Insights

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24 Nov 2021

How GPS protection level adds value to robotic lawnmowers and other use cases

Knowing when positioning data is unreliable improves service efficiency and quality.

GPS protection level benefits robotic lawnmowers

Autonomous robots, cars, and all other GPS-enabled applications all have one thing in common: they never know precisely where they are. That isn’t to say that they are clueless as to their location. There is simply no way for them to know exactly how accurate the position output they get from their global navigation satellite system (GNSS) receiver is. 

Standard GNSS receivers are accurate to within a few meters. Multi-constellation, multi-frequency solutions with dead reckoning can reliably achieve accuracies down to about one meter. And high precision receivers can use GNSS correction data to bring accuracies down to just a few centimeters. 

In each case, however, the real-time position error is unavailable to the end device. So far, the best guess has been the accuracy estimate, calculated a variety of inputs such as the quality of the incoming satellite signals and other conditions experienced by the GNSS receiver. While this estimate does help narrow down the likely location of the GNSS receiver to a smaller circle, it leaves open a gaping door for outliers: accuracy estimates based on a modified Gaussian distribution typically only offer 68% confidence. 

What is GPS protection level? 

GNSS protection level takes the idea of an accuracy estimate one step further. It uniquely offers an empirically validated real-time estimate of the maximum position error with 95 percent confidence. In other words, it increases the size of the circle likely to contain the GNSS receiver’s actual position, but all but closes the door on outliers. Put in numbers: the actual position error of the GNSS receiver operating with a 1 Hz output rate will exceed the protection level no more than 180   times per hour (for 3600 reported positions). 

To be clear, the protection level is not a static value assigned to a GNSS receiver. Like the accuracy estimate, it constantly evolves based information gleaned from the incoming satellite signals. But while the actual position error often exceeds the accuracy estimate, it is extremely rare for it to exceed the protection level. For applications accustomed to dealing in probabilities and estimates, the protection level offers an unusual level of certainty, making it valuable for any number of GNSS-based use cases. 

The benefits of GPS protection level

Consider robotic lawnmowers. These slow-moving devices typically follow random trajectory across a plot of land delimited by underground boundary wires, using sensors to keep them from hitting obstacles. It’s an approach that has worked quite well in the past especially in settings that do not require the perfect stripe patterns we know from football and soccer fields are not a requirement. All the lawnmowers need to trim every last blade of grass is enough time. 

But with the introduction of high precision GNSS technology, the next generation of robotic lawnmowers will, instead, be able to adopt a more systematic and efficient approach, using real-time path planning algorithms based on a digital map. There is, however, a condition: the robotic lawnmower needs to be capable of reliably avoiding exclusion zones marked on the map, such as flower beds or other off-limit areas such as neighboring property. 

GPS protection level gives the robotic lawnmower a reliable metric, using which it can adapt its trajectory in real-time to the quality of the GNSS receiver’s position output. 

 

How GPS protection level keeps robotic mowers off no-mow zones.

As illustrated in the image above, the robotic lawnmower operates according to plan as long as the distance between the reported position and the exclusion area exceeds the protection level. When the protection level increases to the point that it extends into the exclusion area, or if no valid protection level value is available, service is interrupted. In this case, the lawnmower can, for example, retrace its steps back to the most recent trusted position. 

Ultimately, GPS protection level increases quality of service by letting the lawnmower get closer to exclusion area while minimizing the risk of entering it. 

Other applications that benefit from GPS protection level

Robotic lawnmowers are by no means the only application to benefit from GPS protection level. Basically, any application that relies on GPS-based positioning information can benefit from a highly reliable upper bound on the position error. Next, we briefly look at four other use cases. 

GPS protection level benefits in-vehicle navigation solutions

In-vehicle navigation and driver assistance systems

In-vehicle navigation and driver assistance systems can offer improved user experience by eliminating misleading information from the GNSS receiver.

Driving instructions and alerts can, for example, be issued only when the protection level is below a predefined threshold referred to as the alert limit. This can also help prevent repeating alerts caused by challenging GNSS signal environments. 

GPS protection level benefits drone surveying solutions

Drone based surveying

Drone based surveying depends on accurate GNSS data to correctly geotag photographs and make accurate measurements. When the protection level exceeds a predefined alert limit, the drone’s control software can flag inaccurately geotagged images or return to the same location to make new measurements once the protection level has returned to an acceptable value. 

GPS protection level can also increase reliability by ensuring that autonomous drones only land when its value is below a predefined alert limit. 

GPS protection level helps keep e-scooters off sidewalks

Micromobility 

e-scooters or shared bikes are increasingly required to comply with municipal regulations such as no-ride zones. To enforce these regulations, e-scooters might, for example, slow down to a halt when riders enter restricted geo-fenced areas.

When the protection level exceeds a predetermined alert limit, alerts can be temporarily interrupted to avoid erroneously stopping users that are complying with regulations. 

GPS protection level benefits fleet management solutions

Fleet management solutions

Fleet operators, too, can benefit from GPS protection level to increase the quality of service, for example, by making it easier to locate parked vehicles.

Telematics systems in parked vehicles could, for instance, be instructed to only report their position if the GPS protection level is below a specific threshold. 

Get started with GPS protection level today! 

GPS protection level is now available on the ZED-F9P-04B high precision GNSS module. Designed for seamless integration with the NEO-D9C and NEO-D9S GNSS correction service receivers, the module offers customers unprecedented flexibility in assembling cost-effective, scalable solutions for robotic lawnmowers, unmanned autonomous vehicles (UAV), and semi-automated or fully automated machinery.

Head over to u-blox.com to learn more about protection level, the upgraded ZED-F9P high precision GNSS receiver, our new GNSS correction service receivers, and more. 
 

GPS protection level benefits in-vehicle navigation solutions

In-vehicle navigation and ADAS

In-vehicle navigation and driver assistance systems can offer improved user experience by eliminating misleading information from the GNSS receiver.

Driving instructions and alerts can, for example, be issued only when the protection level is below a predefined threshold referred to as the alert limit. This can also help prevent repeating alerts caused by challenging GNSS signal environments. 


GPS protection level benefits drone surveying solutions

Drone based surveying

Drone based surveying depends on accurate GNSS data to correctly geotag photographs and make accurate measurements. When the protection level exceeds a predefined alert limit, the drone’s control software can flag inaccurately geotagged images or return to the same location to make new measurements once the protection level has returned to an acceptable value. 

GPS protection level can also increase reliability by ensuring that autonomous drones only land when its value is below a predefined alert limit. 


GPS protection level helps keep e-scooters off sidewalks

Micromobility

e-scooters or shared bikes are increasingly required to comply with municipal regulations such as no-ride zones. To enforce these regulations, e-scooters might, for example, slow down to a halt when riders enter restricted geo-fenced areas.

When the protection level exceeds a predetermined alert limit, alerts can be temporarily interrupted to avoid erroneously stopping users that are complying with regulations.


GPS protection level benefits fleet management solutions

Fleet management solutions

Fleet operators, too, can benefit from GPS protection level to increase the quality of service, for example, by making it easier to locate parked vehicles.

Telematics systems in parked vehicles could, for instance, be instructed to only report their position if the GPS protection level is below a specific threshold. 


Get started with GPS protection level today! 

GPS protection level is now available on the ZED-F9P-04B high precision GNSS module. Designed for seamless integration with the NEO-D9C and NEO-D9S GNSS correction service receivers, the module offers customers unprecedented flexibility in assembling cost-effective, scalable solutions for robotic lawnmowers, unmanned autonomous vehicles (UAV), and semi-automated or fully automated machinery.

Head over to u-blox.com to learn more about protection level, the upgraded ZED-F9P high precision GNSS receiver, our new GNSS correction service receivers, and more. 

Alex Ngi

u-blox 定位产品中心工业导航和机器人领域产品经理

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