TruePoint.io

Image
DGNSS

DGNSS

Body

TRUEPOINT.IO | DGNSS enables up to 50cm positioning accuracy using DGNSS enabled consumer grade receivers. It is designed to seamlessly integrate over NTRIP/RTCM and provide reliable code based DGNSS corrections. TRUEPOINT.IO is a truly platform-independent and hardware-agnostic solution for devices where accuracy, reliability, and affordability are crucial. 

How It Works

Chart describing GNSS workflow

Coverage That Continues To Expand

Map showing global coverage

Key Benefits

  • 1

    Single service across continents.

    Single service across continents.

  • 2

    Enable DGNSS accuracy without the complicated setup of a local base station or expensive RTK receiver.

    Enable DGNSS accuracy without the complicated setup of a local base station or expensive RTK receiver.

  • 3

    Proven delivery architecture that currently delivers assistance data to billions of devices.

    Proven delivery architecture that currently delivers assistance data to billions of devices.

  • 4

    Easily scalable to millions of connected devices.

    Easily scalable to millions of connected devices.

  • 5

    Achieve the accuracy potential of receivers that can be fed DGNSS corrections.

    Achieve the accuracy potential of receivers that can be fed DGNSS corrections.

Applications

  • From remote delivery vehicles to remote inspection services to automated lawn mowing or line painting robots, the use of robotic machines is growing exponentially.

  • The vast majority of GNSS receivers today are installed in smartphones, with 1.5 billion devices produced every year.

  • The last mile is defined as the final leg of a cargo’s destination—the detail that many delivery services know too well as the critical part of a package's journey.

  • Whether for scooters or ebikes or trucks and cars, managing your fleet is essential to getting the most out of a transportation sharing service.

  • The use of location on connected devices is forever expanding and with it the expectation of position accuracy.

  • Internet of Things (IoT)-enabled asset tracking leverages IoT technology that uses GPS/GNSSchipsets in addition to cellular tower triangulation to pinpoint an asset’s location.

Key Features

  • 1

    Enables DGNSS Accuracy of up 50cm.

    Enables DGNSS Accuracy of up 50cm.

  • 2

    Coverage in the US, China and Europe and expanding to other regions.

    Coverage in the US, China and Europe and expanding to other regions.

  • 3

    Correction for all global constellations.

    Correction for all global constellations.

  • 4

    Seamless integration with any fielded DGNSS receiver over NTRIP in RTCM format.

    Seamless integration with any fielded DGNSS receiver over NTRIP in RTCM format.

  • 5

    Correction delivered directly to device via RxN server or via customer backend.

    Correction delivered directly to device via RxN server or via customer backend.

^Dependent on positioning algorithm, single or dual band and antenna type, Number is RMS
Image
TruePoint PPP diagram with many icons

Precise Point Positioning

Body

TRUEPOINT.IO | PPP is a platform-independent, real-time global service that uses Precise Point Positioning (PPP) technology enabling devices to achieve high position accuracy without the need to purchase base stations or the more expensive Network RTK solutions.

How It Works

Chart describing GNSS workflow

Key Benefits

  • 1

    Accuracy for Connected GNSS chipsets in Handsets, and IoT.

    Accuracy for Connected GNSS chipsets in Handsets, and IoT.

  • 2

    Better location resolution of assets in real-time.

    Better location resolution of assets in real-time.

  • 3

    Increased productivity with accurate location.

    Increased productivity with accurate location.

  • 4

    Global and seamless coverage with a single integration.

    Global and seamless coverage with a single integration.

Applications

  • From remote delivery vehicles to remote inspection services to automated lawn mowing or line painting robots, the use of robotic machines is growing exponentially.

  • The vast majority of GNSS receivers today are installed in smartphones, with 1.5 billion devices produced every year.

  • The last mile is defined as the final leg of a cargo’s destination—the detail that many delivery services know too well as the critical part of a package's journey.

  • The use of location on connected devices is forever expanding and with it the expectation of position accuracy.

  • UAV

    UAV’s have been widely used in aerial photography, electrical, pipeline and facility inspections, agricultural mapping / inspection, aerial surveillance as well as for film and home entertainment purposes.

  • Knowing where members of your crew wearing personal tracking devices are is essential to their safety.

Key Features

  • 1

    Orbits and clocks corrections, plus a global model of ionospheric and tropospheric delays.

    Orbits and clocks corrections, plus a global model of ionospheric and tropospheric delays.

  • 2

    Client based solution that provides fast Time to First Fix (TTFF) with <20cm^accuracy.

    Client based solution that provides fast Time to First Fix (TTFF) with <20cm^accuracy.

  • 3

    Data feed-based solution enabling <20cm^ accuracy.

    Data feed-based solution enabling <20cm^ accuracy.

  • 4

    Low Bandwidth suitable for constrained data rate applications.

    Low Bandwidth suitable for constrained data rate applications.

^Dependent on positioning algorithm, single or dual band and antenna type, Number is RMS
Image
RTK Smart Phone

PPP-RTK Precise Positioning Service

Body

TRUEPOINT.IO | PPP-RTK enables close to RTK precision without the complication of RTK infrastructure or expensive RTK subscription. TRUEPOINT.IO is designed with scalability and reliability in mind, using the same delivery architecture that is delivering assistance data to billions of devices daily with 99.999% SLA. TRUEPOINT.IO | PPP-RTK seamlessly integrate with RTK enabled receiver via NTRIP/RTCM to enable high precision position instantly. TruePoint.io is truly platform-independent and hardware-agnostic solution for devices where accuracy and affordability are crucial.

How It Works

Diagram explaining GNSS functions

Applications

  • From remote delivery vehicles to remote inspection services to automated lawn mowing or line painting robots, the use of robotic machines is growing exponentially.

  • The vast majority of GNSS receivers today are installed in smartphones, with 1.5 billion devices produced every year.

  • The last mile is defined as the final leg of a cargo’s destination—the detail that many delivery services know too well as the critical part of a package's journey.

  • Whether for scooters or ebikes or trucks and cars, managing your fleet is essential to getting the most out of a transportation sharing service.

  • The use of location on connected devices is forever expanding and with it the expectation of position accuracy.

  • UAV

    UAV’s have been widely used in aerial photography, electrical, pipeline and facility inspections, agricultural mapping / inspection, aerial surveillance as well as for film and home entertainment purposes.

  • Agricultural machinery (driven or autonomous) equipped with GNSS technology is widely used for many different agricultural tasks today, from soil analysis, seeding, planting, plowing, fertilization, weeding, harvesting, and more

  • Internet of Things (IoT)-enabled asset tracking leverages IoT technology that uses GPS/GNSSchipsets in addition to cellular tower triangulation to pinpoint an asset’s location.

Product Data Sheet Request

Comprehensive product feature specifications.

Lorem ipsum dolor sit amet, consectetur adipiscing elit. Nullam quis augue eu arcu tempor tincidunt mattis in ligula. Donec malesuada, ex non congue porta, ligula metus bibendum velit, accumsan hendrerit mi odio non ligula. Ut non arcu ligula. Sed ut efficitur est. Phasellus pharetra ipsum vel placerat feugiat.