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Receiver Types
Receivers | |
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Title | Receiver Types |
Author(s) | GMV |
Level | Basic |
Year of Publication | 2011 |
GNSS receivers can be categorized by their type in different ways, and under different criteria. Besides the professional-grade receivers (e.g. survey and precision, commercial Portable Navigation Devices (PND's) are very common inside vehicles today, and smartphones appear more and more equiped with integrated GNSS receivers. All these applications and receiver implementations, differing in a number of design decisions and approaches to GNSS solution computation, are described in the following sections.
Platform
GNSS receivers run in a wide variety of platforms from chipsets to microprocessors. The choice of the target platform is a trade-off of parameters such as receiver performance, cost, power consumption and autonomy. Furthermore, the increasing capabilities of microprocessors have enabled the emergence of software receivers with performances comparable to full-hardware receivers, providing the flexibility required for some user applications.
Multi-constellation
In the context of the emergence of multiple satellite navigation systems (both regional and global), multi-constellation receivers are widely available. This has been encouraged at system design level by working towards interoperability and compatibility among all systems. From the receiver perspective, multi-constellation brings a key added value on solution availability, especially in urban canyon environments.
Multi-frequency
The key benefit of multi-frequency receivers over single frequency receivers relies on the removal of the frequency-dependent errors on the signals, hence improving receiver accuracy. The most important example is the correction for ionospheric delays, since they usually represent the main contributors to the overall measurement error. The challenge, of course, relies on the higher cost of the additional RF hardware.
Tracking and solution computation
This aspect indicates whether the solution is computed from the pseudo-range measurements (noisier) or from the carrier measurements. Although these latter are less noisy, they present a natural ambiguity related to phase measurements, that needs to be solved at receiver level. Please refer to XXX for some of the available techniques. The trade-off in this case is complexity (and processing power) versus accuracy.
Differential
Differential techniques enable improved receiver performance (namely accuracy), by providing the receiver with additional information such as measurements from receivers in the vicinities or corrections computed independently. Please refer to XXX for further information on DGNSS, PPP or RTK.
Aided and assisted
Aiding the receiver operation can be achieved by providing the necessary navigation data (almanacs and ephemeris) beforehand (e.g. via Internet), rather than waiting for the message itself to be decoded by the receiver. This can reduce the time to first fix (TTFF) and improve performance on challenging environments, where signal strength and satellite visibility may be low. Assisting information can also be provided by other technologies, such as Inertial Navigation Systems, WiFi, UWB or sending useful information over the internet. Depending on the solution envisaged, this might have an impact at several levels, such as availability or continuity. Please refer to XXX for further information on A-GNSS.
Augmentation
GNSS receivers can benefit from corrections or measurements provided by augmentation systems (i.e. SBAS or GBAS) to improve their performances. Please refer to XXX for further information.
Services
Finally, GNSS Receivers may support multiple services provided by the future GNSS generation. As an example, Galileo will provide four services: Open Service (OS), Commercial Service (CS), Public Regulated Service (PRS) and Safety of Life (SoL) services, as described in XXX.
Related articles
For a generic description on GNSS receivers, please visit the following link: