6533b85bfe1ef96bd12baa76

RESEARCH PRODUCT

Multiscale Model Selection for High-Frequency Financial Data of a Large Tick Stock by Means of the Jensen–Shannon Metric

Gianbiagio CuratoFabrizio Lillo

subject

Return distributionFinancemodel selectionComputer sciencebusiness.industryEntropy High frequency data Financial markets Market microstructureModel selectionGeneral Physics and AstronomyRanginglcsh:Astrophysicsmultiscale analysimultiscale analysisJensen–Shannon divergencelcsh:QC1-999Markov-switching modelinglcsh:QB460-466EconometricsJensen–Shannon divergencelcsh:Qbusinesslcsh:ScienceStock (geology)high frequency financial datalcsh:Physics

description

Modeling financial time series at different time scales is still an open challenge. The choice of a suitable indicator quantifying the distance between the model and the data is therefore of fundamental importance for selecting models. In this paper, we propose a multiscale model selection method based on the Jensen–Shannon distance in order to select the model that is able to better reproduce the distribution of price changes at different time scales. Specifically, we consider the problem of modeling the ultra high frequency dynamics of an asset with a large tick-to-price ratio. We study the price process at different time scales and compute the Jensen–Shannon distance between the original dataset and different models, showing that the coupling between spread and returns is important to model return distribution at different time scales of observation, ranging from the scale of single transactions to the daily time scale.

yearjournalcountryeditionlanguage
2014-01-16Entropy
10.3390/e16010567http://www.mdpi.com/1099-4300/16/1/567