Daily HRV Summaries
& Readiness
Reference for every metric HRVDex surfaces from a pre-computed daily HRV reading (Welltory-style morning check) — definitions, formulas, expected ranges, and the evidence base behind each. The core HRV measures are the established, literature-validated ones; on them HRVDex layers trend signals, readiness composites and population projections. Companion to the reading; not a substitute for clinical evaluation.
The primary parasympathetic (vagal) marker and the most stable short-reading HRV value — HRVDex’s headline.
| rMSSD (ms) | Read |
|---|---|
| > 42 | High vagal tone / well-recovered |
| 20–42 | Typical adult range |
| < 20 | Low — stress / fatigue |
Overall HRV across the reading — total autonomic variability.
| SDNN (ms) | Read |
|---|---|
| > 50 | Healthy |
| 30–50 | Moderate |
| < 30 | Reduced |
Ratio of low- to high-frequency power — historically read as sympatho-vagal balance; interpret directionally.
| LF/HF | Read |
|---|---|
| 1–2 | Balanced |
| > 2.5 | Sympathetic-leaning |
| < 0.5 | Parasympathetic-leaning |
High-frequency power as a share of (LF+HF) — the parasympathetic fraction.
Balance of short- to long-term variability from the Poincaré plot.
A geometric stress index that rises with sympathetic load / autonomic rigidity.
| Baevsky SI | Read |
|---|---|
| < 150 | Balanced |
| 150–500 | Elevated load |
| > 500 | High sympathetic load |
A log-scaled Poincaré index isolating the vagal contribution to variability.
The sympathetic counterpart of CVI from the same Poincaré geometry.
Detrended-fluctuation scaling exponent — the correlation structure of the rhythm; length-dependent on short readings.
| DFA α1 | Read |
|---|---|
| 0.85–1.15 | Healthy correlated dynamics |
| < 0.75 / > 1.25 | Toward random / rigid |
Entropy of the power spectrum — how spread-out (complex) the rhythm’s frequency content is.
Today’s SDNN as a z-score against your trailing 7-day baseline — how this reading compares to your normal.
| SDNN Z | Read |
|---|---|
| > 0 | Above your baseline |
| −1 to 0 | Slightly below |
| < −1 | Well below baseline |
The slope of log-rMSSD over 14 days — whether your HRV trend is rising or falling.
| Momentum | Read |
|---|---|
| > 0 | Rising HRV trend |
| ≈ 0 | Flat |
| < 0 | Declining trend |
rMSSD scaled by heart rate — a vagal-coupling efficiency proxy.
Geometric mean of the Poincaré axes — a combined autonomic-tone index.
A 0–100 readiness headline blending vagal HRV against your baseline.
An inverse-HRV stress estimate — rises as variability falls.
A composite energy/activation estimate.
A composite estimate of overall autonomic load.
How recovered the autonomic system looks relative to your baseline.
Accumulated days of sub-baseline recovery over the last two weeks.
A heart-rhythm coherence estimate (spectral peak sharpness around ~0.1 Hz).
A readiness blend of energy, fatigue and capacity.
A combined sympathetic/parasympathetic balance index.
A composite of energy, coherence and stress as a single restoration readout.
A parasympathetic-tone composite.
A directional overtraining-risk estimate from sustained autonomic load.
An HRV-adjusted fitness estimate — a population proxy, not a cardiopulmonary exercise test.
The smoothed 7-day average of the VO₂max estimate.
Validation refers to the underlying metric’s validation in published literature, and does not imply validation of the HRVDex implementation against a gold-standard laboratory dataset.
| Metric Category | Status | Basis |
|---|---|---|
| rMSSD, SDNN, LF/HF, HF n.u. | ● Literature-based | Task Force 1996 standards |
| SD1/SD2, CAI, Toichi CVI/CSI | ● Literature-based | Brennan 2001; Toichi 1997 |
| Baevsky stress index | ● Literature-based | Baevsky & Chernikova |
| DFA α1, spectral entropy, SDNN-Z, momentum, VEI | ◐ Emerging | Published / personal-baseline trend signals |
| HRV/Stress/Energy/readiness composites | ○ Experimental composite | HRVDex internal blends; no independent validation |
| VO₂max (HRV-adjusted) | ○ Population-derived | Population projection; not a measurement. ANS-age + HRV→BP removed 2026-06-23. |
| Tier | Meaning | Examples |
|---|---|---|
| Core | Headline, universally interpretable | rMSSD, SDNN, HRV Score, Stress |
| Advanced | Established support, fuller analysis | LF/HF, Baevsky SI, SDNN-Z, VEI |
| Research | Exploratory / emerging / composites | DFA, Toichi, ANS ratios, projections |
| Metric / Formula | Primary Citation | Category |
|---|---|---|
| rMSSD, SDNN, LF/HF, HF n.u. | Task Force 1996 | HRV |
| SD1/SD2; CAI √(SD1×SD2) | Brennan 2001 | HRV |
| Toichi CVI / CSI | Toichi 1997 | HRV |
| Baevsky stress index | Baevsky & Chernikova 2017 | HRV |
| DFA α1 | Peng 1995 | Nonlinear |
| VO₂max (HR-ratio) | Uth–Sørensen 2004 | Projection |
| HRV/Stress/readiness; ANS-age & BP proxies | HRVDex internal — no external source | Internal |
| Formula | Source / Author | Year | Reference |
|---|---|---|---|
| Time-domain HRV standards | Task Force ESC/NASPE | 1996 | Circulation. 93(5):1043–65 |
| SD1/SD2 Poincaré geometry | Brennan, Palaniswami & Kamen | 2001 | IEEE TBME. 48(11):1342–7 |
| CVI = log₁₀(L·T) ; CSI = L/T | Toichi et al. | 1997 | J Auton Nerv Syst. 62(1–2):79–84 |
| Baevsky SI = AMo/(2·Mo·MxDMn) | Baevsky & Chernikova | 2017 | Cardiometry. 10:66–76 |
| DFA α1 | Peng et al. | 1995 | Chaos. 5(1):82–7 |
| VO₂max = 15·(HRmax/HRrest) | Uth, Sørensen et al. | 2004 | Eur J Appl Physiol. 91(1):111–5 |
- Consumes pre-summarised daily HRV — raw beats are not seen here
- Short (~1-min) readings are sensitive to posture and breathing
- Take readings the same way each morning for comparability
- Source-app summarisation choices affect the numbers
- Absolute HRV varies with age/fitness — track your own trend
- LF/HF as “balance” is contested; read directionally
- Frequency metrics need adequate reading length
- No EEG / no raw morphology — no staging or beat-shape claims
- Readiness/stress/energy/recovery are internal composites
- ANS age, VO₂max, BP are population proxies, not measurements
- Baselines need ~7–14 days of readings to stabilise
- Normative bands are general, not personally calibrated
- Not FDA cleared or CE marked as a medical device
- Not for clinical diagnosis or treatment decisions
- Personal, research, and wellness use only
- Discuss medical concerns with a qualified clinician
| Method / Metric | Primary Citation | Category |
|---|---|---|
| rMSSD, SDNN, LF/HF, HF n.u. | Task Force of the ESC and NASPE. Heart rate variability: standards of measurement, physiological interpretation, and clinical use. Circulation. 1996;93(5):1043–65. doi: 10.1161/01.CIR.93.5.1043 | HRV |
| Poincaré SD1/SD2; CAI √(SD1×SD2) | Brennan M, Palaniswami M, Kamen P. Do existing measures of Poincaré plot geometry reflect nonlinear features of HRV? IEEE Trans Biomed Eng. 2001;48(11):1342–7. doi: 10.1109/10.959330 | HRV |
| Toichi CVI / CSI | Toichi M, Sugiura T, Murai T, Sengoku A. A new method of assessing cardiac autonomic function and its comparison with spectral analysis and coefficient of variation of R-R interval. J Auton Nerv Syst. 1997;62(1–2):79–84. doi: 10.1016/S0165-1838(96)00112-9 | HRV |
| Baevsky stress index | Baevsky RM, Chernikova AG. Heart rate variability analysis: physiological foundations and main methods. Cardiometry. 2017;10:66–76. doi: 10.12710/cardiometry.2017.10.6676 | HRV |
| DFA α1 | Peng C-K, Havlin S, Stanley HE, Goldberger AL. Quantification of scaling exponents… in nonstationary heartbeat time series. Chaos. 1995;5(1):82–7. doi: 10.1063/1.166141 | Nonlinear |
| VO₂max (HR-ratio method) | Uth N, Sørensen H, Overgaard K, Pedersen PK. Estimation of VO₂max from the ratio between HRmax and HRrest. Eur J Appl Physiol. 2004;91(1):111–5. doi: 10.1007/s00421-003-0988-y | Projection |
| HRV / Stress / Energy / readiness scores; BP & ANS-age proxies | HRVDex internal composites and population projections — no external source. Directional only. | Internal |
Implementation · Validation · UI/UX
Literature synthesis · Reference formatting
Planicka M. HRVDex: Daily HRV Summary Node. Version 1.0.0. 2026.