Microstructure Modes -- Disentangling the Joint Dynamics of Prices & Order Flow
19 Pages Posted: 18 May 2024
Date Written: May 17, 2024
Abstract
In order to alleviate various problems caused by high-frequency noise, we propose a double coarse-graining procedure that allows us to extract meaningful information at the minute time scale. We use Principal Component Analysis to construct "microstructure modes'' that describe the most common flow/return patterns and allow one to separate them into bid-ask symmetric and bid-ask anti-symmetric. We define and calibrate a Vector Auto-Regressive (VAR) model that encodes the dynamical evolution of these modes. The parameters of the VAR model are found to be extremely stable in time, and lead to relatively high R² prediction scores, especially for symmetric liquidity modes. The VAR model becomes marginally unstable as more lags are included, reflecting the long-memory nature of flows and giving some further credence to the possibility of "endogenous liquidity crises''. Although very satisfactory on several counts, we show that our VAR framework does not account for the well known square-root law of price impact.
Keywords: Order Flow, Market Microstructure, Price Impact
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