EGNOS Gets to Work
February 1, 2011 By: François Boullete, Boris Kennes, Michaël Mastier, Lee Banfield GPS WorldUsing the Augmentation System with GPS-Equipped Mobile Phones
Figure 1. Application running on HTC Phone.
GPS corrections from the European Geostationary Navigation Overlay Service can improve the positioning accuracy and user experience of GPS-enabled mobile phones, even if EGNOS satellites are not visible and even when the GNSS chipset in the phone does not support satellite-based augmentation systems.
Today, more than 20 percent of mobile phones in use in Europe include a GNSS chipset, and the penetration is expected to exceed 50 percent in the next 5 years. Despite its success in other sectors such as agriculture since the launch of its Open Service in October 2009,
EGNOS has received limited adoption in location-based services (LBS) and consumer applications, due to two main obstacles. First, the signals from the three EGNOS geostationary satellites that are easily received in open-sky environments are difficult to receive in cities, due to masking by buildings. Second, most GNSS chipsets embedded in today’s mobile phones are GPS-only without SBAS support, or use SBAS for ranging only, a function not supported by EGNOS at this stage.
The European GNSS Agency (GSA) and the European Commission (EC) supported the work described here to provide mobile phone operating system and application developers with a library of functions to allow them to benefit from EGNOS in all their applications. It works by receiving correction data via mobile communication networks when EGNOS satellites are not visible to the user device and even when using a standard GPS chipset, overcoming these two main obstacles for adoption.
Targeted mobile operating systems now include Nokia Maemo, Google Android, and Microsoft WinMobile. Further work will extend to this list to other compatible platforms.
This article demonstrates the feasibility and shows the performance of a software-based EGNOS solution and seeks to create awareness among mobile operating system and application developers on EGNOS.
User Benefits and Constraints
Although the sources of GPS positioning errors in urban areas are mainly due to multipath and GPS satellites availability, SBAS corrections on GPS satellites clocks and orbits and ionospheric correction model can still add value in case of moderate multipath environment characteristics. Although GPS stand-alone accuracy is nowadays generally sufficient, it is expected to degrade in the next couple of years as solar activity increases. Availability of free EGNOS corrections delivered via the mobile communication network will help maintain accuracy during these high solar activity periods.
The limited visibility of EGNOS satellites in urban areas requires the use of the mobile communication network to retrieve the EGNOS corrections. This can be perceived at the first sight as a drawback to the proposed solution as it involves communication costs. However, the required bandwidth is negligible compared to today’s mobile applications such as music and video streaming; further, mobile operators increasingly offer smartphones with unlimited data-access packages.
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