English

Costly Trading

Portfolio Management 2021-10-29 v1 Trading and Market Microstructure

Abstract

We revisit optimal execution of an active portfolio in the presence of slippage (aka linear, proportional, or absolute-value) costs. Market efficiency implies a close balance between active alphas and trading costs, so even small changes to trading optimization can make a big difference. It has been observed for some time that optimal trading involves a pattern of a no-trade zone with width Δ\Delta increasing with slippage cost parameter cc. In a setting of a reasonably stable (non-stochastic) forecast of future returns and a quadratic risk aversion, it is shown that Δc1/2\Delta\sim c^{1/2}, which differs from the Δc1/3\Delta\sim c^{1/3} scaling reported for stochastic settings. Analysis of optimal trading employs maximization of a utility including projected alpha-based profits, slippage costs, and risk aversion and borrows from a physical analogy of forced motion in the presence of friction.

Keywords

Cite

@article{arxiv.2110.15239,
  title  = {Costly Trading},
  author = {Michael Isichenko},
  journal= {arXiv preprint arXiv:2110.15239},
  year   = {2021}
}
R2 v1 2026-06-24T07:16:16.246Z