Theoretical and Model Strengthening of Future Global Navigation Satellite Systems (GNSS) to Yield Improved Geospatial Information for Tomorrow's Society View Homepage


Ontology type: schema:MonetaryGrant     


Grant Info

YEARS

2008-2013

FUNDING AMOUNT

2108730 AUD

ABSTRACT

Australia is a significant user of Global Navigation Satellite Systems (GNSSs) because of its utility and for scientific applications (e.g., Earth-, atmospheric- and space-science). The national benefit of improved integer-estimation and model strengthening of integrated GNSSs is twofold: 1. all future scientific GNSS studies will rest on more reliable positioning and related solutions, and 2. the refinements to these high-precision and high-integrity scientific GNSS applications will feed into much-improved geospatial information for tomorrow's society. More... »

URL

http://purl.org/au-research/grants/arc/FF0883188

Related SciGraph Publications

  • 2019-01. Precise regional L5 positioning with IRNSS and QZSS: stand-alone and combined in GPS SOLUTIONS
  • 2015. Multivariate GNSS Attitude Integrity: The Role of Affine Constraints in VIII HOTINE-MARUSSI SYMPOSIUM ON MATHEMATICAL GEODESY
  • 2014. GPS + GLONASS CORS Processing: The Asian-Pacific APREF Case in EARTH ON THE EDGE: SCIENCE FOR A SUSTAINABLE PLANET
  • 2012. Next Generation GNSS Single Receiver Cycle Slip Reliability in VII HOTINE-MARUSSI SYMPOSIUM ON MATHEMATICAL GEODESY
  • 2012. Uniqueness and Nonuniqueness of the GNSS Carrier-Phase Compass Readings in VII HOTINE-MARUSSI SYMPOSIUM ON MATHEMATICAL GEODESY
  • 2012. Integer Ambiguity Resolution with Nonlinear Geometrical Constraints in VII HOTINE-MARUSSI SYMPOSIUM ON MATHEMATICAL GEODESY
  • 2012. Improving the GNSS Attitude Ambiguity Success Rate with the Multivariate Constrained LAMBDA Method in GEODESY FOR PLANET EARTH
  • 2009. Multiplatform Instantaneous GNSS Ambiguity Resolution for Triple- and Quadruple-Antenna Configurations with Constraints in INTERNATIONAL JOURNAL OF NAVIGATION AND OBSERVATION
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