Running metrics in WKO4

Dr. Andy Coggan created a new Running Dashboard for WKO4 with a number of charts and reports that display and summarize data likely to be relevant to anyone interested in running performance. Here are these measurements, what they mean, and why they might be important.

Horizontal Running Chart

This chart displays the following data, along with a map of your route as a child chart:

Power (W/kg) – Running power relative to body mass, as measured using, for example, the Stryd Pioneer. Note that because of energy recycling via the series-elastic elements of the musculoskeletal system, sustained running power is often significantly higher than cycling power, even for the same individual. On the other hand, due to the way the data are smoothed or damped, power at very short durations is generally lower. (This smoothing also tends to limit the accuracy, and hence the usefulness, of the WKO4 power-duration model when applied to running, even though the latter conceptually applies to all modes of exercise, not just cycling.)

Pace (min/km) – Running pace

Heartrate (beats/min) – Heart rate

Elevation (m) – Elevation

Running Effectiveness Chart

This chart displays the following data, along with averages for the range selected in the Right Hand Explorer (excluding periods where speed is <1.5 m/s, under the assumption that such points represent walking or standing, not running):

Power (W/kg) – Running power is repeated here, since it is used to calculate running effectiveness (see below).

Speed (m/s) – Running speed, i.e., inverse of pace. Presented because it is also a component of running effectiveness (see below).

Running effectiveness (kg/N) – Running effectiveness is a novel metric presently unique to WKO4. It is calculated as the ratio of speed (in m/s) to power (in W/kg, or (Nm/s)/kg), resulting in the units of kg/N. It can be viewed as the inverse of the effective horizontal retarding force that a runner must overcome to achieve a particular speed. For most experienced runners, running effectiveness is typically close to 1 kg/N, but running effectiveness may be lower in novice (or fatigued) runners, as they do not travel as fast for a given power output (or must generate more power to achieve the same speed). Running effectiveness may also decline slightly at higher running speeds, i.e., above critical pace.

Note that running effectiveness is not the same as running economy or running efficiency. The former is the ratio of metabolic cost, i.e., VO2 (or sometimes metabolic power, which accounts for small differences in energy yield per unit of O2 consumed), to running speed, whereas the latter is the ratio of external mechanical power output to metabolic power production.

Elevation (m) – Elevation is also repeated here, as speed, and hence running effectiveness, will vary at the same power output, depending on whether one is running uphill, downhill, or on level ground.

Running Dynamics Chart

This chart (named for Garmin’s Running Dynamics) displays the following data channels, along with averages for the range selected in the Right-Hand Explorer (excluding periods where speed is <1.5 m/s, under the assumption that such points represent walking or standing, not running):

Step rate (steps/min) – Also termed stride rate or, outside of the scientific literature, cadence, this is the number of steps or strides taken per minute. Contrary to common lore, a step rate or stride rate of 180 (or greater) steps/min is not necessarily ideal. Rather, the optimum varies between individuals, based on their running speed, leg length, leg stiffness (Kapp; see below), etc.

Ground contact time (ms) – Also called stance time, this measurement reflects how long the foot is contact with the ground, starting from the initial “crash” phase as the runner touches down and ending with toe-off. Values are typically in the 150-350 ms range, although this varies somewhat based on running speed, etc. Ground contact time is of potential interest because studies in the literature suggest that shorter ground contact times may be associated with better running economy, i.e., a lower metabolic cost to run at the same speed (or the ability to run faster for the same metabolic cost).

Vertical oscillation (cm) – Vertical oscillation is how much your center-of-mass bounces or travels up-and-down while running. Values are generally in the 8-14 cm range, although again it varies depending on a number of factors, including running speed (running faster generally entails “flying higher;” higher running speeds are achieved in part by increasing stride length, which requires a higher apogee during the flight phase). At a given running speed, excessive vertical oscillation generally results in poor running economy, as excess energy is expended performing work against gravity. On the other hand, overly constraining vertical oscillation at a given running speed may also impair running economy, as this can limit energy recycling.

Elevation (m) – Elevation is also repeated here, as whether one is running uphill, downhill, or on level ground can obviously influence the other measurements in the chart.

Running Biomechanics Chart

Like the Running Effectiveness Chart, this chart displays data unique to WKO4, along with averages for the range selected in the Right-Hand Explorer (excluding periods where speed is <1.5 m/s, under the assumption that such points represent walking or standing, not running):

Duty factor (%) – As indicated above, shorter ground contact times may be associated with better running economy. However, ground contact time varies somewhat based on running speed, making it more difficult to interpret. Duty factor, on the other hand, is the percentage of the total time between steps or strides that the foot is on the ground. As such, it somewhat less dependent on actual running speed. Values for duty factor can vary from 50 to 90%, but are typically in the 60-80% range.

Flight time (ms) – This is the time during which both feet are off the ground. All else being equal, a greater flight time might be associated with better running economy (since at a given step or stride frequency, flight time and ground contact time are inverse to each other).

Kapp (kN/m) – A simple yet surprisingly accurate model of the biomechanics of “upright bipedal locomotion” (a fancy term for walking or running) is a point (i.e., infinitely small/dense) mass on a spring. In other words, walking or running can be modeled fairly accurately as a series of forward bounces or hops, during which the legs acts as springs that are alternately compressed (upon landing) and released (upon take-off). This spring-like behavior enables significant energy recycling to occur, thus reducing the metabolic energy cost of running at any given speed (or, alternatively, increasing the speed of running for a given metabolic rate). The apparent spring constant, Kapp, which is a function of both anatomical (passive) and physiological (active) factors, is therefore correlated with running economy – that is, individuals with stiffer “springs” rebound off the ground more readily/quickly, minimizing the need for their muscles to generate force and the time during which they must do so. WKO4 therefore employs a validated mathematical model drawn from the scientific literature to calculate Kapp, thus for the first time making this measurement available outside of a laboratory setting. Kapp is typically in the 4-12 kN/m range. Notably, Kapp is not heavily influenced by running speed, but may change somewhat over the course of a longer run due to fatigue.

Fmax (N or g) – Fmax is the maximum impact force experienced when the runner’s foot hits the ground, measured in units of either newtons or g force. Calculated using the same model as Kapp, Fmax is of potential interest from an injury risk perspective. Values are typically 2-3 g, i.e., 2-3 times an individual’s body mass.

Elevation (m) – Elevation is also repeated here, as whether one is running uphill, downhill, or on level ground can obviously influence the other measurements in the chart.

Was this article helpful?
2 out of 2 found this helpful