利用传播者和约束条件进行交易:应用于优化执行和电池存储

Eduardo Abi Jaber, Nathan De Carvalho, Huyên Pham
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引用次数: 0

摘要

受随机信号下的最优执行、金融市场中的市场影响和约束以及商品市场中的最优存储管理等问题的启发,我们提出并解决了线性函数不等式约束下具有一般弘量模型的最优交易问题。作为线性随机弗雷德霍姆方程的一个解,相应的拉格朗日乘数及其条件期望明确给出了最优控制。我们在对偶问题上提出了一种随机版本的乌泽算法,通过随机预测梯度上升,结合最小二乘蒙特卡罗回归步骤来近似计算其条件期望,从而在数值上构建随机拉格朗日乘数。我们在两个不同的随机信号实际应用中展示了我们的发现:(i) 具有指数或幂律衰减瞬时影响的最优执行问题,在出现 "卖出 "信号时具有 "不做空 "约束,在出现 "买入 "信号时具有 "不买入 "约束,或者在外生价低于指定参考水平时具有随机 "停止交易 "约束;(ii) 具有瞬时运营成本、季节性信号以及电池充电功率和负载能力固定约束的电池存储问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Trading with propagators and constraints: applications to optimal execution and battery storage
Motivated by optimal execution with stochastic signals, market impact and constraints in financial markets, and optimal storage management in commodity markets, we formulate and solve an optimal trading problem with a general propagator model under linear functional inequality constraints. The optimal control is given explicitly in terms of the corresponding Lagrange multipliers and their conditional expectations, as a solution to a linear stochastic Fredholm equation. We propose a stochastic version of the Uzawa algorithm on the dual problem to construct the stochastic Lagrange multipliers numerically via a stochastic projected gradient ascent, combined with a least-squares Monte Carlo regression step to approximate their conditional expectations. We illustrate our findings on two different practical applications with stochastic signals: (i) an optimal execution problem with an exponential or a power law decaying transient impact, with either a `no-shorting' constraint in the presence of a `sell' signal, a `no-buying' constraint in the presence of a `buy' signal or a stochastic `stop-trading' constraint whenever the exogenous price drops below a specified reference level; (ii) a battery storage problem with instantaneous operating costs, seasonal signals and fixed constraints on both the charging power and the load capacity of the battery.
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