Ensemble Properties of High Frequency Data and Intraday Trading Rules

ERN: Portfolio Optimization (Topic) Pub Date : 2012-02-09 DOI:10.2139/ssrn.2001981

F. Baldovin, F. Camana, M. Caporin, M. Caraglio, A. Stella

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引用次数: 9

Abstract

Regarding the intraday sequence of high frequency returns of the S&P index as daily realizations of a given stochastic process, we first demonstrate that the scaling properties of the aggregated return distribution can be employed to define a martingale stochastic model which consistently replicates conditioned expectations of the S&P 500 high frequency data in the morning of each trading day. Then, a more general formulation of the above scaling properties allows to extend the model to the afternoon trading session. We finally outline an application in which conditioned forecasting is used to implement a trend-following trading strategy capable of exploiting linear correlations present in the S&P dataset and absent in the model. Trading signals are model-based and not derived from chartist criteria. In-sample and out-of-sample tests indicate that the model-based trading strategy performs better than a benchmark one established on an asymmetric GARCH process, and show the existence of small arbitrage opportunities. We remark that in the absence of linear correlations the trading profit would vanish and discuss why the trading strategy is potentially interesting to hedge volatility risk for S&P index-based products.

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高频数据和日内交易规则的集成特性

关于标准普尔指数高频收益的日内序列作为给定随机过程的日常实现，我们首先证明了总收益分布的标度特性可以用来定义一个鞅随机模型，该模型在每个交易日早上一致地复制标准普尔500指数高频数据的条件预期。然后，上述缩放属性的更一般的公式允许将模型扩展到下午交易时段。我们最后概述了一种应用，在这种应用中，条件预测用于实现一种趋势跟踪交易策略，这种策略能够利用标准普尔数据集中存在的线性相关性，而模型中不存在线性相关性。交易信号是基于模型的，而不是来自图表标准。样本内和样本外测试表明，基于模型的交易策略优于基于非对称GARCH过程建立的基准交易策略，并且存在较小的套利机会。我们注意到，在没有线性相关性的情况下，交易利润将消失，并讨论了为什么交易策略对对冲基于标准普尔指数的产品的波动风险可能很有趣。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ERN: Portfolio Optimization (Topic)

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