Global Navigation Satellite Systems Engineering, Policy, and Design
New collaboration to demonstrate how terrestrial 5G-based timing can provide scalable solutions to complement and backup GPS.
By Inside GNSS
Exail has secured a new contract with a U.S.-based global defense player. The agreement involves the delivery of 100 Phins Compact Inertial Navigation Systems (INS) to equip Unmanned Underwater Vehicles (UUVs).
By Inside GNSS
In a project funded by the European Space Agency (ESA) NAVISP program, a Polish consortium led by INFEO, and including the University of Warmia and Mazury in Olsztyn (UWM Olsztyn), has completed the ARWaterNAV project.
By Peter Gutierrez
HawkEye 360 Inc., a provider of signals intelligence data and analytics, today announced enhancements to its GNSS Interference (GNSS-I) Detection product suite.
By Inside GNSS
With funding from the European Space Agency, Swiss R&D company Saphyrion Communication Technologies has developed Detectrion, a GNSS RF recording and playback system designed specifically for interference detection.
By Peter Gutierrez
Collaboration addresses growing maritime challenges to safety of navigation and visibility of high-value assets in degraded and compromised GPS/GNSS environments.
By Inside GNSS
In recent years, the threat of spoofing — the transmission of false signals intended to deceive satellite navigation receivers — has become increasingly prominent.
By Inside GNSS
Swift’s SkylarkTM delivers high-accuracy positioning critical for autonomy and automation. Today, it powers more than 10 million ADAS-enabled and autonomous vehicles, outdoor robots, and IoT devices for precision logistics.
By Inside GNSS
Honeywell has been selected by the U.S. Department of Defense’s (DOD) Defense Innovation Unit (DIU) to participate in the Transition of Quantum Sensing (TQS) program.
By Inside GNSS
Critical National Infrastructure (CNI) is vulnerable to loss of GNSS for positioning, navigation, and timing (PNT). Low Frequency (LF) systems like eLoran offer a robust alternative, especially where satellite signals are degraded or unavailable. Strong 100 kHz eLoran signals are resilient to space weather and difficult to jam or spoof.
By Peter Gutierrez
L3Harris recently demonstrated a Positioning, Navigation, and Timing (PNT) solution for the U.S. Space Force’s (USSF) Space Systems Command that is adaptable to different platforms, is fully reprogrammable on-orbit, and is scalable to support additional signals and increased power to address evolving threats.
By Inside GNSS
Multinational technology firm GMV proudly announces that the Southern Positioning Augmentation Network (SouthPAN) has successfully completed its Critical Design Review (CDR), a milestone towards delivering advanced satellite-based augmentation services (SBAS) across Australia and New Zealand.
By Inside GNSS
As lunar missions transition from exploration to sustained operations, precise Positioning, Navigation, and Timing (PNT) services are becoming essential infrastructure.
By Inside GNSS
