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Receiver Operations: Difference between revisions
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One thing most GNSS receivers have in common is how they operate in terms of processing chain, from reception of signals to solution outputs. | Any GNSS receiver gathers | ||
==Operation modes== | |||
One thing most GNSS receivers have in common is how they operate in terms of processing chain, from reception of signals to solution outputs. Alhough their [[Receiver Types|types]], [[System Design Details|architectures]], and [[Applications Processing|applications]] may vary, the operations of receivers apply transversly: | |||
*<b>RF stage</b>: the first stage of a receiver comprises the antenna and front end, responsible for the RF processing chain. | |||
*<b>Start-up</b>: a receiver starts processing the samples from the RF stage in different ways, depending on the available <i>a priori</i> information. | |||
*<b>Acquisition</b>: the first step, in many cases, is the search for visible satellites that can be tracked and used in the computed solution. | |||
*<b>Tracking</b>: after the initial determination of the satellites to track, several signal processing algorithms are use to continuously track the satellite's motion relative to the user. | |||
*<b>Lock detection</b>: a receiver constantly performes decisions to assess the quality of the observables in terms of noise or uncertainty, and these decisions determine the probability of a given tracked signal being "lost". This decision can yield a loss of lock, and the receiver channel is free to process other signals (e.g. start acquisition for other satellites). | |||
*<b>Solution output</b>: when tracking is successfull for a large enough period of time, and for enough satellites, the navigation message can be decoded from each signal, and the extracted information is used to compute the best solution needed - in most cases, the user's [[GNSS Receivers General Introduction|PVT solution]]. | |||
==RF stage== | ==RF stage== | ||
GNSS receivers operate in three | GNSS receivers operate in three | ||
==Start-up | ==Start-up== | ||
GNSS receivers operate in three | GNSS receivers operate in three | ||
| Line 20: | Line 35: | ||
==Tracking== | ==Tracking== | ||
GNSS receivers operate in three | |||
==Lock detection== | ==Lock detection== | ||
GNSS receivers operate in three | |||
==Solution output== | ==Solution output== | ||
GNSS receivers operate in three | |||
==Related articles== | ==Related articles== | ||
Revision as of 17:10, 30 March 2011
| Receivers | |
|---|---|
| Title | Receiver Operations |
| Author(s) | GMV |
| Level | Medium |
| Year of Publication | 2011 |
Any GNSS receiver gathers
Operation modes
One thing most GNSS receivers have in common is how they operate in terms of processing chain, from reception of signals to solution outputs. Alhough their types, architectures, and applications may vary, the operations of receivers apply transversly:
- RF stage: the first stage of a receiver comprises the antenna and front end, responsible for the RF processing chain.
- Start-up: a receiver starts processing the samples from the RF stage in different ways, depending on the available a priori information.
- Acquisition: the first step, in many cases, is the search for visible satellites that can be tracked and used in the computed solution.
- Tracking: after the initial determination of the satellites to track, several signal processing algorithms are use to continuously track the satellite's motion relative to the user.
- Lock detection: a receiver constantly performes decisions to assess the quality of the observables in terms of noise or uncertainty, and these decisions determine the probability of a given tracked signal being "lost". This decision can yield a loss of lock, and the receiver channel is free to process other signals (e.g. start acquisition for other satellites).
- Solution output: when tracking is successfull for a large enough period of time, and for enough satellites, the navigation message can be decoded from each signal, and the extracted information is used to compute the best solution needed - in most cases, the user's PVT solution.
RF stage
GNSS receivers operate in three
Start-up
GNSS receivers operate in three
Acquisition
GNSS receivers operate in three
Tracking
GNSS receivers operate in three
Lock detection
GNSS receivers operate in three
Solution output
GNSS receivers operate in three
Related articles
For further details on GNSS receivers, please visit the following links: