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State Dependent Parallel Neural Hawkes Process for Limit Order Book Event Stream Prediction and Simulation

Zijian Shi, John Cartlidge

2022Proceedings of the 28th ACM SIGKDD Conference on Knowledge Discovery and Data Mining19 citationsDOIOpen Access PDF

Abstract

The majority of trading in financial markets is executed through a limit order book (LOB). The LOB is an event-based continuously-updating system that records contemporaneous demand (`bids' to buy) and supply (`asks' to sell) for a financial asset. Following recent successes in the literature that combine stochastic point processes with neural networks to model event stream patterns, we propose a novel state-dependent parallel neural Hawkes process to predict LOB events and simulate realistic LOB data. The model is characterized by: (1) separate intensity rate modelling for each event type through a parallel structure of continuous time LSTM units; and (2) an event-state interaction mechanism that improves prediction accuracy and enables efficient sampling of the event-state stream. We first demonstrate the superiority of the proposed model over traditional stochastic or deep learning models for predicting event type and time of a real world LOB dataset. Using stochastic point sampling from a well trained model, we then develop a realistic deep learning-based LOB simulator that exhibits multiple stylized facts found in real LOB data.

Topics & Concepts

Computer scienceEvent (particle physics)Stylized factPoint processArtificial intelligenceArtificial neural networkDeep learningLimit (mathematics)Machine learningMathematicsStatisticsQuantum mechanicsMathematical analysisMacroeconomicsEconomicsPhysicsPoint processes and geometric inequalitiesDiffusion and Search DynamicsBayesian Methods and Mixture Models
State Dependent Parallel Neural Hawkes Process for Limit Order Book Event Stream Prediction and Simulation | Litcius