Return to main article: "Environmental Sensing"
By Inside GNSSReturn to main article: "Environmental Sensing"
By Inside GNSSReturn to main article: "Environmental Sensing"
By Inside GNSSIn recent years, numerous, relatively inexpensive hardware platforms for conducting scientific research using the software defined radio (SDR) paradigm have become commercially available. The Manufacturers section near the end of this article lists examples of several of these. In turn, this has spurred universities and research groups around the world to adopt this technology for advanced GNSS signals-based research and development.
By Inside GNSSIn the past 20 years GPS has simultaneously revolutionized both our modern infrastructure (by providing real-time navigation, mapping, and timing support) and our geodetic/surveying capabilities (by providing millimeter/centimeter-level positioning). At this point, most of the GNSS innovations we expect to see in the next decade will come from calculating positions more accurately and faster, while expanding from GPS to use of all available GNSS signals.
By Inside GNSSReturn to main article: "Collective Detection of Multi-GNSS Signals"
By Inside GNSS