When Data Handling Alters Physical Interpretation: HVAC’s Missing Evidence Layer

The recent study highlights a hidden vulnerability in modern HVAC analytics: the way missing sensor readings are treated can fundamentally rewrite the physics the model believes it is observing. When mean radiant temperature (MRT) is absent, practitioners often substitute air temperature or let machine‑learning algorithms infer the gap, inflating the apparent influence of air temperature by more than double. This phenomenon is not limited to HVAC; any built‑environment system that relies on sparse sensor networks faces the same risk of drawing unstable conclusions from incomplete evidence.

Machine‑learning platforms such as LightGBM treat missing values as informative signals, allowing the model to learn patterns of data collection rather than true environmental dynamics. The result is a high‑accuracy model that, paradoxically, misrepresents the underlying physics, leading designers to undervalue radiant heating or cooling solutions and to over‑optimize for air‑side control. The industry’s current “collect‑clean‑impute‑model” pipeline therefore amplifies bias, making AI‑driven decisions fragile and difficult to defend in regulatory or performance‑verification contexts.

The path forward requires a shift toward a "truth system" that captures, timestamps, and preserves raw environmental measurements before any reconstruction occurs. Continuous, append‑only recording, coupled with an evidence‑governance framework, can ensure that every model input is admissible and that AI algorithms learn from genuine physical signals. By institutionalizing immutable evidence layers, building owners and operators can achieve more reliable energy models, robust control strategies, and ultimately, greener, cost‑effective facilities.