Polar HRM Caloric Data
Moderator: Moderator Team
- Craigagogo
- Posts: 383
- Joined: Sun Jul 18, 2004 1:10 pm
- Location: Ontario, Canada
How accurate do you think the data from Polar HRM is concerning calories burned? I've read in other postings that the power output (watts) can be off by as much as 5 to 10%. If there is an inaccuracy in power data then surely the caloric data would be off too. If it is off, how does it vary, positively or negatively (from the actual amount of calories burned)? Or is all this just unsubstantiated rumours?
More than 10 years a Weenie!
Visit starbike.com Online Retailer for HighEnd cycling components
Great Prices ✓ Broad Selection ✓ Worldwide Delivery ✓
www.starbike.com
First, Polar power meters are more accurate than you hear or read. Second, both are calculated independently. Polar uses an algorithm based upon various factors including age, weight, sex, heart rate, duration to estimate calories burned. Its accuracy is variable for many reasons, but it does provide a rough estimate of calories burned, but probably not accurate enough if you were strictly counting calories to lose weight.
One of the advantages of a power meter is that they measure kilojoules of energy expended, and kilojoules are easily converted to kilocalories. The only problem here is that human efficency varies from something like 21% to 26%, so even knowing your kilojoules of work there is going to be some inaccuracy regarding calories burned.
BTW, I just compared two power meter files, one a Polar, the other a Powertap. Same ride, exactly one year apart. Almost identical conditions, distance and average speed. The average power measured by the Polar and Powertap was the same, with only a 34 kj difference in work.
Looking even closer, I looked at the data from a small climb:
Polar
Duration: 5:20
Work: 109 kj
Distance: 1.387 mi
Min Max Avg
Power: 176 474 342 watts
HR: 145 177 171 bpm
Cadence: 73 98 85 rpm
Speed: 12.6 19.8 15.6 mph
Powertap
Duration: 5:38
Work: 110 kJ
Distance: 1.392 mi
Min Max Avg
Power: 122 431 325 watts
HR: 120 228 163 bpm
Cadence: 59 103 88 rpm
Speed: 9.1 21.3 14.9 mph
The higher power reported by the Polar is indicated b the faster speed on the climb. Soon I wll be doing simulanious comparisons.
One of the advantages of a power meter is that they measure kilojoules of energy expended, and kilojoules are easily converted to kilocalories. The only problem here is that human efficency varies from something like 21% to 26%, so even knowing your kilojoules of work there is going to be some inaccuracy regarding calories burned.
BTW, I just compared two power meter files, one a Polar, the other a Powertap. Same ride, exactly one year apart. Almost identical conditions, distance and average speed. The average power measured by the Polar and Powertap was the same, with only a 34 kj difference in work.
Looking even closer, I looked at the data from a small climb:
Polar
Duration: 5:20
Work: 109 kj
Distance: 1.387 mi
Min Max Avg
Power: 176 474 342 watts
HR: 145 177 171 bpm
Cadence: 73 98 85 rpm
Speed: 12.6 19.8 15.6 mph
Powertap
Duration: 5:38
Work: 110 kJ
Distance: 1.392 mi
Min Max Avg
Power: 122 431 325 watts
HR: 120 228 163 bpm
Cadence: 59 103 88 rpm
Speed: 9.1 21.3 14.9 mph
The higher power reported by the Polar is indicated b the faster speed on the climb. Soon I wll be doing simulanious comparisons.
Last edited by John979 on Tue Mar 15, 2005 10:20 pm, edited 1 time in total.
John979
- Craigagogo
- Posts: 383
- Joined: Sun Jul 18, 2004 1:10 pm
- Location: Ontario, Canada
I did read a scientific article based on proper lab tests and they reckoned the Polar calorific/power/VO2max calculations were within 8% for the vast majority of the population provided you had calibrated the HRM properly to your own parameters.
I used to use the 720 to approximate my caloric output. I found that it under estimating my output, as I based my caloric intake ( + basal rate) on it. I was dropping weight too quickly. I multiplied the Polar value by 1.1 or 1.2 to offset the error. I would urge you to be careful with this number... remember, it's just a number, and it doesn't really reflect what your body is doing or what it needs.
To be honest, I stoppoed paying attention to my diet some time ago. I found that a healthy-well-ballanced diet with lots of fruits and vegies (and not a lot of meat) keeps the weight off. Add in a multi vitamin with iron, and 15-20 hrs a week on the bike, and I gaurentee you'll be at optimal weight right quick. And you don't have to count calories or go deep into calorie debt (and feel like crap all the time). Trust me, when you eat well, you feel good. When you feel good, you ride faster!
To be honest, I stoppoed paying attention to my diet some time ago. I found that a healthy-well-ballanced diet with lots of fruits and vegies (and not a lot of meat) keeps the weight off. Add in a multi vitamin with iron, and 15-20 hrs a week on the bike, and I gaurentee you'll be at optimal weight right quick. And you don't have to count calories or go deep into calorie debt (and feel like crap all the time). Trust me, when you eat well, you feel good. When you feel good, you ride faster!
Toys-R-Us
Visit starbike.com Online Retailer for HighEnd cycling components
Great Prices ✓ Broad Selection ✓ Worldwide Delivery ✓
www.starbike.com
I did an 80 mile ride today of just over 4 hours that required 2945kj of work. This is net work. To get calories, use one of the following conversion factors:
25% efficient, kJ × 0.96 = kcal,
24% efficient, kJ × 1.00 = kcal,
23% efficient, kJ × 1.04 = kcal,
22% efficient, kJ × 1.09 = kcal,
21% efficient, kJ × 1.14 = kcal,
I would assume 23%, thus I burned 3063 calories on this ride, excluding BMR.
One of these days I will hook up the Polar and see what it calulates.
25% efficient, kJ × 0.96 = kcal,
24% efficient, kJ × 1.00 = kcal,
23% efficient, kJ × 1.04 = kcal,
22% efficient, kJ × 1.09 = kcal,
21% efficient, kJ × 1.14 = kcal,
I would assume 23%, thus I burned 3063 calories on this ride, excluding BMR.
One of these days I will hook up the Polar and see what it calulates.
John979