mhealthdata 0.0.1

Wearable health data to NumPy

mHealthData

Wearable health data to NumPy

Features

• Read health data export of Fitbit, Samsung Health, and Apple Healthkit
• Read all .xml, .csv, .json to pandas Dataframe
• Fix time zone inconsistency and convert to local time
• Device-centric approach - output numpy arrays for selected wearable devices
• Resample to per-minute or per-day numpy arrays:
  • (N days x 1440 minutes) for steps, sleep, and bpm
  • (N days) for weight, rhr, and hrv

Installation

pip install mhealthdata

Quick start

Assume we have Fitbit data export .zip downloaded to folder /Users/username/Downloads/wearable_data/ and unzipped into a subfolder /Users/username/Downloads/wearable_data/User/ with lots of .xml, .csv, .json and sub-folders inside.

Load data:

import mhealthdata

path = '/Users/username/Downloads/wearable_data/User/'
wdata = mhealthdata.FitbitLoader(path)

• Use SHealthLoader() for loading Samsung Health export
• Use HealthkitLoader() for loading Apple Health export

Show loaded dataframes aswell as steps records dataframe:

print(wdata.dataframes)
print(wdata.df['steps'].head())

Data Analysis and Visualization

Convert data to numpy arrays:

data = wdata.get_device_data()

• By default mhealthdata truncates steps/min, heart rate/, and weight in [kg] to physically meaningful range 0 - 255.
• See valid device list: wdata.devices
• Get numpy arrays for specific device e.g. data = wdata.get_device_data('iPhone')

Date range:

from datetime import datetime

idates = data['idate'] # ordinal days (January 1st of year 1 - is day 1)
dates = [datetime.fromordinal(d) for d in idates]
print(f'Date range {dates[0]} - {dates[-1]}')

Plot one day of data:

import pylab as plt

i = 9 # Let us plot day 10 (numbering starts with zero)
plt.figure(facecolor='white')
plt.title(f'Date {dates[i]}')
for dname in ['steps', 'sleep', 'bpm']:
    plt.plot(data[dname][i], label=dname)
plt.legend()
plt.show()

• Zero values indicate missing data (also not walking and not sleeping for steps and sleep)
• By default mhealthdata pads data with zeros to match full weeks (Monday through Sunday), so some days at the beginning and at the end may be empty

Data correlations:

from scipy.stats import pearsonr

x = data['rhr']
y = data['weight']

# IMPORTANT: zero values indicate missing data and should be disregarded
mask = (x > 0) & (y > 0)
r, p = pearsonr(x[mask], y[mask])
print(f'Correlation {r:.2f}, P-value {p:.2g}')

• Missing data are a certaing problem in wearable data analysis
• A study Pyrkov T.V. et al., Nat Comms 12, 2765 (2021) shows high consistency of recovery rates in quite different biological signals - physical activity measured by consumer wearable devices and laboratory blood cell counts. The typical recovery time of 1-2 weeks. The finding suggests it may be safe to use averaging windows or impute data gaps of several day length (though both affect noise and correlation and therefore should be used with caution).

Documentation

https://mhealthdata.readthedocs.io