future GNSS 9

RAIM Availability INTEGRITY REQUIREMENTS HAL = 15 m Pfa = 2.1 10-5 The percentage of the globe between 70 S and 70 N that has 95% and 99.8% RAIM availability URA = 1.2 m SISA = 1.2 m Mask angle: 10 P apriori_sat = 10-4 Dual Frequency GNSS RAIM With the 15m Horizontal Alert Limit the simulation results meet the reuquired availability 10

Threats GNSS Weakness Large Distance to Satellites Low GNSS Signal Power Space Weather Spoofing Simulation and Transmission of fake GNSS Signals Manipulate NPT Solution Denial of Service Intentional Jamming Unintentional Radio Interference 11

Alternative Systems Navigation Parameter Heading Position Speed Measurement Principle Accuracy Availability Mechanical Gyroscope FOG (Fiber Optic Gyroscope ) THD (Transmitting Heading Device) Magnetic (Compass) GNSS DGNSS LORAN C eloran Doppler Speed Log Electromagnetic Log Satellite Log 0.1 deg < 0.5 deg < 1.0 deg < 5 deg 4.5 25 m 0.1 25 m < 450 m < 20 m < 0.2 kn < 0.5 kn < 0.1 kn 100 % 100 % <100 % 100 % Depth Echo Sounder < 1 m <300 m 100% (for 2 GNSS) Station dependent Chain dependent Depth 80 400 m 100% 100% Ref.[1]: Dr. v. Koehler, Integrated Navigation Systems for Commercial Shipping, CCG e.v. Oberpfaffenhofen, 2010 12

Summary & Conclusions Dual Frequency Dual GNSS constellation RAIM Algorithms can achieve 99.8% of IMO future GNSS availability requirements A 22/Res. 915 Ships have to carry a GNSS receiver (AIS). RAIM could be integrated Moreover RAIM can be supported by additional INS or augmentation system information Multi constellation GNSS RAIM can support in demanding applications such as navigation in Arctic The RAIM already used in aviation is fairly efficient against a large number of threats (including spoofing) Future GNSS systems & increased number of satellites will allow best selection of the NPT information in order to provide integrity to the user s position; achieve safety and cost effective navigation solution 13

Questions and Discussion Contact Information University of Federal Armed Forces Munich, Germany Werner Heisenberg Weg 39, 85577, Neubiberg Mail: Victoria.Kropp@unibw.de Phone: +49 89 6004 2588 Thank you four your attention! 14

enavigation Architecture Ref.: e Nav 140, The e Navigation Architecture the initial shore based architecture perspective, Ed. 1.0, IALA Recommendations, Dec. 2009 15

RAIM Availability INTEGRITY REQUIREMENTS HAL = 25 m Pfa = 2.1 10-5 The percentage of the globe between 70 S and 70 N that has 95% and 99.8% RAIM availability URA = 1.2 m SISA = 1.2 m Mask angle: 10 P apriori_sat = 10-4 Dual Frequency Dual GNSS RAIM with 2 simultaneous failures 16

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