Stryd footpod review

Revision as of 04:33, 9 June 2017 by User:Fellrnr (User talk:Fellrnr | contribs) (comment: batch update)

Revision as of 04:33, 9 June 2017 by User:Fellrnr (User talk:Fellrnr | contribs) (comment: batch update)

Stryd is one of the most useful and impressive running technologies available. It's a Footpod that analyzes the movement of your foot with greater accuracy than most traditional Footpods. While a lot of the Stryd marketing focuses on their "running power meter" functionality, I see the greatest value coming from their accurate measurement of pace and distance. If you look at my testing of GPS Accuracy, you will see that Stryd gives a far more accurate measurement of distance than any GPS watch. It accurate enough that it really doesn't need any calibration, and unlike GPS, it should work in any situation. Not only is it providing accurate distance measurement, but it provides real-time pace, something that's impractical to achieve with any GPS device. While I believe Running Power Meters are quite different to cycling power meters and are more of a "power estimate" than a meter, I think that if you understand their limitations they can still be useful. At $200 I think that Stryd is good value for money, and it's one of the few running devices that I would replace unhesitatingly if I lost it. (Note that you need to have access to an iOS or Android device to setup Stryd.)

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Contents

1 The Metrics

Stryd provides an array of different metrics, which vary both in accuracy and usefulness.

  • Pace and Distance. My testing has shown that the Stryd is stunningly accurate in its measurement of distance. It's the only Footpod that is accurate enough that it doesn't require calibration, something that greatly improves its usability. If you look at my testing of distance accuracy you'll see that the Stryd is right at the top of the chart, and is far more accurate than any GPS device I've tested. This accuracy is also reflected in its measurement of current running pace. I think that this feature alone makes the Stryd good value for money. (Stryd doesn't use or provide GPS data, it uses accelerometers. Depending on the watch, the data from Stryd can be combined with the Watch's GPS data so that Stryd gives distance and pace, and the watch's GPS can be used for navigation.)
  • Elevation. I suspect that Stryd is providing remarkably accurate elevation information. Due to limitations on data export I've not been able to perform any statistical evaluation, but anecdotally the data looks really good. Obviously, the Stryd cannot provide any absolute altitude information, but it does seem to be able to measure relative changes far better than either GPS or barometric altimeter's. At the moment, this information is not as directly usable as I'd like, as it's only available in real time via their, not their watch integration. If you use the Connect IQ data field, it will record elevation as a custom data track, and it is possible to copy this to the standard elevation track using plugins to Sport Tracks.
  • Running Power. As I talk about in my page on Running Power Meters, I believe that they are a flawed concept, but if you understand the limitations they can still be useful. So, Stryd it does not actually measure running power, but attempts to estimate what the power would be based on the things it can measure. My assumption is that it is mostly using pace and elevation change, possibly along with Cadence or Ground Contact Time. As discussed in the section below on the testing running power, I have found that the Stryd seems to give a reasonable estimate of relative intensity for flat and uphill running, but seems to underestimate relative intensity on the downhill sections. I've found that with some testing to understand the limitations, I've been able to use Stryd to more effectively pace myself on hilly runs. My approach is to keep my Stryd power estimate constant between level ground and uphill sections, which means I'm much slower going uphill. If Stryd gave a better power estimate downhill I could use it for downhill pacing, and hopefully they'll improve their estimate soon.
  • Form Power. Stryd describing this metric as the "running in place power", but it's unclear what that really means more if it has any value. They suggest that a decrease in this value represents improved Running Economy, but there is nothing to back that up.
  • Cadence. Cadence is fairly trivial to measure for even a far simpler Footpod, so Stryd nails this easily. It's arguably one of the most important running metrics, so you should pay attention to this. There are far cheaper ways of measuring cadence (like MilestonePod) but it's nice to have this included in the Stryd.
  • Ground Contact Time. Ground Contact Time is how long each foot spends on the ground, and it's frequently suggested that a lower value represents a better Running Economy though the research is mixed.
  • Vertical Oscillation. Because Stryd is a Footpod, it has no way of measuring Vertical Oscillation. Therefore, Stryd is estimating vertical oscillation from things like Cadence and Ground Contact Time. My testing indicates that Stryd is underestimating my vertical oscillation, which is perhaps not a surprise given this is only a mathematical model. Stryd suggests that this is because they are measuring the vertical movement of the runners' center of gravity rather than just the torso, but the research suggests that should be no difference between the two measurements while running.
  • Leg Stiffness. It's possible to model a runner with their legs representing a spring and the rest of the body as a mass. When a runner lands, they decelerate their bodies vertical movement and the rate of deceleration can be used to estimate the stiffness of the "spring". The stiffness of this hypothetical spring is related to Cadence, with a higher cadence having a stiffer spring. The preponderance of evidence suggests that a stiffer leg stiffness is more efficient, and that fatigue tends to soften the stiffness. There are various ways of estimating leg stiffness, such as measuring the vertical ground reaction force and vertical movement. This gives the force applied and the amount of deformation of the "spring", resulting in a reasonable estimation of stiffness. Another approach is to use ground contact time and cadence, which is how I suspect Stryd is estimating stiffness. Personally, I suspect that this is an overly simplistic model.

Note that Stryd provides no information on foot strike parameters such as pronation, or foot landing position.

2 The Pod

The Stryd pod is similar to other Footpods. It's slightly larger than most, and has an LED status light on the top. Stryd uses a rechargeable battery that they claim lasts about 20 hours, though my testing indicates it lasts much less time. That's good enough for most runners, but may be a problem for longer ultramarathons. Stryd recharges wirelessly, which is nice, as I hate fiddling around with connectors or losing specialist cables. Stryd uses a 9-axis sensor rather than the typical Footpod that uses a 3-axis sensor. The Stryd pod weighs 0.32oz/9.1g, compared with the Garmin Footpod at 0.34oz/9.6g, and the rather oversized Polar Footpod at 1.0oz/28.1g. Stryd doesn't provide any details of the waterproof rating of their pod. With its wireless charging, I'd have expected it to be quite waterproof, but there are reports that it's IPX7, which is submersed to 1 meter for up to 30 minutes. That should be fine for nearly any running activity; if you're more than ankle deep in water for more than 30 minutes then you're having a bad time.

3 Watch Support

Stryd has support for a remarkable number of running watches. It supports both Bluetooth and Ant+, and it can look like a standard Footpod, a cycling power meter, or provide more sophisticated data. There are a large number of combinations of watches and configurations to consider, so I'll look at the general integration approaches and then look at specific watches.

3.1 Types of Watch Integration

  • Footpod. Stryd can send standard Footpod data over both Bluetooth and Ant, giving the usual distance, pace, and cadence data. You can use it like this to get accurate distance, pace and Cadence data into the vast majority of watches I've tested. However, only a few watches will support this while recording a GPS track, and so most will need to be in indoor/treadmill mode. This means there's two modes to consider:
    • Footpod with GPS. This is the ideal mode; you have your watch get all distance and pace data from Stryd, while still recording a GPS track. This will allow you to show where you've run, enable any navigation like back to start or breadcrumbs, and for things like Strava segments.
    • Footpod without GPS. If your watch doesn't support the above "Footpod with GPS" mode, you have to set it to running indoors or treadmill mode where you lose all the GPS data. This works, but may not be what you want.
  • Footpod with Power in Cadence. This is similar to the above scenario, but Stryd will put power into the Cadence field. That gives you access to its power estimate on a wide range of watches, but there are two significant downsides. Firstly, you don't get Cadence information, which is arguably rather more important than an estimate of power unless you're really confident that your cadence is good. Secondly, because of the Bluetooth protocol, the Cadence field has a range of 0-255, and power estimates can be quite a bit larger. Therefore, stride divides the actual power by 10, so 210 watts will appear as 21 steps/minute. Therefore, you lose a little bit of granularity, though in practice I don't think that's a huge deal. This is only an issue for Bluetooth watches; Ant+ works fine. Important: Stryd have stated they are removing this feature!
  • Cycling Power Meter. Stryd can send the same data that a cycling power meter would, so any watch that supports the cycling power meter will support stride in the same way. This gives some good support for power, and in indoor cycling mode you should be able to get pace, distance, and cadence data from the stride as well. There are a few annoyances with this approach, the biggest one being that you get your speed in MPH or KPH rather than min/mile or min/Km which would take some getting used to if you're a runner that used to thinking in terms of pace rather than speed. The other annoyance is that all of your data files will be considered as cycling rather than running, which could confuse your training log.
  • Connect IQ. The advantages of Garmin's Connect IQ are shown in the ability for Stryd to add their sensor to any Garmin watch that supports Connect IQ. If you install the Stryd Connect IQ data field, it will show the power estimate, as well as recording all of the Stryd data into the fit file. Using this data field does not stop you using the Stryd as a normal Footpod at the same time. Because the Connect IQ only gives you the power, you still have two modes of Footpod integration, giving you two modes:
    • Connect IQ + Footpod with GPS. The perfect solution; you get all the Stryd data, the distance/pace accuracy, and GPS for navigation.
    • Connect IQ + Footpod without GPS. On the lower end Connect IQ enabled watches you have to set them to indoor/treadmill mode, so you get all the Stryd data, the distance/pace accuracy, but you don't have any GPS data.
  • Suunto Spartan. The Suunto Spartan Ultra has explicit support for the Stryd, which is nice, but you can't use the Stryd for both power and distance/pace at the same time (except for "power in cadence".) However, the good news is that you get pace & distance from Stryd while also recording the GPS track. This is effectively the same as the "Footpod with GPS" mode.

Here's another way of looking at the options. I've ranked them in the order I'd use them, which is accurate pace & distance is the most important thing, then having GPS tracks for navigation, then having the power estimate, and lastly having the extra Stryd data.

Type Stryd Pace & Distance GPS Extra Stryd Data Power
Native Power + Footpod with GPS Yes Yes Yes Native
Connect IQ + Footpod with GPS Yes Yes Yes Connect IQ
Connect IQ + Footpod without GPS Yes No Yes Connect IQ
Footpod with GPS Yes Yes No No
Footpod without GPS Yes No No No
Power Only No Yes No Native
Cycling Power No Yes No Cycling Only
No Support No No No No

3.2 Watch Specifics

Here's a mapping of the modes above to specific watches. In all cases, I've prioritized accurate pace/distance information over either GPS data or the power estimate.

Watch

Stryd Support

Stryd Pace & Distance

GPS

Power

Extra Stryd Data

Polar V800 Review Native Power + Footpod with GPS Yes Yes Native No
Suunto Ambit2/Ambit2 Sport Native Power + Footpod with GPS Yes Yes Native No
Suunto Spartan Ultra Review Native Power + Footpod with GPS Yes Yes Native No
Suunto Spartan Trainer Review Native Power + Footpod with GPS Yes Yes Native No
Garmin Fenix 3 Review Connect IQ + Footpod with GPS Yes Yes Connect IQ Yes
Garmin 935 Review Connect IQ + Footpod with GPS Yes Yes Connect IQ Yes
Garmin Fenix 5X Review Connect IQ + Footpod with GPS Yes Yes Connect IQ Yes
Garmin 920XT Review Connect IQ + Footpod without GPS* Yes No Connect IQ Yes
Garmin Vivoactive Review Connect IQ + Footpod without GPS* Yes No Connect IQ Yes
Garmin Vivoactive HR Review Connect IQ + Footpod without GPS* Yes No Connect IQ Yes
Garmin 235 Review Connect IQ + Footpod without GPS* Yes No Connect IQ Yes
Garmin Epix Review Footpod with GPS Yes Yes No No
Polar M430 Review Footpod with GPS Yes Yes No No
Polar M400 Review Footpod with GPS Yes Yes No No
Suunto Ambit3 Run Review Footpod with GPS Yes Yes No No
Suunto Ambit2 R Review Footpod with GPS Yes Yes No No
Garmin Fenix 2 Review Footpod with GPS Yes Yes No No
Garmin 620 Review Footpod without GPS Yes No No No
Garmin 225 Review Footpod without GPS Yes No No No
Garmin 910XT Review Footpod without GPS Yes No No No
Garmin 310XT Review Footpod without GPS Yes No No No
Garmin 610 Review Footpod without GPS Yes No No No
Leikr Review No Support No No No No
Epson SF-810 Review No Support No No No No
Epson SF-510 Review No Support No No No No
TomTom Cardio Runner Review No Support No No No No

Here's my notes on the testing I've done so far. I've had occasional issues with devices connecting to Stryd at the beginning of a run. I've not found any pattern to this, and it seems to impact both Bluetooth and Ant+ devices, so make sure you have a connection before starting your run. I've also occasionally forgotten to turn off auto-calibrate, which is another gotcha.

  • Garmin Fenix 3, Garmin Fenix 5X, Garmin Epix
    • Pair as a normal footpod. Settings -> sensors -> add new -> footpod. Under the sensor, set speed=always, distance=always, calibration -> auto calibrate disabled. (There's a full description of the process for the F5X on the review page.)
    • These watches have the best Stryd support, but note that Garmin has abandoned the Epix, so there's no firmware updates.
    • The Connect IQ data field gives power display, and it records all the other Stryd data like Ground Contact time.
    • Pair the Fenix 5X via Ant+, not Bluetooth for the Connect IQ to work.
    • You can set the speed and distance to always come from the footpod so you still get GPS. This is obviously important for navigation and the mapping features of the 5X and Epix are key reasons for buying those watches.
    • These watches support Stryd for cycling power, but I wouldn't use that unless you want alerts for power being out of range.
    • I found some smoothing and rounding of the pace data, but not much.
    • Occasionally I'll find the watch won't detect the Stryd at the start of the run. In those situations, I have to go into settings, sensors, Stryd, and select "connect", which time the watch connects fine and the connection persists when I go back to start the activity.
    • Note there are credible reports that the Fenix 5 and 5S (but not the 5X) have Ant+ connectivity issues. I'd recommend connecting them as Bluetooth Footpods, which means you will not get the Connect IQ support.
  • Polar V800, Polar M400, Polar M430
    • Pair as a normal footpod. Settings -> General Settings -> Pair and Sync -> Pair Other Device -> select Stryd. Then go to Settings -> Sports profiles -> Running -> Stride Sensor. Calibration=manual, factor = 1.0, sensor for speed=Stride Sensor.
    • Remember this is using Bluetooth, so if you have a problem it might be because the Stryd is still linked to your phone.
    • You can set the M400/M430/V800 to give distance and pace from footpod, while recording GPS tracks. The menu just says "speed source" but it sets distance as well. The menu talks about "stride sensor" as that's what the Polar footpod is called.
    • There's less smoothing of pace in these watches compared with others, so the display is nicely responsive. (I know from alpha testing other devices that the M400 actually has pretty much no smoothing at all.)
    • For the M400/M430 you have to choose between cadence and power display, and as this is Bluetooth, you get 210 watts displayed as a cadence of 21. This feature may get removed in the future. There's no cycling power support in the M400/M430, or other native power pod support.
    • For the V800 there is native support for Stryd as a power device. You don't need to pair Stryd as two separate devices (foot pod & power pod), just pair once.
  • Garmin 920XT, Garmin Vivoactive, Garmin Vivoactive HR, Garmin 235
    • Pair as a normal footpod.
      • 920XT: Settings -> sensors -> add new -> footpod. Under the sensor, set speed=always, calibration factor -> auto calibrate disabled, factor=100.0.
    • Connect IQ gives power display, and it records all the other Stryd data like Ground Contact time.
    • You can't get distance from Stryd with GPS active, which means you have to run in indoor/treadmill mode. (The 920XT/235 can have pace from Stryd with GPS, but not distance).
  • Garmin Fenix 2
    • Pair as a normal footpod.
    • Set the "Foot Pod Speed" to "Always On". I expected this to just provided pace from Stryd, but it actually does distance as well. The GPS track is recorded normally and navigation functions are enabled.
    • You have to choose between cadence and power display. (Power-in-cadence requires the iOS Stryd app and this feature may be removed in the future.)
  • Suunto Ambit3 (all models), Suunto Ambit2 R
    • Pair as a normal footpod (don't pair as a bike power pod if you're using a higher end Ambit).
    • You have to ensure that the sports mode you're using is set to use a footpod. If you don't see the Ambit3 search for a footpod when you start the exercise, you need to change the configuration on the Suunto web site. (I've tested the Ambit3 Run/Ambit2 R versions.)
    • With the Ambit3, you need to disable auto-calibration, and the menu is a little hidden. Pair your Stryd, then hit the start button, select "exercise", then choose an exercise that uses a footpod. Ensure that the Ambit3 has found your Stryd, then press and hold the Next button to bring up the Activate menu. If you have a footpod active, there will be an option for disabling auto calibration.
    • If a footpod is found, the Ambit3 & Ambit2 will get pace and distance from the footpod and override the GPS data. (This means you can use the Ambit2/3 in the lowest GPS accuracy mode to extend battery life while getting accurate pace & distance from Stryd.)
    • You have to choose between cadence and power display. For the Ambit3 (Bluetooth), you get 210 watts displayed as a cadence of 21. The Ambit2 (Ant+) is rather unusual in that it will halve the value of the power, so 210 watts will be displayed as 105. (Power-in-cadence requires the iOS Stryd app and this feature may be removed in the future.)
    • If you follow the Stryd instructions for the Ambit3 you'll get power but won't get pace/distance from Stryd. The only way to get power is from "power-in-cadence" as noted above.
    • The Ambit3 & Ambit2 both do quite a bit of smoothing of pace information, so it's not quite as quick to respond as other some other watches.
    • With the higher end Ambit 2/3 (above "Run" models) you can use the Stryd in bike mode and get the power estimate that way. However, I strongly believe that accurate pace and distance is vastly more useful than an estimate of power, so even the higher end watches should be used in run mode with power in cadence.
  • Ambit2/Ambit2 Sport
    • These two watches can support Stryd as both power pod and foot pod at the same time. (You can't do this with the higher end Ambit3 watches as the Bluetooth protocol only allows one connection.)
    • Pair as a normal footpod then pair again as a bike power pod.
    • You have to ensure that the sports mode you're using is set to use a footpod and the power pod. If you don't see the search for a footpod and/or power pod when you start the exercise, you need to change the configuration on the Suunto web site.
    • If a footpod is found, the Ambit2 will get pace and distance from the footpod and override the GPS data. As above, you can use the Ambit2 in the lowest GPS accuracy mode to extend battery life while getting accurate pace & distance from Stryd.
    • The Ambit2 does quite a bit of smoothing of pace information, so it's not quite as quick to respond as other some other watches.
  • Suunto Spartan Ultra
    • The pairing of Stryd to the SSU is tricky. It seems that if you pair as a footpod, then pair as a power pod you can get power in outdoor mode (but not distance/pace) and distance/pace in indoor/treadmill mode. If you just pair as a footpod, you can get pace/distance information with GPS enabled.
    • If you have a sports mode which uses both footpod and power pod, then the Spartan only uses it as a footpod. Therefore, you can't have the native power display in the Spartan and have distance/pace from Stryd. Therefore, you have to choose between cadence and power-in-cadence mode, and as this is Bluetooth, you get 210 watts displayed as a cadence of 21. (Power-in-cadence requires the iOS Stryd app and this feature may be removed in the future.)
    • Like the other Suunto devices, there's quite a bit of dampening that reduces responsiveness.
  • Garmin 620, Garmin 225, Garmin 610, Garmin 910XT, Garmin 310XT
    • Pair Stryd as a normal footpod.
    • You can't get distance from Stryd with GPS active, which means you have to run in indoor/treadmill mode.
    • You have to choose between cadence and power display. (Power-in-cadence requires the iOS Stryd app and this feature may be removed in the future.)
  • Leikr. I could not get the Stryd to work with the Leikr.
  • Smartphone apps. The Strava app won't take pace/distance from Stryd.

3.3 Bluetooth or Ant+

Stryd supports both Bluetooth and Ant+, and both work well. Bluetooth has the limitation that you can only have one receiver talking to Stryd at a time, so you can't have it linked to two different watches simultaneously, or to a watch and your smart phone at the same time. (I have had occasions where the Stryd has stayed linked to my smart phone, so I've had to turn off Bluetooth on my phone to allow Stryd to link to a watch.) With Ant+ you can have as many watches linked simultaneously, and it's possible to have Stryd linked to both one Bluetooth watch and several Ant+ watches at the same time. If you're using Garmin Connect IQ, you can have Stryd work as both a standard Footpod and connected via the Connect IQ data field.

4 The App

The Stryd app is rather limited, and I mostly use it just to sync data with the web site. However, a key feature is to configure Stryd to transmit the power estimate in the Footpod's Cadence field. This feature is not currently supported in the Android version of the app!

5 The Web Site

I rather like the Stryd website. There's the usual calendar views of your runs, but there is some useful analysis you can do within their website. The biggest shortcoming I've found is that you can only show data by time, not by distance. If you look at the first graph below the hill shown by the purple line looks asymmetric because I'm going down much faster than I'm going up.

Stryd have added some analysis on their web site that looks at your overall training history. The heatmap is certainly fascinating, though I'm not sure how useful it is. It shows the highest power estimate you've run at for various times. The color then shows the how often you've achieved a power estimate/time combination. If you mouse over the line, you can see a popup with the details. You can see my curve is fairly flat, indicating my training intensity doesn't very much, which is what I'd expect given most of my training is Long Runs. I'm not sure how to interpret the Stryd Runner Profile or how it's calculated.

6 Connect IQ Data Field

The Connect IQ Data Field for Stryd will show power on a Connect IQ compatible Garmin watch. This doesn't interfere with using Stryd as the footpod at the same time, which is important. The Data Field will record not only power, but the other metrics like Ground Contact Time and the display is configurable to show power averaged over various time periods, lap average, or overall power for the run. Of course, you can only have one field configured, so you can't see both current power and lap average for instance. You also don't get alerts based on power value. If you put power into the cadence field you can do far more, adding current, lap average, alerts, etc.

The configuration of the Stryd data field from within the Mobile App (you can configure it via the PC Garmin Connect app as well.

7 Data Analysis

Because Stryd is compatible with so many watches, it's fairly easy to get most of the data into an app for analysis.

  • Pace and Distance. If you have your watch set to take a distance from the Stryd, you'll naturally have access to distance in pretty much any application you can get your data into. Because you have accurate distance, you should have accurate pace to analyze as well.
  • Running Power. Getting power into an application for analysis will depend on which watch you are using and how you got it configured. If you're pretending this is a cycling power meter, then everything should work just as it would for cycling power. If you're using the Garmin Connect IQ data field, then you'll need to have an application that supports importing customer data. I found that Golden Cheetah worked fine. If you're getting power as Cadence, then most applications should be able to handle that, but obviously you'll have it in the cadence field and it will be 10x lower (210w will be 21 steps/minute.)
  • Cadence. Cadence is well supported by pretty much any analysis application, unless of course, your using the cadence field for power. Note that the Garmin Connect IQ data field will record the cadence value from the Footpod in addition to any other Cadence device.
  • Elevation. I've found it tough to get elevation data into an analysis application. I'll update you if I find a good way of doing this.
  • Form Power, Ground Contact Time, Vertical Oscillation, Leg Stiffness. These fields are all available via the Garmin Connect IQ data field, and can be viewed using Garman Connect.
A view of the data collected using the Garmin Connect IQ data field with Stryd also connected as the Footpod, using a Garmin Fenix 3.

8 Testing Distance and Pace

I tested the distant accuracy of the Stryd using the same basic methodology as I do for my GPS Accuracy testing. (See GPS Testing Methodology for details.) I used a Polar M400 configured to use the distance from the Stryd footpod. As you can see from the results, the Stryd is remarkably accurate, far better than any GPS device I've tested. My testing of pace is more anecdotal, but I've been able to hit my target paces using guidance from my Stryd. I've tested using a range of paces from 10:00 min/mile to 6:30 min/mile and the Stryd allows me to cover a given distance in just the right time.

An infographic of the accuracy of the GPS running watches. The top right corner represents the most accurate watches. (This graphic uses ISO 5725 terminology.)

8.1 Accuracy on Single Track Trails

My GPS Testing Methodology uses an asphalt/tarmac path rather than technical single track trails. This has raised the reasonable question of how Stryd would perform on more challenging terrain. To find out, I measured a section of what I will consider semitechnical singletrack. I used a surveying wheel, as my mountain biking skills are not up to using the US ATF certification process, and I'm not sure that that process would really work in this environment anyway. Measuring singletrack is a little challenging, but I was able to get consistent results from repeated measurements using the survey wheel to within a few inches. The trail I used is quite twisty, and has sections where I'm barely running, and my overall pace was about 11:00 min/mile rather than the 8:00-8:30 pace that I'd be maintaining on asphalt. Hopefully this gives a sense of the difficulty of the trail, and you can see a couple of images below. It's certainly not a truly technical singletrack where I'd be rock hoping, but it's also a trail where it's often difficult to get into a rhythm because of having to watch foot placement. I compared the Stryd with one of the most accurate GPS watches I've tried, the Polar V800. I'd never normally tried to measure a GPS device on the trail this twisty, as it just too challenging.

Accuracy
(Combined)
Trueness
(Average Distance Error)
Precision
(From mean)
Precision
(From true)
Stryd 1.42% 1.19% 1.09% 1.62%
Polar V800 12.55% 12.42% 1.99% 12.68%

As you can see, the Stryd does remarkably well, even on this challenging singletrack. It's more accurate than the Polar V800 would be on asphalt, which is quite an achievement. To put this into perspective, the best GPS watch, the Polar V800, had an appalling level of inaccuracy on the same course. I expected GPS to be a lot worse on this type of challenging terrain, but even I'm surprised by this level of problem.

Single Track (2).jpg
Single Track (1).jpg

8.2 Accuracy Walking

I've not done any statistical analysis of the accuracy of the Stryd while walking, mostly due to time constraints. However, my anecdotal use of Stryd while hiking on my testing course suggests that it's equally accurate when hiking in boots as it is when running.

9 Treadmill Problems

The Stryd is so accurate outdoors, I couldn't understand why it was so bad on a treadmill. To my chagrin, I discovered that the Stryd Footpod was right, and my treadmill was wrong. Accurately calibrating a treadmill proves to be rather more complex than I'd have expected, as the treadmill will slow down when your foot is in contact with the belt, then speed up when you're in the air. For details on how to evaluate your treadmill have a read of Treadmill Calibration.

10 Testing Running Power

I don't view Stryd as a "power meter", but a way of estimating relative training intensities, rather like Heart Rate. There are some important benefits to using Stryd over heart rate for estimating relative training intensity. The graph below is showing a run up and back down a local hill. It's not a very long Hill, but it is fairly steep, averaging 6% with sections nearer 10%. The first graph below shows me running hard up the hill, then resting on the way back down. You can see that both my heart rate and power estimate rise on the uphill and decline on the downhill. You'll notice that my heart rate response rather slower to the change in intensity than the power estimate, making it more useful for providing a useful, real-time estimate of intensity.

Traditional Hill training, focusing on high intensity on the way up and easy back down. Power data from Stryd, Heart Rate from Wahoo TICKR Run, elevation/distance/pace from GPS using Suunto Spartan Ultra.

Another interesting use for Stryd is to provide more even pacing on hilly courses. The graph below shows me attempting to keep an even effort based on the Stryd power estimate. My goal was to keep my intensity at about the same level as a running at 8:30 min/mile pace on level ground, which at the time of this run is about 200-210 watts and about 135-140 BPM heart rate. You can see that I was moderately successful, though both my heart rate and estimated power were a higher than my target. I was surprised by just how slow I had to go up the hill to compensate for the slope. You can see this more accurately in the lower image that's looking at the Stryd pace data. Even though my pace has dropped to 12:18 min/mile my heart rate and estimated power are both well above target. This means that to go up this hill with the same effort as 8:30 min/mile on the flat, I'd need to drop to quite a bit slower than 12:30 min/mile pace. Here the estimated power data is far more usable than heart rate, as I can tweak my pace moment by moment rather than waiting for my heart rate to adjust. I found that in practice, the Stryd estimated power output is remarkably effective at giving me real-time feedback of my exercise intensity on level ground and uphill. Though this is still a modeled, estimated power intensity, for uphill and level ground, it's far better than anything else available to us and is good enough for real world usage.

Sadly, things are not quite so rosy on the downhill sections. The graph below shows a hill repeat where I took it easy on the way up, and then pushed the pace hard on the way down. You can see that during the downhill section, my heart rate has risen a little, but the estimated power output has dropped massively. You can see my pace a little more accurately on the lower chart that uses the Stryd data, and my pace is hitting 6:30 min/mile. This matches up with my overall experience of Stryd, which consistently underestimates my exercise intensity for downhill sections of my run. This is a little limiting, as it means I come to use Stryd to pace myself when running downhill. I'm reasonably confident that Stryd will update their model to improve this, but it is currently a noteworthy shortcoming.

11 Stryd Power Estimate or Heart Rate?

The use of heart rate for training has been established for many years, and heart rate based training has some useful advantages, as well as some significant shortcomings. I think the Stryd estimate of power output overcome some, but not all of the issues with heart rate based training. Personally, I don't see this type of power estimate completely replacing heart rate based training, only augmenting it.

  • Heart rate responds to exercise intensity with a delay, while Stryd's power estimate is much closer to real-time.
  • During longer exercise, Heart Rate Drift occurs that generally causes a higher heart rate for a given intensity. The reasons for this drift are complex, and include dehydration, fatigue, carbohydrate depletion. Using Stryd's power estimate ignores this drift, though it's unclear to me when to use heart rate and when to use the power estimate. In some situations, it seems likely that the drifted heart rate is a better estimate of intensity than an unmodified power estimate.
  • There is a widespread myth that Maximum Heart Rate can be calculated, leading to some erroneous assumptions of how a given heart rate relates to the percentage of exercise capacity. In practice, both Heart Rate and maximum estimated power require a practical test.
  • A common use of heart rate data is to allow an athlete to train at their Lactate Threshold, often referred to as Tempo Runs. The belief is that this training intensity is especially beneficial, though the available science indicates the opposite. If Tempo Runs made sense, then Stryd's power estimate would be quite valuable for hitting that pace accurately. I'm sure that many runners will use Stryd this way, even though the science indicates it is ineffective.

12 Testing Battery Life

I've not done a single long run that would allow me to test the battery life for an ultramarathon. However, on multiple shorter runs (25-120 minutes) I found that Stryd was reporting 10% battery life left after 5.5 hours, which is far short of the claimed 20 hours' battery life. However, this may well be due to one of the many watches I have paired to Stryd keeping the pod alive well after the run, plus I tend to pair my Stryd to different watches many, many times. I will attempt some more realistic testing in the near future. I've seen one report of an ultrarunner who completed 100-miler in 28 hours and had 27% battery life. This is anecdotal, but encouraging.

13 Stryd For Ultrarunning?

The claimed battery life for Stryd is only 20 hours, which is not long enough for many ultramarathons. Obviously, if you could have two Stryd pods, but that would be expensive. One option would be to use a Garmin watch that supports UltraTrac to extend the battery life along with the Stryd for accurate distance and pace. This would last for around 20 hours, and when the Stryd battery is dead, things would fall back to GPS. You may even be able to switch to normal GPS mode mid-run. I found that this worked nicely on a short run when I tested it out with the Garmin Fenix 3. I started off with the watch in UltraTrac mode and the Stryd connected. I then took the Stryd pod off to simulate the battery running out, and swapped to normal GPS mode.

Here's the GPS track, and hopefully you can see the straight lines that you get when the watch is in UltraTrac mode and only checking GPS infrequently. On the way back I had normal GPS mode.

14 Calibrating Stryd

Most devices that support Stryd as a Footpod will allow for calibration. I would strongly recommend that you don't attempt to calibrate Stryd as it's so accurate, I think you're unlikely to make things better rather than worse.