Inside GNSS - Global Navigation Satellite Systems Engineering, Policy, and Design - Global Navigation Satellite Systems Engineering, Policy, and Design
September 23, 2021

Webinar Examines Fastest-Ever Autonomous Vehicles Equipped with GNSS, Inertial, LiDAR and More

The fastest driverless speeds yet achieved will occur during the Indy Autonomous Challenge (IAC) on October 23. The autonomous competition will award a $1 million grand prize for the most successful R&D team that programs their driverless, GNSS-, inertial- and multisensor-equipped racecar to clock the fastest fifty-mile distance around the legendary Indianapolis Motor Speedway.

Read More >

By Inside GNSS
September 21, 2021

GNSS Foresight Heralds New Direction for Aviation, UAVs, Air Taxis and Entire PNT Industry

Spirent Communications has launched GNSS Foresight, a cloud-based solution that empowers GNSS users with advance knowledge about the strength and reliability of GNSS signals in exact locations within their operational areas. The service will have early application for aviation, unmanned and autonomous platforms, but Spirent VP Jeremy Bennington told Inside GNSS that its potential is far wider.

Read More >

By Inside GNSS
September 21, 2021

Smartphone-based GNSS Positioning – Today and Tomorrow

This article reviews some of the recent results analyzing the feasibility of carrier-phase based positioning with smartphone data and highlights limitations largely arising due to the poor antenna quality. It shows how they might be overcome by antenna calibration or coupling to the phone’s inertial sensors. The goal is to perform a successful RTK positioning with the smartphone-quality data.

Read More >

By Inside GNSS
MORE NEWS
September 21, 2021

GNSS Foresight Heralds New Direction for Aviation, UAVs, Air Taxis and Entire PNT Industry

Spirent Communications has launched GNSS Foresight, a cloud-based solution that empowers GNSS users with advance knowledge about the strength and reliability of GNSS signals in exact locations within their operational areas. The service will have early application for aviation, unmanned and autonomous platforms, but Spirent VP Jeremy Bennington told Inside GNSS that its potential is far wider.

Read More >

By Inside GNSS
MORE NEWS
MORE NEWS
August 27, 2021

Analog Devices Completes Acquisition of Maxim Integrated

Analog Devices, Inc. (NASDAQ: ADI) today announced the completion of its previously announced acquisition of Maxim Integrated Products, Inc. (NASDAQ: MXIM). The combination further strengthens ADI’s position as a high-performance analog semiconductor company with trailing twelve-month revenue of over $9 billion1, industry leading margins, and free cash flow of over $3 billion1 on a pro forma basis.

Read More >

By Inside GNSS
July 29, 2021

Spacestar PPP Service Heads into Orbit

Fugro’s SpaceStar GNSS Precise Point Positioning (PPP) service provides high-accuracy positioning in space. Highly accurate positioning in LEO is becoming increasingly important for Earth observation applications, safe constellations management, and space debris collision avoidance.

Read More >

By Inside GNSS
MORE NEWS

INDUSTRY VIEW

More Industry News
September 24, 2021

Robotic Cane Offers Indoor Navigation for Visually Impaired Users

Read More >
September 22, 2021

Xona Space Readies for Launch of Its First Commercial PNT Satellite in LEO: Mid-2022

Read More >

First OSNMA Simulation Tools for Galileo Signal Authentication Now Available

Read More >

GNSS TIMELINE

More Timelines
September 1, 2021

Mission-Critical GNSS Training

Read More >
August 27, 2021

Joint Navigation Conference Brings 800+ to Exhibit Hall, Technical Sessions

Read More >
August 3, 2021

AUVSI Xponential 2021

Read More >

COLUMNS & EDITORIALS

September 21, 2021

Smartphone-based GNSS Positioning – Today and Tomorrow

This article reviews some of the recent results analyzing the feasibility of carrier-phase based positioning with smartphone data and highlights limitations largely arising due to the poor antenna quality. It shows how they might be overcome by antenna calibration or coupling to the phone’s inertial sensors. The goal is to perform a successful RTK positioning with the smartphone-quality data.

Read More >

By Inside GNSS
MORE COLUMNS & EDITORIALS