Polar sport zones introduce a new level of effectiveness in heart rate-based training. Training is divided into five sport zones based on percentages of maximum heart rate. With sport zones, you can easily select and monitor training intensities.
| Target zone | Intensity % of HRmax, bpm | Example durations | Training benefit |
|---|---|---|---|
| MAXIMUM  | 90–100% 171–190 bpm | less than 5 minutes | Benefits: Maximal or near maximal effort for breathing and muscles. Feels like: Very exhausting for breathing and muscles. Recommended for: Very experienced and fit athletes. Short intervals only, usually in final preparation for short events. |
HARD  | 80–90% 152–172 bpm | 2–10 minutes | Benefits: Increased ability to sustain high speed endurance. Feels like: Causes muscular fatigue and heavy breathing. Recommended for: Experienced athletes for year-round training, and for various durations. Becomes more important during pre competition season. |
MODERATE  | 70–80% 133–152 bpm | 10–40 minutes | Benefits: Enhances general training pace, makes Moderate intensity efforts easier and improves efficiency. Feels like: Steady, controlled, fast breathing. Recommended for: Athletes training for events, or looking for performance gains. |
LIGHT  | 60–70% 114-133 bpm | 40–80 minutes | Benefits: Improves general base fitness, improves recovery and boosts metabolism. Feels like: Comfortable and easy, low muscle and cardiovascular load. Recommended for: Everybody for long training sessions during base training periods and for recovery exercises during competition season. |
VERY LIGHT  | 50–60% 104–114 bpm | 20–40 minutes | Benefits: Helps to warm up and cool down and assists recovery. Feels like: Very easy, little strain. Recommended for: For recovery and cool-down, throughout training season. |
HRmax = Maximum heart rate (220-age). Example: 30 years old, 220–30=190 bpm.
Exercising in sport zone 1 is done at a very low intensity. The main training principle is that performance improves when recovering after, and not only during, training. Accelerate the recovery process with very light intensity training.
Sport zone 2 is for endurance training, an essential part of any training program. Exercise sessions in this zone are easy and aerobic. Long-duration training in this light zone results in effective energy expenditure. Progress will require persistence.
Aerobic power is enhanced in sport zone 3. The training intensity is higher than in sport zones 1 and 2, but still mainly aerobic. Training in sport zone 3 may, for example, consist of intervals followed by recovery. Exercising in this zone is especially effective for improving the efficiency of blood circulation in the heart and skeletal muscles.
If your goal is to compete at top potential, you will have to train in sport zones 4 and 5. In these zones, you exercise anaerobically, in intervals of up to 10 minutes. The shorter the interval, the higher the intensity. Sufficient recovery between intervals is very important. The training pattern in zones 4 and 5 is designed to produce peak performance.
The Polar sport zones can be personalized by using a laboratory measured HRmax value, or by taking a field test to measure the value yourself. When exercising in a sport zone, try to make use of the entire zone. The mid-zone is a good target, but keeping your heart rate at that exact level all the time is not necessary. Heart rate gradually adjusts to training intensity. For instance, when crossing from sport zone 1 to 3, the circulatory system and heart rate will adjust in 3-5 minutes.
Heart rate responds to exercise intensity depending on factors such as fitness and recovery levels, as well as environmental factors. It is important to look out for subjective feelings of fatigue, and to adjust your training program accordingly.
A simple way of making use of the sport zones is to work with target heart rate zones. For further instructions, see Plan Your Training.
After the exercise, exercise duration is displayed in sport zones. Access the Weekly display to see in which sport zones you have been exercising, and for how long.
The Polar ProTrainer 5 offers up to 10 sport zones to better serve your training needs and heart rate reserve.
↑ Back to topYour training computer determines automatically an individual and safe exercise intensity zone: your OwnZone. The unique Polar OwnZone defines your personal training zone for aerobic training. The function guides you through your warm-up, and takes your present physical and mental condition into account. For most adults, OwnZone corresponds to 65-85% of maximum heart rate.
OwnZone can be determined in 1-5 minutes during a warm-up period by walking, jogging, or doing some other sport. The idea is to start exercising slowly at a light intensity, and to gradually increase intensity and heart rate. OwnZone is developed for use by healthy people. Some health conditions may cause heart rate variability-based OwnZone determination to fail. These conditions include high blood pressure, cardiac arrhythmias, and certain medications.
Listening to and interpreting the signals your body sends during physical exertion is an important part of getting fit. Since warm-up routines differ for different types of exercise, and since your physical and mental state may also vary from day to day (due to stress or illness), using the OwnZone function for every session guarantees the most effective heart rate target zone for that particular type of exercise and day.
↑ Back to topMaximum heart rate (HRmax) is the highest number of heartbeats per minute (bpm) during maximum physical exertion. It is individual and depends on age, hereditary factors, and fitness level. It may also vary according to the type of sport performed. HRmax is used to express exercise intensity.
Determining Maximum Heart Rate
Your HRmax can be determined in several ways.
The most accurate way is to have your HRmax clinically measured, usually on a maximal treadmill or by taking a bicycle stress test supervised by a cardiologist or exercise physiologist.
You can also determine your HRmax by taking a field test together with a training partner.
You can obtain a HRmax-p score that predicts your HRmax by taking a Polar Fitness Test.
HRmax can also be estimated by using the commonly used formula: 220 - age, although research shows that the method is not very accurate, especially for older persons or those who have been fit for many years.
If you have done some hard training in recent weeks and know that you can safely reach maximum heart rate, you can safely take a test to determine your HRmax yourself. Having a training buddy with you during the test is recommended. If you are uncertain, consult your physician before undertaking the test.
Here is an example of a simple test.
Step 1: Warm up for 15 minutes on a flat surface, building up to your usual training pace.
Step 2: Choose a hill or stairwell that will take more than 2 minutes to climb. Run up the hill/steps once, building to as hard a pace as you can hold for 20 minutes. Return to the base of the hill/steps.
Step 3: Run up the hill/steps again, building towards a pace you could just about hold for 3 kilometers. Note your highest heart rate. Your maximum is approximately 10 beats higher than the noted value.
Step 4: Run back down the hill, allowing your heart rate to drop 30-40 beats per minute.
Step 5: Run up the hill/steps once again at a pace that you can only hold for 1 minute. Try to run halfway up the hills/steps. Note your highest heart rate. This brings you close to your maximum heart rate. Use this value as your maximum heart rate to set training zones.
Step 6: Make sure you get a good cool-down, a minimum of 10 minutes.
↑ Back to topHRsit is your average heart rate when completely still (i.e. while sitting). To easily determine HRsit, wear your heart rate sensor, sit down, and do not engage in any physical activity. For a more precise measurement, repeat the procedure several times and calculate your average.
↑ Back to topHeart rate reserve (HRR) is the difference between maximum heart rate (HRmax), and resting heart rate (HRrest)*. HRR is used to calculate exercise heart rates. It is the range within which heart rate varies depending on exertion level. HRR equals oxygen uptake reserve (VO2R).
Exercise heart rate can be determined by using the Karvonen formula**. Add the given percentage of heart rate reserve to resting heart rate.
Exercise HR = % of target intensity (HRmax – HRrest) + HRrest
Example:
Target intensity 70 % HRR for a person with HRmax 201 bpm and HRrest 50 bpm
Exercise HR= 70% (201-50) + 50
Exercise HR=156 bpm
For a precise exercise heart rate, you need your exact HRmax and HRrest. When using estimated HRmax, exercise heart rate values are always estimates.
*In Polar RS800CX training computer, the heart rate value during a resting state is measured in a sitting position (HRsit). This is for practical reasons since HRsit is used in energy expenditure calculation because of accuracy. HRsit matches the low intensity to which different exercise intensities can be compared.
**Karvonen M, Kentala K, Mustala O. The effects of training on heart rate: a longitudinal study. Ann Med Exp Biol Fenn 1957; 35: 307-315.
↑ Back to topHeart rate varies with every heartbeat. Heart rate variability (HRV) is the variation of beat to beat intervals, also known as R-R intervals.
HRV indicates the fluctuations of heart rate around an average heart rate. An average heart rate of 60 beats per minute (bpm) does not mean that the interval between successive heartbeats would be exactly 1.0 sec, instead they may fluctuate/vary from 0.5 sec up to 2.0 sec.
HRV is affected by aerobic fitness. HRV of a well-conditioned heart is generally large at rest. Other factors that affect HRV are age, genetics, body position, time of day, and health status. During exercise, HRV decreases as heart rate and exercise intensity increase. HRV also decreases during periods of mental stress.
HRV is regulated by the autonomic nervous system. Parasympathetic activity decreases heart rate and increases HRV, whereas sympathetic activity increases heart rate and decreases HRV.
HRV is used in the Ownzone, OwnIndex, and in OwnOptimizer features. It can also be monitored on its own using the training computer. If your HRV changes at a given pace and heart rate, this may indicate a change in your training load and stress.
↑ Back to topCadence* is the number of times the foot with the stride sensor* hits the ground per minute.
Stride length* is the average length of one step. That is the distance between your right and left foot contacting the ground.
Running speed = 2 * stride length * cadence
There are two ways to run faster: moving your legs at a higher cadence or taking longer steps.
Elite long distance runners typically run with a high cadence of 85-95. On uphills, typical cadence values are lower. On downhills they are higher. Runners adjust stride length to gather speed: stride length increases as speed increases.
Yet one of the most common mistakes novice runners make is over-striding. The most efficient stride length is the natural one – the one that feels most comfortable. You will run faster in races by strengthening your leg muscles so they take you forward with a longer stride.
You should also work on maximizing cadence efficiency. Cadence does not progress easily, but if properly trained, you will be able to sustain it throughout your runs and maximize your performance. To develop cadence, the nerve-muscle connection needs to be trained - and reasonably frequently. A session of cadence training a week is a good start. Incorporate some cadence work into the rest of your week. During long easy runs, you could include some faster cadence every now and then.
When training for longer running events (½ Marathon, Marathon or longer), it may be helpful to monitor cadence. A low cadence at expected race pace can cause problems later in the event, as your legs tire. One way around this is to work on increasing leg speed at expected race pace. You can set your training computer to show pace and cadence. Try to shorten your stride and increase cadence while holding the same pace (set a narrow pace zone to give you audio feedback).You can aim to raise running cadence above the following:
80/min (4hour Marathoners)
85/min (3hr 30min Marathoners)
88/min (3hour Marathoners)
This is a general guide only, taller runners will naturally have slightly lower cadences. Runners should also tune in to what feels comfortable for them personally.
A good way of improving stride length is to undertake specific strength work, like running hills, running in soft sand, or running up steps. A six-week training period including strength work should result in noticeable improvements in stride length, and if combined with some faster leg speed work (such as short strides at best 5km pace), noticeable improvements should be seen in overall speed, as well.
*Optional s3/s3+ stride sensor W.I.N.D. required.
↑ Back to topR-R recording rate saves heartbeat intervals, i.e. intervals between successive heartbeats. This information is also shown as instantaneous heart rate in beats per minute in recorded samples.
When recording every single interval, extra systoles and artefacts can also be seen. We recommend using contact gel (ECG gel) to optimize contact between your skin and the heart rate sensor. Readings interpreted as incorrect in the heart rate data can be adjusted and corrected with the software.
↑ Back to topRunning Index offers an easy way to monitor performance changes. Performance (how fast/easily you run at a given pace) is directly influenced by aerobic fitness (VO2max) and exercise economy (how efficient your body is at running), and Running Index is a measurement of this influence. By recording your Running Index over time, you can monitor progress. Improvement means that running at a given pace requires less of an effort, or that your pace is faster at a given level of exertion. The Running Index feature calculates such improvements. Running Index also gives you daily information on your running performance level which may vary from day to day.
Benefits of Running Index:
emphasizes the positive effects of good training sessions and resting days.
monitors fitness and performance development at different heart rate levels - not only during maximal performance.
you can determine your optimal running speed by comparing running indexes from different kinds of trainings.
stresses progress through better running technique and fitness level.
Running Index is calculated during every exercise when heart rate and the s3/s3+ stride sensor/ G3/G5 GPS sensor* signal is recorded, and when the following requirements apply:
speed should be 6km/h / 3,75 mi/h or faster and duration 12 minutes minimum.
heart rate should be above 40% HRmax.
Make sure that the stride sensor is calibrated. Calculation begins when you start recording the session. During the session, you may stop once at traffic lights, for example, without interrupting the calculation.
In the end, your training computer displays a Running Index value and stores the result in the File section. Compare your result to the table below. Using the software, you can monitor and analyze your progress in Running Index values against time and different running speeds. Or compare values from different exercise sessions and analyze them in the short and long term.
Short-term analysis
Men
| Age / Years | Very low | Low | Fair | Moderate | Good | Very good | Elite |
|---|---|---|---|---|---|---|---|
| 20-24 | < 32 | 32-37 | 38-43 | 44-50 | 51-56 | 57-62 | > 62 |
25-29 | < 31 | 31-35 | 36-42 | 43-48 | 49-53 | 54-59 | > 59 |
30-34 | < 29 | 29-34 | 35-40 | 41-45 | 46-51 | 52-56 | > 56 |
35-39 | < 28 | 28-32 | 33-38 | 39-43 | 44-48 | 49-54 | > 54 |
40-44 | < 26 | 26-31 | 32-35 | 36-41 | 42-46 | 47-51 | > 51 |
45-49 | < 25 | 25-29 | 30-34 | 35-39 | 40-43 | 44-48 | > 48 |
50-54 | < 24 | 24-27 | 28-32 | 33-36 | 37-41 | 42-46 | > 46 |
55-59 | < 22 | 22-26 | 27-30 | 31-34 | 35-39 | 40-43 | > 43 |
60-65 | < 21 | 21-24 | 25-28 | 29-32 | 33-36 | 37-40 | > 40 |
Women
| Age / Years | Very low | Low | Fair | Moderate | Good | Very good | Elite |
|---|---|---|---|---|---|---|---|
| 20-24 | < 27 | 27-31 | 32-36 | 37-41 | 42-46 | 47-51 | > 51 |
25-29 | < 26 | 26-30 | 31-35 | 36-40 | 41-44 | 45-49 | > 49 |
30-34 | < 25 | 25-29 | 30-33 | 34-37 | 38-42 | 43-46 | > 46 |
35-39 | < 24 | 24-27 | 28-31 | 32-35 | 36-40 | 41-44 | > 44 |
40-44 | < 22 | 22-25 | 26-29 | 30-33 | 34-37 | 38-41 | > 41 |
45-49 | < 21 | 21-23 | 24-27 | 28-31 | 32-35 | 36-38 | > 38 |
50-54 | < 19 | 19-22 | 23-25 | 26-29 | 30-32 | 33-36 | > 36 |
55-59 | < 18 | 18-20 | 21-23 | 24-27 | 28-30 | 31-33 | > 33 |
60-65 | < 16 | 16-18 | 19-21 | 22-24 | 25-27 | 28-30 | > 30 |
The classification is based on a literature review of 62 studies where VO2max was measured directly in healthy adult subjects in the USA, Canada and 7 European countries. Reference: Shvartz E, Reibold RC. Aerobic fitness norms for males and females aged 6 to 75 years: a review. Aviat Space Environ Med; 61:3-11, 1990.
There may be some daily variation in the Running Indexes due to running circumstances e.g. surface, hills, wind, temperature.
Long-term analysis
The single Running Index values form a trend that predicts your success in running certain distances.
The following chart estimates the duration that a runner can achieve in certain distances when performing maximally. Use your long-term Running Index average in the interpretation of the chart. The prediction is best for those Running Index values that have been received at speed and running circumstances similar to the target performance.
| Running Index | Cooper test (m) | 5 km (h:mm:ss) | 10 km (h:mm:ss) | 21.098 km (h:mm:ss) | 42.195 km (h:mm:ss) |
|---|---|---|---|---|---|
| 36 | 1800 | 0:36:20 | 1:15:10 | 2:48:00 | 5:43:00 |
38 | 1900 | 0:34:20 | 1:10:50 | 2:38:00 | 5:24:00 |
40 | 2000 | 0:32:20 | 1:07:00 | 2:29:30 | 5:06:00 |
42 | 2100 | 0:30:40 | 1:03:30 | 2:21:30 | 4:51:00 |
44 | 2200 | 0:29:10 | 1:00:20 | 2:14:30 | 4:37:00 |
46 | 2300 | 0:27:50 | 0:57:30 | 2:08:00 | 4:24:00 |
48 | 2400 | 0:26:30 | 0:55:00 | 2:02:00 | 4:12:00 |
50 | 2500 | 0:25:20 | 0:52:40 | 1:57:00 | 4:02:00 |
52 | 2600 | 0:24:20 | 0:50:30 | 1:52:00 | 3:52:00 |
54 | 2700 | 0:23:20 | 0:48:30 | 1:47:30 | 3:43:00 |
56 | 2800 | 0:22:30 | 0:46:40 | 1:43:30 | 3:35:00 |
58 | 2900 | 0:21:40 | 0:45:00 | 1:39:30 | 3:27:00 |
60 | 3000 | 0:20:50 | 0:43:20 | 1:36:00 | 3:20:00 |
62 | 3100 | 0:20:10 | 0:41:50 | 1:32:30 | 3:13:00 |
64 | 3200 | 0:19:30 | 0:40:30 | 1:29:30 | 3:07:00 |
66 | 3300 | 0:18:50 | 0:39:10 | 1:26:30 | 3:01:00 |
68 | 3350 | 0:18:20 | 0:38:00 | 1:24:00 | 2:55:00 |
70 | 3450 | 0:17:50 | 0:36:50 | 1:21:30 | 2:50:00 |
72 | 3550 | 0:17:10 | 0:35:50 | 1:19:00 | 2:45:00 |
74 | 3650 | 0:16:40 | 0:34:50 | 1:17:00 | 2:40:00 |
76 | 3750 | 0:16:20 | 0:33:50 | 1:14:30 | 2:36:00 |
78 | 3850 | 0:15:50 | 0:33:00 | 1:12:30 | 2:32:00 |
It is worth to remember that in addition to good Running Index, maximal running performance demands good preparation, optimal running conditions, speed endurance and guts. Training quantity and quality have an affect as well as natural talent.
*Optional s3/s3+ stride sensor or G3/G5 GPS sensor required.
↑ Back to topFor more facts and know-how to enhance your running, visit Polar Article Library .
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