Your search keyword '"Limit order book"' showing total 157 results

1. A mathematical framework for modelling order book dynamics

Author

Rama Cont, Pierre Degond, Lifan Xuan, University of Oxford, Institut de Mathématiques de Toulouse UMR5219 (IMT), Université Toulouse Capitole (UT Capitole), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), Institut National des Sciences Appliquées (INSA)-Université de Toulouse (UT)-Institut National des Sciences Appliquées (INSA)-Université Toulouse - Jean Jaurès (UT2J), Université de Toulouse (UT)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Centre National de la Recherche Scientifique (CNRS), and Imperial College London

Subjects

FOS: Economics and business, quantitative finance, History, market microstructure, Polymers and Plastics, Limit order book, [QFIN]Quantitative Finance [q-fin], Quantitative Finance - Mathematical Finance, measurevalued process, Business and International Management, Mathematical Finance (q-fin.MF), Industrial and Manufacturing Engineering, stochastic model

Abstract

43 p.; We present a general framework for modelling the dynamics of limit order books, built on the combination of two modelling ingredients: the order flow, modelled as a general spatial point process, and market clearing, modelled via a deterministic 'mass transport' operator acting on distributions of buy and sell orders. At the mathematical level, this corresponds to a natural decomposition of the infinitesimal generator describing the evolution of the limit order book into two operators: the generator of the order flow and the clearing operator. Our model provides a flexible framework for modelling and simulating order book dynamics and studying various scaling limits of discrete order book models. We show that our framework includes previous models as special cases and yields insights into the interplay between order flow and price dynamics.

Published

2023

2. Deep Attentive Time Series Modelling for Quantitative Finance

Author

Moreno Pino, Fernando, Artés Rodríguez, Antonio, Martínez Olmos, Pablo, and UC3M. Departamento de Teoría de la Señal y Comunicaciones

Subjects

Telecomunicaciones, Limit order book, High-frequency data, Financial markets, Time series forecasting, Deep learning, Volatility forecasting, Fill probabities, Spectral attention autoregressive model, Economía

Abstract

Mención Internacional en el título de doctor Time series modelling and forecasting is a persistent problem with extensive implications in scientific, business, industrial, and economic areas. This thesis’s contribution is twofold. Firstly, we propose a novel probabilistic time series forecasting methodology that introduces the use of Fourier domain-based attention models, merging classic signal processing spectral filtering techniques with machine learning architectures. Secondly, we take advantage of the abundance of financial intraday high-frequency data to develop deep learning-based solutions for modelling financial time series. Machine learning methods can potentially enhance the performance of traditional methodologies used by practitioners. Deep neural networks’ feature extraction capabilities, which can benefit from the rising accessibility of highfrequency data, and attention mechanisms, which help to model temporal patterns, are mostly to blame for this. Concerning our first major contribution, this thesis empirically demonstrates that spectral domain-based machine learning models can learn the properties of time series datasets and integrate this information to improve the forecasting accuracy. Simultaneously, Fourier domain-based models alleviate some of the inconveniences commonly associated with deep autoregressive models. These architectures, prone to prioritising recent past data, often ignore critical global information not contained in previous time steps. Additionally, they are susceptible to error accumulation and propagation and may not yield illustrative results. The proposed model, the Spectral Attention Autoregressive Model (SAAM), mitigates these problems by combining deep autoregressive models with a Spectral Attention (SA) module. This module uses two attention models operating over the Fourier domain representation of the time series’ embedding. Through spectral filtering, SAAM differentiates between the components of the frequency domain that should be considered noise and subsequently filtered out, and the global patterns that are relevant and should be incorporated into the predictions. Empirical evaluation proves how the proposed Spectral Attention module can be integrated into various deep autoregressive models, consistently improving the results of these base architectures and achieving state-of-the-art performance. Afterwards, this thesis shifts toward showcasing the benefits of machine learning solutions in two different quantitative finance scenarios, proving how attention-based deep learning approaches compare favourably to classic parametric-based models and providing solutions for various algorithmic and high-frequency trading problems. In the context of volatility forecasting, which plays a central role among equity risk measures, we show that Dilated Causal Convolutional-based neural networks offer significant performance gains compared to well-established volatility-oriented parametric models. The proposed model, called DeepVol, showcases how data- driven models can avoid the limitations of classical methods by taking advantage of the abundance of high-frequency data. DeepVol outperforms baseline methods while exhibiting robustness in the presence of volatility shocks, showing its ability to extract universal features and transfer learning to out-of-distribution data. Consequently, data-driven approaches should be carefully considered in the context of volatility forecasting, as they can be instrumental in the valuation of financial derivatives, risk management, and the formation of investment portfolios. Finally, this thesis presents a survival analysis model for estimating the distri- bution of fill times for limit orders posted in the Limit Order Book (LOB). The proposed model, which does not make assumptions about the underlying stochastic processes, employs a convolutional-Transformer encoder and a monotonic neural network decoder to relate the time-varying features of the LOB to the distribution of fill times. It grants practitioners the capability of making informed decisions between market orders and limit orders, which in practice entails a trade-off between immediate execution and price premium. We offer an exhaustive comparison of the survival functions resulting from different order placement strategies, offering insight into the fill probability of orders placed within the spread. Empirical evaluation reveals the superior performance of the monotonic encoder-decoder convolutional- Transformer compared to state-of-the-art benchmarks, leading to more accurate predictions and improved economic value. El modelado y predicción de series temporales es un problema persistente con amplias implicaciones en áreas científicas, comerciales, industriales y económicas. Esta tesis propone una doble contribución en este ámbito. En primer lugar, formulamos una novedosa metodología para la predicción probabilística de series temporales que introduce el uso de modelos de atención basados en el dominio de la frecuencia, con la transformada de Fourier desempeñando un papel fundamental. El modelo propuesto fusiona técnicas clásicas de filtrado espectral, pertenecientes al campo del procesado de señal, con modelos de aprendizaje automático. En segundo lugar, desarrollamos varias soluciones basadas en aprendizaje profundo para el modelado de datos financieros intradía, aprovechando la cada vez mayor disponibilidad de los mismos. Los métodos de aprendizaje automático poseen el potencial para mejorar los resultados obtenidos por las metodologías clásicas que los profesionales del ámbito de las finanzas cuantitativas acostumbran a utilizar. La capacidad de extracción de características de las redes neuronales, que pueden aprovechar la creciente accesibilidad a los datos financieros de alta frecuencia, y el uso de los mecanismos de atención para el modelado temporal, son los principales responsables de ésto. En lo relativo a la primera de las contribuciones mencionadas anteriormente, es decir, el uso de modelos de aprendizaje automático que operan sobre el dominio de la frecuencia, esta tesis demuestra de manera empírica que los modelos de aprendizaje profundo basados en el dominio espectral pueden aprender de forma más eficiente las propiedades de las series temporales a predecir. De esta manera, logran mejorar la precisión de las predicciones a la vez que solventan varios de los problemas que lastran el rendimiento de los modelos autoregresivos. Estas arquitecturas son propensas a sobreponderar los datos del pasado inmediato, ignorando a menudo valiosa información global que no está contenida en estas observaciones recientes. Además, son susceptibles a la acumulación y propagación de errores. Finalmente, los resultados que producen son difícilmente interpretables. Proponemos un nuevo modelo, llamado “Spectral Attention Autoregressive Model”(SAAM) (Modelo Autorregresivo con Atención Espectral), que mitiga estos problemas combinando modelos autorregresivos basados en aprendizaje profundo con un módulo de Atención Espectral. Dicho módulo contiene dos modelos de atención que operan sobre la representación en el dominio de Fourier del “embedding” obtenido a partir de la serie temporal a predecir. Usando técnicas de filtrado espectral, SAAM diferencia entre los componentes del espectro que deben ser considerados ruido, y por consiguiente deben ser filtrados, y aquellos patrones globales que son relevantes y deben ser incorporados en las predicciones. Mediante una exhaustiva evaluación empírica, demostramos que nuestro modelo de Atención Espectral puede ser integrado en diversos modelos autorregresivos que forman parte del estado del arte actual, mejorando de forma consistente los resultados obtenidos. En lo relativo a la segunda contribución principal de esta tesis doctoral, demostramos los beneficios que las metodologías de aprendizaje automático basadas en modelos de atención pueden aportar en dos problemas propios de las finanzas cuantitativas. Diversos experimentos demuestran cómo este tipo de modelos pueden mejorar los resultados obtenidos por los modelos clásicos empleados en este campo, proporcionando soluciones innovadoras para diversos problemas recurrentes dentro del trading algorítmico de alta frecuencia. La predicción de volatilidad en mercados financieros es el primero de estos problemas en ser abordado en la presente tesis. La estimación de volatilidad desempeña un papel central entre las medidas de riesgo utilizadas en los mercados de renta variable. En esta tesis demostramos que las redes neuronales basadas en “Dilated Causal Convolutions” (Convolucionales Causales Dilatadas) ofrecen ganancias significativas en comparación con los modelos paramétricos clásicos desarrollados única y exclusivamente para predicción de volatilidad. El modelo propuesto, llamado DeepVol, evidencia que el uso de modelos de aprendizaje profundo puede evitar las numerosas limitaciones propias de los métodos clásicos, logrando aprovechar la abundancia de datos de alta frecuencia para aprender las funciones deseadas. DeepVol supera a todos los modelos de referencia usados como comparativa, a la vez que exhibe robustez en períodos que contienen shocks de volatilidad, demostrando su capacidad para extraer características universales comunes a diferentes instrumentos financieros. Los resultados obtenidos en esta parte de la tesis nos llevan a concluir que los modelos de aprendizaje automático deben considerarse cuidadosamente en el contexto de predicción de volatilidad, pudiendo ser especialmente relevantes en la valoración de derivados financieros, gestión del riesgo, y creación de carteras de inversión. Para terminar, esta tesis presenta un modelo de análisis de supervivencia para estimar la distribución de probabilidad de ejecución subyacente a órdenes limitadas publicadas en el conocido como “Limit Order Book” (Libro de Órdenes Limitadas). El modelo propuesto, que no necesita partir de suposiciones sobre los procesos estocásticos subyacentes, emplea una arquitectura codificador/decodificador que utiliza un “Transformer” convolutional para codificar la información del libro de órdenes y una red monotónica que decodifica la función de supervivencia a estimar. Programa de Doctorado en Multimedia y Comunicaciones por la Universidad Carlos III de Madrid y la Universidad Rey Juan Carlos Presidente: Juan José Murillo Fuentes.- Secretario: Emilio Parrado Hernández.- Vocal: Manuel Gómez Rodríguez

Published

2023

3. Unravelling the JPMorgan spoofing case using particle physics visualization methods

Author

Philippe Debie, Cornelis Gardebroek, Stephan Hageboeck, Paul van Leeuwen, Lorenzo Moneta, Axel Naumann, Joost M. E. Pennings, Andres A. Trujillo‐Barrera, Marjolein E. Verhulst, Finance, Marketing & Supply Chain Management, RS: GSBE other - not theme-related research, and RS: GSBE MORSE

Subjects

Datawetenschap, Informatiemanagement & Projectmanagement Organisatie, Marketing and Consumer Behaviour, Data Science, high-frequency trading, Agrarische Economie en Plattelandsbeleid, Data Science, Information Management & Projectmanagement Organisation, WASS, Datawetenschap, spoofing, Innovation- and Risk Management and Information Governance, Informatiemanagement & Projectmanagement Organisatie, MANIPULATION, Accounting, Agricultural Economics and Rural Policy, Consument & Keten, ORDER BOOK, Marktkunde en Consumentengedrag, particle physics, Consumer and Chain, Data Analysis and Statistics, General Economics, Econometrics and Finance, visualization, Information Management & Projectmanagement Organisation, limit order book

Abstract

On 29 September 2020, JPMorgan was ordered to pay a settlement of $920.2 million for spoofing the metals and Treasury futures markets from 2008 to 2016. We examine these cases using a visualization method developed in particle physics (CERN) and the messages that the exchange receives about market activity rather than time-based snapshots. This approach allows to examine multiple indicators related to market manipulation and complement existing research methods, thereby enhancing the identification and understanding of, as well as the motivation for, market manipulation. In the JPMorgan cases, we offer an alternative motivation for spoofing than moving the price.

Published

2023

4. State-dependent Hawkes processes and their application to limit order book modelling

Author

Maxime Morariu-Patrichi and Mikko S. Pakkanen

Subjects

Mathematics, Interdisciplinary Applications, DYNAMICS, FOS: Computer and information sciences, REPRESENTATION, Market microstructure, Endogeneity, Economics, IMPACT, Social Sciences, Statistics - Applications, POINT-PROCESSES, FOS: Economics and business, Limit order book, 60G55, 62M09, 62P05, Business & Economics, Applications (stat.AP), stat.AP, Hawkes process, q-fin.ST, 01 Mathematical Sciences, 14 Economics, Quantitative Finance - Trading and Market Microstructure, Science & Technology, 15 Commerce, Management, Tourism and Services, Statistical Finance (q-fin.ST), STABILITY, Quantitative Finance - Statistical Finance, Social Sciences, Mathematical Methods, Maximum likelihood estimation, Business, Finance, TIME, Trading and Market Microstructure (q-fin.TR), q-fin.TR, MARKET, Physical Sciences, SIMULATION, PRICE, High-frequency financial data, General Economics, Econometrics and Finance, Mathematics, Mathematical Methods In Social Sciences, BEHAVIOR, Finance

Abstract

We study statistical aspects of state-dependent Hawkes processes, which are an extension of Hawkes processes where a self- and cross-exciting counting process and a state process are fully coupled, interacting with each other. The excitation kernel of the counting process depends on the state process that, reciprocally, switches state when there is an event in the counting process. We first establish the existence and uniqueness of state-dependent Hawkes processes and explain how they can be simulated. Then we develop maximum likelihood estimation methodology for parametric specifications of the process. We apply state-dependent Hawkes processes to high-frequency limit order book data, allowing us to build a novel model that captures the feedback loop between the order flow and the shape of the limit order book. We estimate two specifications of the model, using the bid-ask spread and the queue imbalance as state variables, and find that excitation effects in the order flow are strongly state-dependent. Additionally, we find that the endogeneity of the order flow, measured by the magnitude of excitation, is also state-dependent, being more pronounced in disequilibrium states of the limit order book., Comment: 33 pages, 13 figures, v3: added a comparison with other related models plus some other minor amendments, to appear in Quantitative Finance

Published

2021

5. An empirical behavioral order-driven model with price limit rules

Author

Wei-Xing Zhou, Xiong Xiong, Gao-Feng Gu, Yongjie Zhang, Wei Chen, Hai-Chuan Xu, and Wei Zhang

Subjects

Order-driven model, Computer Science::Computer Science and Game Theory, Agent-based model, Process (engineering), Econophysics, Computational Finance (q-fin.CP), FOS: Economics and business, Quantitative Finance - Computational Finance, K4430-4675, Limit order book, Stock exchange, Order (exchange), Management of Technology and Innovation, Econometrics, Economics, Limit (mathematics), Structure (mathematical logic), Stylized facts, Stylized fact, Quantitative Finance - Trading and Market Microstructure, Series (mathematics), Public finance, Asymmetric price limit, Trading and Market Microstructure (q-fin.TR), HG1-9999, Volatility (finance), Finance

Abstract

We develop an empirical behavioural order-driven (EBOD) model, which consists of an order placement process and an order cancellation process. Price limit rules are introduced in the definition of relative price. The order placement process is determined by several empirical regularities: the long memory in order directions, the long memory in relative prices, the asymmetric distribution of relative prices, and the nonlinear dependence of the average order size and its standard deviation on the relative price. Order cancellation follows a Poisson process with the arrival rate determined from real data and the cancelled order is determined according to the empirical distributions of relative price level and relative position at the same price level. All these ingredients of the model are derived based on the empirical microscopic regularities in the order flows of stocks on the Shenzhen Stock Exchange. The model is able to produce the main stylized facts in real markets. Computational experiments uncover that asymmetric setting of price limits will cause the stock price diverging exponentially when the up price limit is higher than the down price limit and vanishing vice versus. We also find that asymmetric price limits have influences on stylized facts. Our EBOD model provides a suitable computational experiment platform for academics, market participants and policy makers., 19 pages, 8 figures and 7 tables

Published

2021

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

Author

Zijian Shi and John Cartlidge

Subjects

Neural networks (NNs), Limit Order Book, Time series analysis

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.

Published

2022

7. Essays on Market Microstructure and Financial Markets Stability

Author

Levin, Vladimir, Fonds National de la Recherche - FnR [sponsor], Kräussl, Roman [superviser], and von Lilienfeld-Toal, Ulf [president of the jury]

Subjects

information asymmetry, market microstructure, speed bump, dark trading, dark pool, Finance [B03] [Business & economic sciences], mini-flash crash, Finance [B03] [Sciences économiques & de gestion], limit order book

Abstract

The present doctoral thesis consists of three main chapters. The chapters of the thesis can be considered independently. Each of the three chapters raises a research question, reviews the related literature, proposes a method for the analysis, and, finally, reports results and conclusions. Chapter 1 is entitled Dark Trading and Financial Markets Stability and it is based on a working paper co-authored with Prof. Dr. Jorge Goncalves and Prof. Dr. Roman Kraussl. This paper examines how the implementation of a new dark order -- Midpoint Extended Life Order (M-ELO) on Nasdaq -- impacts financial markets stability in terms of occurrences of mini-flash crashes in individual securities. We use high-frequency order book data and apply panel regression analysis to estimate the effect of dark order trading activity on market stability and liquidity provision. The results suggest a predominance of a speed bump effect of M-ELO rather than a darkness effect. We find that the introduction of M-ELO increases market stability by reducing the average number of mini-flash crashes, but its impact on market quality is mixed. Chapter 2 is entitled Dark Pools and Price Discovery in Limit Order Markets and it is a single-authored work. This paper examines how the introduction of a dark pool impacts price discovery, market quality, and aggregate welfare of traders. I use a four-period model where rational and risk-neutral agents choose the order type and the venue and obtain the equilibrium numerically. The comparative statics on the order submission probability suggests a U-shaped order migration to the dark pool. The overall effect of dark trading on market quality and aggregate welfare was found to be positive but limited in size and depended on market conditions. I find mixed results for the process of price discovery. Depending on the immediacy need of traders, price discovery may change due to the presence of the dark venue. Chapter 3 is entitled Machine Learning and Market Microstructure Predictability and it is another single-authored piece of work. This paper illustrates the application of machine learning to market microstructure research. I outline the most insightful microstructure measures, that possess the highest predictive power and are useful for the out-of-sample predictions of such features of the market as liquidity volatility and general market stability. By comparing the models' performance during the normal time versus the crisis time, I come to the conclusion that financial markets remain efficient during both periods. Additionally, I find that high-frequency traders activity is not able to forecast accurately neither of the market features.

Published

2022

8. Online Hybrid Neural Network for Stock Price Prediction: A Case Study of High-Frequency Stock Trading in the Chinese Market

Author

Chengyu Li, Luyi Shen, and Guoqi Qian

Subjects

Economics and Econometrics, high-frequency, limit order book, online fast prediction, hybrid neural network

Abstract

Time-series data, which exhibit a low signal-to-noise ratio, non-stationarity, and non-linearity, are commonly seen in high-frequency stock trading, where the objective is to increase the likelihood of profit by taking advantage of tiny discrepancies in prices and trading on them quickly and in huge quantities. For this purpose, it is essential to apply a trading method that is capable of fast and accurate prediction from such time-series data. In this paper, we developed an online time series forecasting method for high-frequency trading (HFT) by integrating three neural network deep learning models, i.e., long short-term memory (LSTM), gated recurrent unit (GRU), and transformer; and we abbreviate the new method to online LGT or O-LGT. The key innovation underlying our method is its efficient storage management, which enables super-fast computing. Specifically, when computing the forecast for the immediate future, we only use the output calculated from the previous trading data (rather than the previous trading data themselves) together with the current trading data. Thus, the computing only involves updating the current data into the process. We evaluated the performance of O-LGT by analyzing high-frequency limit order book (LOB) data from the Chinese market. It shows that, in most cases, our model achieves a similar speed with a much higher accuracy than the conventional fast supervised learning models for HFT. However, with a slight sacrifice in accuracy, O-LGT is approximately 12 to 64 times faster than the existing high-accuracy neural network models for LOB data from the Chinese market.

Published

2023

9. The Limit Order Book and Its Profitability: Liquidity Creations and Order Types

Subjects

流動性, liquidity, 呼値の刻み, 指値注文ブック, Aduese selection, アルゴリズム取引, algorithmic trade, 逆選択リスク, ticks, liquidity trader, マーケットメイカー, market maker, 流動性トレーダー, limit order book

Abstract

application/pdf, The advancement of electronic data processing techniques and high-speed trading have changed the micro-structures of financial markets. Standard passive market-making —leaving a limit order in both sides of market — is sure to make money when the premium spread is positive but cannot cover losses caused by adverse selections due to external shocks. Therefore, market makers who mix limit and market orders in order to reduce adverse selection risk may perform better under turbulent environments. This paper analyzes the Nikkei 225 Futures markets for 35 months from January 2016, testing four types of passive market making style and clarifying the properties or profitability for each market making strategy.

Published

2020

10. The Limit Order Book and Its Profitability: Liquidity Creations and Order Types

Subjects

流動性, liquidity, 呼値の刻み, 指値注文ブック, Aduese selection, アルゴリズム取引, algorithmic trade, 逆選択リスク, ticks, liquidity trader, マーケットメイカー, market maker, 流動性トレーダー, limit order book

Abstract

The advancement of electronic data processing techniques and high-speed trading have changed the micro-structures of financial markets. Standard passive market-making —leaving a limit order in both sides of market — is sure to make money when the premium spread is positive but cannot cover losses caused by adverse selections due to external shocks. Therefore, market makers who mix limit and market orders in order to reduce adverse selection risk may perform better under turbulent environments. This paper analyzes the Nikkei 225 Futures markets for 35 months from January 2016, testing four types of passive market making style and clarifying the properties or profitability for each market making strategy.

Published

2020

11. Mutual Information between Order Book Layers

Author

Daniel Libman, Gil Ariel, Mary Schaps, and Simi Haber

Subjects

General Physics and Astronomy, limit order book, entropy, entropy estimation, mutual information, mutual information estimation, recursive copula, deep layers of order book, price and volume

Abstract

The order book is a list of all current buy or sell orders for a given financial security. The rise of electronic stock exchanges introduced a debate about the relevance of the information it encapsulates of the activity of traders. Here, we approach this topic from a theoretical perspective, estimating the amount of mutual information between order book layers, i.e., different buy/sell layers, which are aggregated by buy/sell orders. We show that (i) layers are not independent (in the sense that the mutual information is statistically larger than zero), (ii) the mutual information between layers is small (compared to the joint entropy), and (iii) the mutual information between layers increases when comparing the uppermost layers to the deepest layers analyzed (i.e., further away from the market price). Our findings, and our method for estimating mutual information, are relevant to developing trading strategies that attempt to utilize the information content of the limit order book.

Published

2022

12. Förstärkningsinlärningsbaserad likviditetsgarantering

Author

Carlsson, Simon and Regnell, August

Subjects

Deep reinforcement learning, Maskininlärning, Artificial intelligence, Förstärkningsinlärning, Algoritmisk handel, Artificiell intelligens, Djup förstärkningsinlärning, Limit order book, Annan matematik, Reinforcement learning, Machine learning, Q-learning, DDQN, Limitorderbok, Algorithmic trading, Högfrekvenshandel, Other Mathematics, High-frequency trading, Market making

Abstract

Market making – the process of simultaneously and continuously providing buy and sell prices in a financial asset – is rather complicated to optimize. Applying reinforcement learning (RL) to infer optimal market making strategies is a relatively uncharted and novel research area. Most published articles in the field are notably opaque concerning most aspects, including precise methods, parameters, and results. This thesis attempts to explore and shed some light on the techniques, problem formulations, algorithms, and hyperparameters used to construct RL-derived strategies for market making. First, a simple probabilistic model of a limit order book is used to compare analytical and RL-derived strategies. Second, a market making agent is trained on a more complex Markov chain model of a limit order book using tabular Q-learning and deep reinforcement learning with double deep Q-learning. Results and strategies are analyzed, compared, and discussed. Finally, we propose some exciting extensions and directions for future work in this research field. Likviditetsgarantering (eng. ”market making”) – processen att simultant och kontinuerligt kvotera köp- och säljpriser i en finansiell tillgång – är förhållandevis komplicerat att optimera. Att använda förstärkningsinlärning (eng. ”reinforcement learning”) för att härleda optimala strategier för likviditetsgarantering är ett relativt outrett och nytt forskningsområde. De flesta publicerade artiklarna inom området är anmärkningsvärt återhållsamma gällande detaljer om de tekniker, problemformuleringar, algoritmer och hyperparametrar som används för att framställa förstärkningsinlärningsbaserade strategier. I detta examensarbete så gör vi ett försök på att utforska och bringa klarhet över dessa punkter. Först används en rudimentär probabilistisk modell av en limitorderbok som underlag för att jämföra analytiska och förstärkningsinlärda strategier. Därefter brukas en mer sofistikerad Markovkedjemodell av en limitorderbok för att jämföra tabulära och djupa inlärningsmetoder. Till sist presenteras även spännande utökningar och direktiv för framtida arbeten inom området.

Published

2022

13. The Limit Order Book Recreation Model (LOBRM):An Extended Analysis

Author

Shi, Zijian, Cartlidge, John P, Dong, Yuxiao, Kourtellis, Nicolas, Hammer, Barbara, and Lozano, Jose A.

Subjects

Financial machine learning, Limit Order Book, Time series prediction

Abstract

The limit order book (LOB) depicts the fine-grained demand and supply relationship for financial assets and is widely used in market microstructure studies. Nevertheless, the availability and high cost of LOB data restrict its wider application. The LOB recreation model (LOBRM) was recently proposed to bridge this gap by synthesizing the LOB from trades and quotes (TAQ) data. However, in the original LOBRM study, there were two limitations: (1) experiments were conducted on a relatively small dataset containing only one day of LOB data; and (2) the training and testing were performed in a non-chronological fashion, which essentially re-frames the task as interpolation and potentially introduces lookahead bias. In this study, we extend the research on LOBRM and further validate its use in real-world application scenarios. We first advance the workflow of LOBRM by (1) adding a time-weighted z-score standardization for the LOB and (2) substituting the ordinary differential equation kernel with an exponential decay kernel to lower computation complexity. Experiments are conducted on the extended LOBSTER dataset in a chronological fashion, as it would be used in a real-world application. We find that (1) LOBRM with decay kernel is superior to traditional non-linear models, and module ensembling is effective; (2) prediction accuracy is negatively related to the volatility of order volumes resting in the LOB; (3) the proposed sparse encoding method for TAQ exhibits good generalization ability and can facilitate manifold tasks; and (4) the influence of stochastic drift on prediction accuracy can be alleviated by increasing historical samples.

Published

2021

14. Analysis of Benchmark Market-making Strategies

Author

Tomaš, Marino and Kostanjčar, Zvonko

Subjects

knjiga naloga, TEHNIČKE ZNANOSTI. Računarstvo, visokofrekventno trgovanje, high-frequency trading, limit order, limitirani nalog, stvaratelj tržišta, TECHNICAL SCIENCES. Computing, market maker, Avellaneda i Stoikov, Avellaneda and Stoikov, market making, stvaranje tržišta, limit order book

Abstract

Problem stvaranja tržišta često se modelira kao problem optimalne(stohastičke) kontrole. Potrebno je kontinuirano određivati optimalne cijene limitiranih naloga i istovremeno minimizirati rizike kojima je izložen stvaratelj tržišta. Ovaj rad proučava analitičku strategiju koju su predstavili Gueant, Lehalle i Fernandez-Tapia. Također, ovaj rad proučava jednostavne strategije stvaranja tržišta, strategiju fiksne udaljenosti i strategiju linearnu u inventaru, te uspoređuje navedene strategije sa GLFT strategijom. Market making problem is often described as an optimal (stochastic) control problem. Market maker continuously calculates prices of optimal limit orders, and at the same time minimize risks he is exposed to. Within this work, we analyse analytical market making strategy proposed by Gueant, Lehalle and Fernandez-Tapia. We also analyse two simple market making strategies: fixed offset strategy and linear inventory strategy. Finally, we compare GLFT strategy and simple market making strategies.

Published

2021

15. Visualising Deep Network’s Time-Series Representations

Author

Alexandros Iosifidis and Błażej Leporowski

Subjects

Focus (computing), Series (mathematics), Computer science, business.industry, Time-series visualisation, Financial data, Machine learning, computer.software_genre, Plot (graphics), Visualization, Limit order book, Neural network representations visualisation, Artificial Intelligence, Computational Science and Engineering, Artificial intelligence, business, computer, Software

Abstract

Despite the popularisation of machine learning models, more often than not, they still operate as black boxes with no insight into what is happening inside the model. There exist a few methods that allow to visualise and explain why a model has made a certain prediction. Those methods, however, allow visualisation of the link between the input and output of the model without presenting how the model learns to represent the data used to train the model as whole. In this paper, a method that addresses that issue is proposed, with a focus on visualising multi-dimensional time-series data. Experiments on a high-frequency stock market dataset show that the method provides fast and discernible visualisations. Large datasets can be visualised quickly and on one plot, which makes it easy for a user to compare the learned representations of the data. The developed method successfully combines known techniques to provide an insight into the inner workings of time-series classification models.

Published

2021

16. Metaorder limit prices in evaluating expected market impact and assessing execution service quality

Author

Viktor Bazylevych and Vitalii Ihnatiuk

Subjects

Economics and Econometrics, Service quality, market microstructure, 050208 finance, Index (economics), participation rate, business.industry, Strategy and Management, 05 social sciences, execution cost, lcsh:Finance, lcsh:HG1-9999, 0502 economics and business, metaorders, Econometrics, Economics, Limit (mathematics), 050207 economics, Business and International Management, Market impact, business, Publication, Finance, limit order book

Abstract

The paper examines the bias introduced by metaorder limit prices when measuring quality of execution services on financial market. While evaluating the quality of execution services, observed execution costs should be adjusted for metaorder participation rate, size and duration to ensure that they are comparable across execution service providers. One of the exogenous factors which may bias measured execution costs are the different metaorder limit prices in the sample. Currently, there are no proposed methods to normalize for this bias. In the research, the difference in execution costs for metaorders with different limit prices was examined by implementing a limit order book simulation model. It was discovered that the difference in metaorder limit prices is a source of significant heterogeneity in the execution cost distribution. However, we were able to prove that when market agents trade with constant intensities, the difference in execution costs for metaorders with different limit prices is fully explained by their realized participation rate. As a result, financial institution may assess quality of execution services for metaorders without any reservations about differences in metaorders limit prices as long as execution costs are adjusted for different participation rates.

Published

2019

17. Liquidity withdrawal in the FX spot market: A cross-country study using high-frequency data

Author

Alexis Stenfors and Masayuki Susai

Subjects

Economics and Econometrics, market microstructure, Economics, Financial economics, high-frequency trading, Dual currency deposit, Monetary economics, computer.software_genre, 0502 economics and business, foreign exchange, High-frequency trading, Algorithmic trading, 040101 forestry, liquidity, 050208 finance, 05 social sciences, algorithmic trading, Spot market, 04 agricultural and veterinary sciences, Market microstructure, Electronic trading, Market liquidity, Currency, 0401 agriculture, forestry, and fisheries, Business, computer, Finance, limit order book

Abstract

This paper studies short-term liquidity withdrawal in the FX spot market for eight currency pairs. We include over 3 million limit order submissions, worth more than $5 trillion, and investigate the drivers of two different measures of volume-based liquidity. Overall, we find that market participants react differently to changes in the state of the market for different currency pairs. Moreover, the liquidity withdrawal process also differs depending on the perceived information content of new limit orders submitted. Finally, we document that a ‘liquidity illusion’ might exist in FX spot markets electronic trading platforms where algorithmic and high-frequency trading is prominent.

Published

2019

18. Essays on the Statistics of Financial Markets

Author

Bleher, Johannes and Dimpfl, Thomas (Prof. Dr.)

Subjects

Cryptocurrency, relative Entropiemaße, Quantilsregression, Transfer entropy, quantile regression, Consumption, relative entropy measures, Google Trends, Konsum, Mutual Information, Ökonometrie , Entropie , Statistik , Wirtschaftswissenschaften , Bitcoin , Inflation , Google, Inflation, bedingte Dichteschätzung, Transinformation, Limit order book, Financial market microstructure, Transferentropie, conditional density estimation, Limitorderbuch, Marktmikrostruktur, Bitcoin

Abstract

Beim Handel mit Finanzinstrumenten zahlt es sich aus Entwicklungen im Voraus zu kennen. Aber welche Informationen sind dabei tatsächlich hilfreich? Dies ist die Leitfrage der Dissertation. Zunächst wird untersucht, ob Google Suchanfragen vorausschauende Inhalte enthalten. Dazu wird ein Algorithmus entwickelt, der den von Google nur bruchstückhaft bereitgestellten Suchvolumenindex (SVI) sinnvoll zusammensetzt. Mit dem Algorithmus wird ein Index der online gesuchten Preise (IPSO) konstruiert. In- und Out-of-Sample-Ergebnisse zeigen, dass der IPSO die monatlichen Inflations- und Verbrauchsvorhersagen für die USA und die Eurozone verbessert. Der Algorithmus wird auch verwendet, um zu untersuchen, ob Renditen und Volatilität von Kryptowährungen mit Google Trends prognostiziert werden können. Die Analyse zeigt über verschiedene Beobachtungsfrequenzen hinweg, dass Renditen nicht vorhersagbar sind, während dies nicht für Volatilität gilt. Zweitens liegt der Fokus der Disseration auf der Mikrostruktur von Finanzmärkten. Es wird untersucht, wie Nachrichten und andere Informationen in die Mechanik des Limit Order Book (LOB) einfließen. Zu diesem Zweck wird ein mikroskopisches Modell und eine Algebra vorgeschlagen, um die Dynamik des Limit Order Book (LOB) zu erfassen. Das Modell wird in einer Simulationsstudie und in einer empirischen Analyse evaluiert. Mit dem Modell kann die Richtung der Renditen, out-of-sample, mit einer Genauigkeit von über 75 Prozent für kurze Zeitspannen unter 10 Minuten vorhergesagt werden. Schließlich wird ein neues Schätzverfahren für relative Entropiemaße vorgestellt, einschließlich der Transferentropie, auf Basis der Quantilsregression. Die Grundlage für eine asymptotische Theorie zur Durchführung von Inferenzen auf relative Entropiemaßen für mehrere Variablen wird dabei entwickelt. In zwei kurzen Anwendungen wird die zeitliche Beziehung zwischen Credit Default Swap-Prämien und Credit Spreads sowie transatlantischen Informationsflüssen analysiert. Die Ergebnisse zeigen, dass einminütige Renditen des deutschen DAX prädiktive Informationen für den S&P500 enthalten. When trading financial instruments, knowing in advance pays off. But what information is helpful to know in advance? This question is the dissertation’s recurrent theme. First, the dissertation focuses on whether predictive content is contained in Google searches. Therefore, an algorithm is developed to sensibly concatenate Google’s search volume index (SVI) based on the scattered data obtained from Google Trends. The algorithm is used to construct an index of prices searched online (IPSO). In- and out-of-sample results suggest, the IPSO improves monthly inflation and consumption forecasts for the US and the Euro Area. The algorithm is also used to investigate whether cryptocurrency returns and volatility can be forecasted with Google Trends. The analysis shows across various observational frequencies that returns are not predictable while volatility is predictable. Second, shifting perspectives to market microstructure, the dissertation investigates how news and other information enter the mechanics of the limit order book (LOB). For this purpose a microscopic model and an algebra is proposed to describe the dynamics of the limit order book (LOB). The model is evaluated in a simulation study and an empirical analysis. With the model, the direction of returns can be predicted, out-of-sample, with an accuracy of over 75% for short time horizons below 10 minutes. Last but not least, the dissertation presents a new estimation technique for relative entropy measures, including transfer entropy, based on quantile regression. The basis for an asymptotic theory to conduct inference on relative entropy measures for multiple variables is developed. In two short applications the temporal relationship between Credit Default Swap premia and credit spreads, as well as transatlantic information flows is analyzed. The results show that one minute returns on the German DAX contain predictive information for the S&P500

Published

2021

19. Sequential Modelling and Inference of High-frequency Limit Order Book with State-space Models and Monte Carlo Algorithms

Author

Li, Chenhao

Subjects

Markov chain Monte Carlo, Limit order book, Particle filter, Financial modelling, Bayesian modelling, State space model

Abstract

The high-frequency limit order book (LOB) market has recently attracted increasing research attention from both the industry and the academia as a result of expanding algorithmic trading. However, the massive data throughput and the inherent complexity of high-frequency market dynamics also present challenges to some classic statistical modelling approaches. By adopting powerful state-space models from the field of signal processing as well as a number of Bayesian inference algorithms such as particle filtering, Markov chain Monte Carlo and variational inference algorithms, this thesis presents my extensive research into the high-frequency limit order book covering a wide scope of topics. Chapter 2 presents a novel construction of the non-homogeneous Poisson process to allow online intensity inference of limit order transactions arriving at a central exchange as point data. Chapter 3 extends a baseline jump diffusion model for market fair-price process to include three additional model features taken from real-world market intuitions. In Chapter 4, another price model is developed to account for both long-term and short-term diffusion behaviours of the price process. This is achieved by incorporating multiple jump-diffusion processes each exhibiting a unique characteristic. Chapter 5 observes the multi-regime nature of price diffusion processes as well as the non-Markovian switching behaviour between regimes. As such, a novel model is proposed which combines the continuous-time state-space model, the hidden semi-Markov switching model and the non-parametric Dirichlet process model. Additionally, building upon the general structure of the particle Markov chain Monte Carlo algorithm, I further propose an algorithm which achieves sequential state inference, regime identification and regime parameters learning requiring minimal prior assumptions. Chapter 6 focuses on the development of efficient parameter-learning algorithms for state-space models and presents three algorithms each demonstrating promising results in comparison to some well-established methods. The models and algorithms proposed in this thesis not only are practical tools for analysing high-frequency LOB markets, but can also be applied in various areas and disciplines beyond finance.

Published

2021

20. Forecasting Quoted Depth With the Limit Order Book

Author

Daniel Libman, Simi Haber, and Mary Schaps

Subjects

Financial economics, 020209 energy, 02 engineering and technology, 03 medical and health sciences, 0302 clinical medicine, Artificial Intelligence, feed forward algorithm, 0202 electrical engineering, electronic engineering, information engineering, Economics, Order book, Stock (geology), Original Research, feed forward, Multidisciplinary, deep feed forward neural network, Financial market, deep learning—artificial neural network, deep feedforward, deep learning, Feed forward neural, QA75.5-76.95, Electronic trading, Market liquidity, Electronic computers. Computer science, Stock market, quoted depth, 030217 neurology & neurosurgery, limit order book

Abstract

Liquidity plays a vital role in the financial markets, affecting a myriad of factors including stock prices, returns, and risk. In the stock market, liquidity is usually measured through the order book, which captures the orders placed by traders to buy and sell stocks at different price points. The introduction of electronic trading systems in recent years made the deeper layers of the order book more accessible to traders and thus of greater interest to researchers. This paper examines the efficacy of leveraging the deeper layers of the order book when forecasting quoted depth—a measure of liquidity—on a per-minute basis. Using Deep Feed Forward Neural Networks, we show that the deeper layers do provide additional information compared to the upper layers alone.

Published

2021

21. High-dimensional statistical learning techniques for time-varying limit order book networks

Author

Chen, Shi, Härdle, Wolfgang, and Schienle, Melanie

Subjects

liquidity networks, market impact, network, ddc:330, C02, C13, high-dimensional statistical learning, G12, high frequency dynamics, bootstrap, C22, C45, limit order book

Abstract

This paper provides statistical learning techniques for determining the full own-price market impact and the relevance and effect of cross-price and cross-asset spillover channels from intraday transactions data. The novel tools allow extracting comprehensive information contained in the limit order books (LOB) and quantify their impacts on the size and structure of price interdependencies across stocks. For correct empirical network determination of such dynamic liquidity price effects even in small portfolios, we require high-dimensional statistical learning methods with an integrated general bootstrap procedure. We document the importance of LOB liquidity network spillovers even for a small blue-chip NASDAQ portfolio.

Published

2021

22. When Two Worlds Collide: Using Particle Physics Tools to Visualize the Limit Order Book

Author

Joost M.E. Pennings, Marjolein E. Verhulst, Lorenzo Moneta, Paul van Leeuwen, Cornelis Gardebroek, Axel Naumann, Stephan Hageboeck, Philippe Debie, Andres Trujillo-Barrera, Finance, Marketing & Supply Chain Management, and RS: GSBE other - not theme-related research

Subjects

Marketing and Consumer Behaviour, Economics and Econometrics, Root (linguistics), Particle physics, INFORMATION, Computer science, Other Fields of Physics, FOS: Physical sciences, WASS, FREQUENCY, Informatiemanagement & Projectmanagement Organisatie, law.invention, physics.data-an, FOS: Economics and business, ROOT, law, Accounting, Agricultural Economics and Rural Policy, Consument & Keten, particle physics, visualization, Datawetenschap, Informatiemanagement & Projectmanagement Organisatie, Large Hadron Collider, liquidity, Quantitative Finance - Trading and Market Microstructure, Data Science, Agrarische Economie en Plattelandsbeleid, PRICE DISCOVERY, Data Science, Information Management & Projectmanagement Organisation, Datawetenschap, Innovation- and Risk Management and Information Governance, General Business, Management and Accounting, Visualization, Trading and Market Microstructure (q-fin.TR), Lens (optics), q-fin.TR, MARKET QUALITY, Physics - Data Analysis, Statistics and Probability, Marktkunde en Consumentengedrag, Consumer and Chain, Futures contract, Finance, Data Analysis, Statistics and Probability (physics.data-an), Information Management & Projectmanagement Organisation, limit order book

Abstract

We introduce a methodology to visualize the limit order book (LOB) using a particle physics lens. Open-source data-analysis tool ROOT, developed by CERN, is used to reconstruct and visualize futures markets. Message-based data is used, rather than snapshots, as it offers numerous visualization advantages. The visualization method can include multiple variables and markets simultaneously and is not necessarily time dependent. Stakeholders can use it to visualize high-velocity data to gain a better understanding of markets or effectively monitor markets. In addition, the method is easily adjustable to user specifications to examine various LOB research topics, thereby complementing existing methods., Comment: 51 pages, 9 figures

Published

2021

23. The Value of Coordination in Multimarket Bidding of Grid Energy Storage

Author

Nils Löhndorf, David Wozabal, and Operations Analytics

Subjects

scenario tree generation, energy storage, Méthodes quantitatives en économie & gestion [B09] [Sciences économiques & de gestion], electricity price model, information relaxation, Management Science and Operations Research, Quantitative methods in economics & management [B09] [Business & economic sciences], multistage stochastic programming, Computer Science Applications, limit order book

Abstract

We consider the problem of a storage owner who trades in a multisettlement electricity market comprising an auction-based day-ahead market and a continuous intraday market. We show in a stylized model that a coordinated policy that reserves capacity for the intraday market is optimal and that the gap to a sequential policy increases with intraday price volatility and market liquidity. To assess the value of coordination in a realistic setting, we develop a multistage stochastic program for day-ahead bidding and hourly intraday trading along with a corresponding stochastic price model. We show how tight upper bounds can be obtained based on calculating optimal bilinear penalties for a novel information relaxation scheme. To calculate lower bounds, we propose a scenario tree generation method that lends itself to deriving an implementable policy based on reoptimization. We use these methods to quantify the value of coordination by comparing our policy with a sequential policy that does not coordinate day-ahead and intraday bids. In a case study, we find that coordinated bidding is most valuable for flexible storage assets with high price impact, like pumped-hydro storage. For small assets with low price impact, like battery storage, participation in the day-ahead auction is less important and intraday trading appears to be sufficient. For less flexible assets, like large hydro reservoirs without pumps, intraday trading is hardly profitable as most profit is made in the day-ahead market. A comparison of lower and upper bounds demonstrates that our policy is near-optimal for all considered assets.

Published

2021

24. Exploratory visual analytics for the European single intra-day coupled electricity market

Author

Nikolaos G. Paterakis, Koen Kok, Sumeyra Demir, Electrical Energy Systems, Cyber-Physical Systems Center Eindhoven, EIRES System Integration, EAISI Foundational, and Intelligent Energy Systems

Subjects

Visual analytics, Intra day, business.industry, computer.software_genre, European cross-border intra-day market, Market liquidity, Data visualization, Limit order book, SIDC project, Market price, Electricity market, Domain knowledge, Business, SDG 7 - Affordable and Clean Energy, Algorithmic trading, computer, Industrial organization, SDG 7 – Betaalbare en schone energie, Data visualisation, Exploratory visual analytics

Abstract

European single intra-day coupled electricity market (SIDC) trading activity has increased substantially in recent years mainly as a consequence of the increasing penetration of renewable energy production and its subsequent impact on imbalance market prices. Nonetheless, more research is needed to understand this growing market. This paper presents exploratory visual analytics tools for tradable contracts of the SIDC. The main visualisations are created from order and trade books and intended to increase our domain knowledge of the SIDC by monitoring market trends, behaviours, depth, price consensus and liquidity. Furthermore, previous contracts of SIDC volumes and balancing prices are visualised to identify trading opportunities and risks. We expect that the presented visual analytics will be useful for both practitioners and researchers seeking quick and easily implementable tools for acquiring additional market insights and developing manual or automated trading strategies.

Published

2020

25. Algorithmic trading in a microstructural limit order book model

Author

Huyên Pham, Frédéric Abergel, Côme Huré, Mathématiques et Informatique pour la Complexité et les Systèmes (MICS), CentraleSupélec-Université Paris-Saclay, Laboratoire de Probabilités, Statistiques et Modélisations (LPSM (UMR_8001)), Université Paris Diderot - Paris 7 (UPD7)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), CentraleSupélec, and Laboratoire de Probabilités, Statistique et Modélisation (LPSM (UMR_8001))

Subjects

Mathematical optimization, Computer science, high-frequency trading, computer.software_genre, Market maker, Point process, FIFO and LIFO accounting, Limit order book, 0502 economics and business, Order book, 050207 economics, High-frequency trading, Algorithmic trading, [QFIN.TR]Quantitative Finance [q-fin]/Trading and Market Microstructure [q-fin.TR], Quantitative Finance - Trading and Market Microstructure, 050208 finance, 05 social sciences, Dynamic programming, [MATH.MATH-PR]Mathematics [math]/Probability [math.PR], high-dimensional stochastic control, local regression, Hawkes Process, Markov decision process, quantization, pure-jump controlled process, General Economics, Econometrics and Finance, computer, Mathematics - Probability, Finance, Markov Decision Process

Abstract

International audience; We propose a microstructural modeling framework for studying optimal market making policies in a FIFO (first in first out) limit order book (LOB). In this context, the limit orders, market orders, and cancel orders arrivals in the LOB are modeled as Cox point processes with intensities that only depend on the state of the LOB. These are high-dimensional models which are realistic from a micro-structure point of view and have been recently developed in the literature. In this context, we consider a market maker who stands ready to buy and sell stock on a regular and continuous basis at a publicly quoted price, and identifies the strategies that maximize her P&L penalized by her inventory. We apply the theory of Markov Decision Processes and dynamic programming method to characterize analytically the solutions to our optimal market making problem. The second part of the paper deals with the numerical aspect of the high-dimensional trading problem. We use a control randomization method combined with quantization method to compute the optimal strategies. Several computational tests are performed on simulated data to illustrate the efficiency of the computed optimal strategy. In particular, we simulated an order book with constant/ symmet-ric/ asymmetrical/ state dependent intensities, and compared the computed optimal strategy with naive strategies. Some codes are available on https://github.com/comeh.

Published

2020

26. High Frequency trading via convolutional neural networks

Author

Cidrás Senra, Miguel, Universitat Politècnica de Catalunya. Departament de Ciències de la Computació, Hong Kong University of Science and Technology, and Pérez Palomar, Daniel

Subjects

Ciències de la computació, Deep Learning, High Frequency Trading, Informàtica [Àrees temàtiques de la UPC], Limit Order Book, Convolutional Neural Networks, Artifical Neural Networks, Multilayer Perceptron, Artificial Neural Networks, 90 Operations research, mathematical programming [Classificació AMS]

Abstract

L'objectiu d'aquest projecte és desenvolupar i entrenar a una CNN capaç de realitzar intercanvis borsaris dins un HFT. La metodologia seguida va consistir en el disseny de models per pronosticar característiques particulars del LOB. El punt de partida va ser provar mètodes tradicionals en finances per tal de predir els preus de futurs. Aquests mètodes van ser rebutjats a través de l'experimentació. Posteriorment, es va realitzar un estudi sobre arquitectures de ANN per construir models capaços de predir la direcció de l'preu mitjà. A més, es van dur a terme experiments en diferents models, provant diferents representacions de l'LOB. Els resultats van mostrar com, amb un disseny d'entrada i d'arquitectura adequats, una CNN supera lleugerament a un MLP en la predicció de la direcció de l'preu. Finalment, es van introduir noves etiquetes per detectar quan l'intercanvi borsària produeix beneficis. Tot seguit, es van realitzar experiments per predir aquestes etiquetes. En aquest cas, tots dos models van tenir resultats positius, però CNN no va superar a MLP. El objetivo de este proyecto es desarrollar y entrenar a una CNN capaz de realizar intercambios bursátiles en un HFT. La metodología seguida consistió en el diseño de modelos para pronosticar características particulares del LOB. El punto de partida fue probar métodos tradicionales en finanzas con el fin de predecir los precios de futuros. Estos métodos fueron rechazados a través de la experimentación. Posteriormente, se realizó un estudio sobre arquitecturas de ANN para construir modelos capaces de predecir la dirección del precio medio. Además, se llevaron a cabo experimentos en diferentes modelos, probando diferentes representaciones del LOB. Los resultados mostraron como, con un diseño de entrada y de arquitectura adecuado, una CNN supera ligeramente a un MLP en la predicción de la dirección del precio. Finalmente, se introdujeron nuevas etiquetas para detectar cuándo el intercambio bursátil produce beneficios. Acto seguido, se realizaron experimentos para predecir estas etiquetas. En ese caso, ambos modelos tuvieron resultados positivos, pero CNN no superó a MLP. The objective of this project is to develop and train a CNN capable to trade in a HFT. The methodology followed consisted in design models to forecast particular features of the LOB. The start point was to test traditional methods in finance with the purpose of predicting futures prices. These methods were rejected through experimentation. Subsequently, a study on ANN architectures was conducted to build models capable of predicting the direction of the mid price. Furthermore, experiments were carried out on different models, testing different representations of the LOB. The results showed how, with proper input and architecture design, a CNN slightly outperforms a MLP in predicting price direction. Finally, new labels were introduced to detect when the trade has benefits. Thereupon, experiments were conducted to predict these labels. In that case, both models had positive results but CNN did not outperform MLP. Subsequently, a study on ANN architectures was conducted to build models capable of predicting the direction of the mid price. Furthermore, experiments were carried out on different models, testing different representations of the LOB. The results showed how, with proper input and architecture design, a CNN slightly outperforms a MLP in predicting price direction. Finally, new labels were introduced to detect when the trade has benefits. Thereupon, experiments were conducted to predict these labels. In that case, both models had positive results but CNN did not outperform MLP. Outgoing

Published

2020

27. Intraday Liquidity Spillovers in Commodity Futures Markets

Author

Pennings, Joost, Gardebroek, Koos, Trujillo-Barrera, Andres, de Boer, Thom, Finance, Marketing & Supply Chain Management, and RS: GSBE other - not theme-related research

Subjects

multivariate har models, Liquidity spillovers, COMMODITY FUTURES, q14 - Agricultural Finance, g13 - "Contingent Pricing, Futures Pricing, option pricing", c22 - "Single Equation Models, Single Variables: Time-Series Models, Dynamic Quantile Regressions, Dynamic Treatment Effect Models", limit order book, FUTURES MARKETS

Published

2020

28. Intraday Liquidity Spillovers in Commodity Futures Markets

Subjects

multivariate har models, Liquidity spillovers, COMMODITY FUTURES, q14 - Agricultural Finance, g13 - "Contingent Pricing, Futures Pricing, option pricing", c22 - "Single Equation Models, Single Variables: Time-Series Models, Dynamic Quantile Regressions, Dynamic Treatment Effect Models", limit order book, FUTURES MARKETS

Published

2020

29. Intraday Liquidity Spillovers in Commodity Futures Markets

Subjects

multivariate har models, Liquidity spillovers, Agricultural Finance, Contingent Pricing, Futures Pricing, option pricing, Single Equation Models, Single Variables: Time-Series Models, Dynamic Quantile Regressions, Dynamic Treatment Effect Models, COMMODITY FUTURES, q14 - Agricultural Finance, g13 - "Contingent Pricing, option pricing", c22 - "Single Equation Models, Dynamic Treatment Effect Models", limit order book, FUTURES MARKETS

Published

2020

30. A new wavelet-based ultra-high-frequency analysis of triangular currency arbitrage

Author

Nikola Gradojevic, Ramazan Gençay, Deniz Erdemlioglu, Lille économie management - UMR 9221 (LEM), Université d'Artois (UA)-Université catholique de Lille (UCL)-Université de Lille-Centre National de la Recherche Scientifique (CNRS), Lille économie management - LEM - UMR 9221 (LEM), and Université catholique de Lille (UCL)-Université de Lille-Centre National de la Recherche Scientifique (CNRS)

Subjects

Economics and Econometrics, 050208 finance, Realized variance, 05 social sciences, Foreign exchange markets, Wavelets, Market liquidity, [SHS]Humanities and Social Sciences, Triangular arbitrage, Wavelet, Exchange rate, Market risk, Limit order book, 0502 economics and business, Econometrics, Economics, [SHS.GESTION]Humanities and Social Sciences/Business administration, Arbitrage, Volatility risk, 050207 economics

Abstract

International audience; We develop a new framework to characterize the dynamics of triangular (three-point) arbitrage in electronic foreign exchange markets. To examine the properties of arbitrage, we propose a wavelet-based regression approach that is robust to estimation errors, measurement bias and persistence. Relying on this wavelet-based (denoising) inference, we consider various liquidity and market risk indicators to predict arbitrage in a unique ultra-high-frequency exchange rate data set. We find strong empirical evidence that limit order book, realized volatility and cross-correlations help forecast triangular arbitrage profits. The estimates are statistically significant and relevant for investors such that on average 80−100 arbitrage opportunities exist with a short duration (100−500 ms) on a daily basis. Our analysis also reveals that triangular arbitrage opportunities are counter-cyclical at ultra-high-frequency levels: arbitrage returns tend to increase (decrease) in periods when volatility risk and correlations are relatively low (high). We show that liquidity-driven microstructure measures, however, appear to be more powerful in exploiting arbitrage profits when compared to market-driven factors.

Published

2020

31. Stochastic modeling and statistical properties of the Limit Order Book

Author

Radojicic, Dragana

Subjects

Machine Learning, Stochastic model, Limit order book, Limit Order Buch, Financial mathematics, Finanzmathematik, Recurrent Neural Network, stochastisches Modell, Rekurrentes neuronales Netzwerk

Abstract

Das Ziel dieser Doktorarbeit ist, das dynamische Verhalten und statistische Eigenschaften des Limit Order Buchs zu untersuchen. Die Arbeit besteht aus zwei Hauptteilen.Im ersten Teil wird das stochastische Limit Order Buch Modell in diskreter Zeit und mit diskretem Zustandsraum eingeführt, das von einer einfachen symmetrischen Irrfahrt (eng. Random Walk) getrieben wird. Besonderes Interesse liegt auf eine Order Avalanche, wobei eine Avalanche eine Reihe von Order Ausführungen ist, bei denen die Länge der Perioden ohne Handelsereignis ε > 0 nicht überschreiten darf. Die Dynamik des Limit Order Buch Modells führt zu zwei Handelsmechanismen, nämlich Typ I-Handel und Typ II-Handel. Ein Typ I-Handel findet statt, wenn die Exkursionen das nächste laufende Maximum des Mittelpreisprozesses erreicht, während ein Typ II-Handel auftritt, wenn der Preis um μ ≥ 1 oder mehr fällt und dann wieder um μ steigt. Unser Fokus liegt hauptsächlich auf der Verteilung der Länge des Avalanches.Der praktische Teil dieser Arbeit hat als Ziel zu analysieren, wie viele Informationen über die Merkmale, die aus dem Limit Order Buch extrahiert werden können, um jedem Marktvektor eines der Labels aus der Menge S = {buy, idle} zuzuweisen. Computerexperimente basierend auf der Gated Reccurent Unit (GRU) Architektur werden durchgeführt, um zu bewerten, ob die Leistung des Modells verbessert wird, wenn Merkmale unter Verwendung der neu vorgeschlagenen Methoden ausgewählt werden. Darüber hinaus belegen quantifizierte Ergebnisse die signifikante Leistungsverbesserung durch Auswahl von Merkmalen in Bezug auf die vorgeschlagenen Merkmalsauswahlverfahren, die in dieser Arbeit vorgestellt werden., The aim of this thesis is to study the dynamics behavior and statistical properties of the Limit Order Book. This thesis consists of two main parts.In the first part, a stochastic limit order book model in discrete time and space, driven by a simple symmetric random walk, is introduced. Special interest is given to an order avalanche in this model, where an avalanche is a series of order executions where the length of the periods with no trade event cannot exceed ε > 0. The dynamics of the limit order book model leads to two trading mechanisms, namely Type I trades and Type II trades. A Type I trade occurs after excursions to the next running maximum of the mid-price process, while a Type II trade occurs if the price drops by displacement μ ≥ 1 or more and then increases by μ again. Our focus is mainly on the distribution of order avalanches' length.The practical part of this thesis aims to analyze the informativeness of the features extracted from the limit order book to classify each market data vector into the one of the labels from the set S = {buy, idle}. Computational experiments are performed to evaluate if the performance of the model based on the Gated Recurrent Unit (GRU) architecture is improved when we select features utilizing the newly proposed methods. Moreover, quantified results proving the significant performance improvement obtained by selecting features with respect to the proposed feature selection methods are provided in this thesis.

Published

2020

32. Predicting Stock Market Liquidity Using Neural Networks

Author

Uhle, Klaus, Tekniikan ja luonnontieteiden tiedekunta - Faculty of Engineering and Natural Sciences, and Tampere University

Subjects

Tuotantotalouden DI-ohjelma - Master's Programme in Industrial Engineering and Management, stock market liquidity, time series prediction, neural networks, limit order book

Abstract

This thesis proposes a long-short term memory prediction model for stock market liquidity. The prediction task was defined as a time series regression problem of the next step limit order book quantity. Level 1 depth and multi-level depth of the limit order book were used as a measure of the stock liquidity. The objective of the thesis was to research the prediction capabilities of neural networks in this prediction task. Several popular neural networks were investigated for time series prediction and stock quantities from NASDAQ stocks were analyzed to build long-short term memory prediction model. The used dataset included intraday limit order book data from five stocks during five full trading days in 2014. The used stocks were Apple, Facebook, Google, Intel, and Microsoft. The prediction model was first optimized using Apple stock data and then tested with all the stocks. The performance of the long short-term memory prediction model was compared against a naïve prediction model that was used as a benchmark. The long short-term memory prediction model performed better than the benchmark model in the case of the multi-level depth liquidity prediction for Apple stock. Level I depth prediction was not found suitable for the regression prediction task. The long short-term memory prediction model proved prediction capabilities only for the Apple stock that was used to optimize the model, but it was not able to generalize the prediction capability for the other stocks. For them, the naïve model outperformed the long short-term memory prediction model. This thesis provides evidence of the prediction capability for the optimized neural network prediction model but does not show any generalization capability. Tämä diplomityö esittää uuden pitkän lyhytaikaisen muistin neuroverkkoennustemallin osakemarkkinoiden likviditeetin ennustamista varten. Ennustustehtäväksi määritettiin regressiivinen aikasarjaennuste, jossa tavoitteena on ennustaa sekä tarjouskirjan ensimmäisen tason tarjousten määrää, että useamman tason tarjousten määrää seuraavan tarjouskirjatapahtuman hetkellä. Diplomityön tavoitteena oli tutkia neuroverkkojen ennustuskykyä tässä ennustetehtävässä. Työssä tutkittiin useiden tunnettujen neuroverkkojen sopivuutta NASDAQ:in osakkeiden tarjousmäärien aikasarjaennustamiseen, minkä perusteella päädyttiin rakentamaan pitkän lyhytaikaisen muistin ennustemalli. Käytetty tietoaineisto sisälsi viiden eri osakkeen päivänsisäistä tarjouskirjadataa viiden päivän ajalta vuodelta 2014. Tietoaineistoon kuuluvat osakkeet olivat Apple, Facebook, Google, Intel ja Microsoft. Ennustemalli optimoitiin käyttämällä Applen osakedataa ja myöhemmin mallia testattiin käyttämällä muiden osakkeiden dataa. Lopuksi pitkän lyhytaikaisen muistin ennustemallin suorituskykyä verrattiin naiiviin ennustemalliin. Pitkän lyhytaikainen muistin ennustemalli suoriutui ennustamisesta naiivia ennustemallia paremmin Applen osakkeen tarjouskirjan usean tason tarjousten määrää ennustettaessa. Ensimmäisen tason ennustaminen ei sen sijaan soveltunut regressiotehtäväksi. Pitkän lyhytaikainen muistin ennustemalli osoitti kykyä ennustaa vain Applen osakkeen datalla, jota oli myös käytetty ennustemallin optimoinnissa. Se ei kuitenkaan kyennyt yleistämään ennustuskykyä muille osakkeille, vaan naiivi ennustemalli suoriutui paremmin niiden ennustamisessa. Tämä diplomityö osoittaa ennustuskykyä optimoidulle neuroverkkomallille, mutta ei osoita sen yleistettävyyttä.

Published

2020

33. A Deep Learning Approach for Analyzing the Limit Order Book

Author

Hirnschall, David

Subjects

Deep Learning, Limit Order Book

Abstract

In den letzten Jahrzehnten haben sich die Finanzmärkte aufgrund der enormen, heutzutage verfügbaren, Datenmenge grundlegend verändert. In dieser Arbeit stellen wir einen rein datengetriebenen Ansatz ohne zugrunde liegende Annahmen, wie etwa Preisdynamiken, für die Analyse der Märkte vor. Wir verwenden modernste Techniken des maschinellen Lernens, um den Informationsgehalt von Limit Order Büchern (LOB) zu untersuchen, indem wir die Vorhersage von Preisbewegungen sowie Volatilitäten, zwei der wichtigsten Fragestellungen für Investoren, behandeln.Wir beginnen mit einer detaillierten Einführung in die Theorie neuronaler Netze, wo wir nicht nur grundlegende Architekturen, insbesondere deep feedforward neuronale Netze, und deren Trainingsalgorithmus vorstellen, sondern uns auch auf Optimierungs- und Generalisierungstechniken konzentrieren. Darüber hinaus präsentieren wir eine mathematisch exakte Beschreibung eines Limit Order Buches sowie seiner tatsächlichen Datenstruktur, gefolgt von einem unverzerrten Schätzer der realisierten Volatilität unter Verwendung von verrauschten Hochfrequenzdaten. Dieser wird TSRV (Two Scales Realized Volatility Estimator) genannt.Schließlich zeigen wir empirische Ergebnisse für vier verschiedene Aktien. Die verwendeten Daten des Limit Order Buches von der NASDAQ, der zweitgrößten Börse weltweit, wurden vom Online-Tool LOBSTER bereitgestellt. Für jede Fragestellung extrahieren wir zunächst eine breite Palette technischer und quantitativer Merkmale aus den Da- ten des Limit Order Buches. Anschließend verwenden wir Methoden, wie etwa recursive feature selection und den Boruta-Algorithmus, zur Auswahl der wichtigsten Merkmale um die Trainingsgeschwindigkeit zu erhöhen und die Leistung zu verbessern. Durch die Verwendung von deep feedforward neuronalen Netzen, die auf den wichtigsten Merkmalen trainiert worden sind, können wir häufig verwendete lineare Algorithmen, wie die logistische Regression, für die Vorhersage des mittleren Preises für alle vier Aktien übertreffen. Darüber hinaus liefert unser vorgeschlagener Ansatz weitaus bessere, langfristige Volatilitätsprognosen als ARIMA Modelle. Folglich wird die Notwendigkeit einer Neukalibrierung verringert, wodurch schnellere Vorhersagen und damit potenziell vorteilhafte Indikatoren für Anleger ermöglicht werden., In the last few decades the financial markets have changed fundamentally because of the tremendous amount of data which is available nowadays. In this thesis we propose a pu- rely data-driven approach without any underlying assumptions, such as price dynamics, for analyzing the markets. We therefore use state of the art machine learning techniques to investigate the information content of limit order books (LOB), by targeting two of the most important tasks for investors, namely predicting price movements and forecasting volatility.We start by giving a detailed introduction into the theory of neural networks, where we not only present basic architectures, particular deep feedforward neural networks, and how to train them, but also focus on optimization and generalization techniques. Furthermore, we present a mathematically precise description of a limit order book as well as its actual data structure, followed by an unbiased approach to estimate realized volatility using noisy high-frequency data, referred to as two scales realized volatility estimator (TSRV).Finally, we show empirical results for four different stocks. The used limit order book data from NASDAQ, the second largest stock exchange in the world, was provided by the online tool LOBSTER. For each task we first extract a wide range of technical and quantitative features from basic limit order book data. Afterwards, we use feature selection methods, such as recursive feature selection and the Boruta algorithm to increase training speed and improve performance. By using deep feedforward neural networks, trained on the most important features, we are able to outperform commonly used linear algorithms for mid-price prediction such as multiclass logistic regression for all four stocks. Additionally, our proposed approach yields better long term volatility forecasts than ARIMA models. Consequently, it reduces the necessity of recalibration, which yields faster predictions and therefore potentially beneficial indicators for investors.

Published

2020

34. ON MEASURING THE COST OF LIQUIDITY IN THE LIMIT ORDER BOOK

Author

M. M. Dyshaev

Subjects

illiquidity, initial margin, hedging, limit order book

Abstract

The work is devoted to the elaboration and demonstration of a method for measuring the cost of illiquidity in the delta hedging of futures-style options on the Moscow Exchange. Illiquidity is usually measured per unit of asset or money. However, given the specifics of futures, this article proposes to use the total volume of the initial margin and the state of the limit order book. In this case, it becomes possible to compare the cost of illiquidity for various futures. The most liquid futures that are traded on the Moscow Exchange are analyzed and the cost of liquidity is compared.

Published

2020

35. Modeling Stock Price Changes Based on Microstructural Market Data

Author

N. A. Bilev

Subjects

capital management, market microstructure, machine learning, stock market trading, HG1-9999, algorithmic trading, investment, time series, Finance, limit order book

Abstract

In modern electronic stock exchanges there is an opportunity to analyze event driven market microstructure data. This data is highly informative and describes physical price formation which makes it possible to find complex patterns in price dynamics. It is very time consuming and hard to find this kind of patterns by handcrafted rules. However, modern machine learning models are able to solve such issues automatically by learning price behavior which is always changing. The present study presents profitable trading system based on a machine learning model and market microstructure data. Data for the research was collected from Moscow stock exchange MICEX and represents a limit order book change log and all market trades of a liquid security for a certain period. Logistic regression model was used and compared to neural network models with different configuration. According to the study results logistic regression model has almost the same prediction quality as neural network models have but also has a high speed of response which is very important for stock market trading. The developed trading system has medium frequency of deals submission that lets it to avoid expensive infrastructure which is usually needed in high-frequency trading systems. At the same time, the system uses the potential of high quality market microstructure data to the full extent. This paper describes the entire process of trading system development including feature engineering, models behavior comparison and creation of trading strategy with testing on historical data.

Published

2018

36. Transparency & Quality: The Impact of Increasing Limit Order Book levels on Tehran Stock Exchange

Author

Mahdi Heidari and Mohammad Hossein Sabbaghzadeh

Subjects

lcsh:Finance, lcsh:HG1-9999, spread, market depth, return standard deviation, market transparency, limit order book

Abstract

Objective: One of the common tools used to make pre-trade transparency in financial markets is the Limit Order Book. In spite of several researches on the Limit Order Book, there is no consensus about the impact of increasing pre-trade transparency on market quality. Increasing the number of Limit Order Book levels from 3 to 5 levels, in May 2017, for online traders in Tehran Stock Exchange, gave us the opportunity to study the issue. Methods: In this paper, based on the even study, we examined the impact of transparency of Limit Order Book on market quality using Quoted Spread, Effective Spread, Market Depth and Return Standard Deviation. Results: According to the results, after increasing the number of Limit Order Book levels in Tehran Stock Exchange, there was a significant decrease among all of the selected criteria with the exception of Market Depth. Conclusion: The results indicated that increasing the number of Limit Order Book’s levels for online traders in Tehran Stock Exchange led to deterioration in the market quality.

Published

2018

37. High-Frequency Trading, Liquidity Withdrawal, and the Breakdown of Conventions in Foreign Exchange Markets

Author

Susai Masayuki and Stenfors Alexis

Subjects

Economics and Econometrics, liquidity, 050208 finance, Economics, high-frequency trading, 05 social sciences, algorithmic trading, conventions, State of affairs, Monetary economics, computer.software_genre, General Business, Management and Accounting, Market liquidity, 0502 economics and business, Business, Foreign exchange, foreign exchange, 050207 economics, Algorithmic trading, High-frequency trading, computer, limit order book

Abstract

Conventions, or “that the existing state of affairs will continue indefinitely, except in so far as we have specific reasons to expect a change” (Keynes, 1936), play a central role in over-the-counter markets. For instance, by allowing expectations about the future to become more harmonised and orderly, they act as stabilisers for the provision of liquidity. Conventions might, of course, change at any time. Nonetheless, by being attached to the daily trading routine and/or integrated within the institutional structure, the confidence in their relevance and validity can be long-lasting. In the foreign exchange market, in particular, where prices are quoted to end-users on demand, market-making banks rely upon a convention to quote each other prices to maintain liquidity. However, the rise of algorithmic and high-frequency trading poses a practical as well as a theoretical challenge to such conventions. By reacting ultra-fast to new information, including to new limit orders submitted by others, markets largely populated with algorithmic traders have become susceptible to a withdrawal of liquidity at an unprecedented speed and scale. Using a high-frequency dataset provided by EBS, this paper investigates the process of liquidity withdrawal from the foreign exchange spot market. By doing so, it considers the crowding out of conventions associated with liquidity provision, traditionally upheld through mutual understanding among financial institutions – in other words, reciprocity and trust among humans.

Published

2018

38. A Markov Model of a Limit Order Book: Thresholds, Recurrence, and Trading Strategies

Author

Elena Yudovina, Frank Kelly, Kelly, Frank [0000-0002-7795-6049], and Apollo - University of Cambridge Repository

Subjects

Computer Science::Computer Science and Game Theory, General Mathematics, high-frequency trading, Asymptotic distribution, Management Science and Operations Research, Markov model, 01 natural sciences, Nash equilibrium, FOS: Economics and business, 010104 statistics & probability, symbols.namesake, 0502 economics and business, FOS: Mathematics, Common value auction, Trading strategy, 60K30 (Primary), 91G80 (Secondary), 0101 mathematics, High-frequency trading, fluid limit, Mathematics, Fluid limit, Quantitative Finance - Trading and Market Microstructure, 050208 finance, Probability (math.PR), 05 social sciences, 16. Peace & justice, Trading and Market Microstructure (q-fin.TR), Computer Science Applications, queueing, Ask price, symbols, Mathematical economics, Mathematics - Probability, limit order book

Abstract

We analyze a tractable model of a limit order book on short time scales, where the dynamics are driven by stochastic fluctuations between supply and demand. We establish the existence of a limiting distribution for the highest bid, and for the lowest ask, where the limiting distributions are confined between two thresholds. We make extensive use of fluid limits in order to establish recurrence properties of the model. We use the model to analyze various high-frequency trading strategies, and comment on the Nash equilibria that emerge between high-frequency traders when a market in continuous time is replaced by frequent batch auctions., Revision of the submitted version: correcting an error (caught by Jan Swart) in the statement of Proposition 4.1 (1), propagating to Theorem 2.1 (1)

Published

2018

39. The Relation between Intraday Limit Order Book Depth and Spread

Author

Olesya Lobanova and Alexandre Aidov

Subjects

Relation (database), market depth, Futures market, Regression, Market liquidity, bid-ask spread, Bid–ask spread, Market depth, futures market, HG1-9999, ddc:330, Econometrics, bid–ask spread, Finance, limit order book, Mathematics, Generalized method of moments

Abstract

Prior studies that examine the relation between market depth and bid–ask spread are often limited to the first level of the limit order book. However, the full limit order book provides important information beyond the first level about the depth and spread, which affects the trading decisions of market participants. This paper examines the intraday behavior of depth and spread in the five-deep limit order book and the relation between depth and spread in a futures market setting. A dummy-variables regression framework is employed and is estimated using the generalized method of moments (GMM). Results indicate an inverse U-shaped pattern for depth and an increasing pattern for spread. After controlling for known explanatory factors, an inverse relation between the limit order book depth and spread is documented. The inverse relation holds for depth and spread at individual levels in the limit order book as well. Results indicate that market participants actively manage both the price (spread) and quantity (depth) dimensions of liquidity along the five-deep limit order book.

Published

2021

40. Scaling Limit of a Limit Order Book Model via the Regenerative Characterization of Lévy Trees

Author

Florian Simatos, Josh Reed, Peter Lakner, Institut Supérieur de l'Aéronautique et de l'Espace - ISAE-SUPAERO (FRANCE), and City University of New-York - CUNY (USA)

Subjects

Statistics and Probability, Current (mathematics), Réseaux et télécommunications, Management Science and Operations Research, scaling limits, 01 natural sciences, Point process, Displacement (vector), 010305 fluids & plasmas, 010104 statistics & probability, Limit order book, 60J25, 0502 economics and business, 0103 physical sciences, Atom, Limit (mathematics), Statistical physics, 0101 mathematics, Complement (set theory), Physics, 050208 finance, Random trees, 05 social sciences, Scaling limit, Reflected Brownian motion, 60F17, Functional limit theorem, Modeling and Simulation, Statistics, Probability and Uncertainty, limit order book, Lévy trees

Abstract

We consider the following Markovian dynamic on point processes: at constant rate and with equal probability, either the rightmost atom of the current configuration is removed, or a new atom is added at a random distance from the rightmost atom. Interpreting atoms as limit buy orders, this process was introduced by Lakner et al. [Lakner et al. (2016) High frequency asymptotics for the limit order book. Mark. Microstructure Liq. 2:1650004 [83 pages]] to model a one-sided limit order book. We consider this model in the regime where the total number of orders converges to a reflected Brownian motion, and complement the results of Lakner et al. [Lakner P, Reed J, Stoikov S (2016) High frequency asymptotics for the limit order book. Mark. Microstructure Liq. 2:1650004 [83 pages]] by showing that, in the case where the mean displacement at which a new order is added is positive, the measure-valued process describing the whole limit order book converges to a simple functional of this reflected Brownian motion. Our results make it possible to derive useful and explicit approximations on various quantities of interest such as the depth or the total value of the book. Our approach leverages an unexpected connection with Lévy trees. More precisely, the cornerstone of our approach is the regenerative characterization of Lévy trees due to Weill [Weill M (2007) Regenerative real trees. Ann. Probab. 35:2091–2121. MR2353384 (2008j:60205)], which provides an elegant proof strategy which we unfold.

Published

2017

41. Optimal control, statistical learning and order book modelling

Author

Mounjid, Othmane, Centre de Mathématiques Appliquées - Ecole Polytechnique (CMAP), École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), Université Paris Saclay (COmUE), Mathieu Rosenbaum, and STAR, ABES

Subjects

[MATH.MATH-PR] Mathematics [math]/Probability [math.PR], [MATH.MATH-OC] Mathematics [math]/Optimization and Control [math.OC], Processus de Hawkes, Ergodic properties, [MATH.MATH-PR]Mathematics [math]/Probability [math.PR], Limit order book, Apprentissage par renforcement, [MATH.MATH-ST]Mathematics [math]/Statistics [math.ST], Reinforcement learning, Trading optimal, Optimal trading, [MATH.MATH-OC]Mathematics [math]/Optimization and Control [math.OC], [MATH.MATH-ST] Mathematics [math]/Statistics [math.ST], Queuing model, Hawkes processes, Modèle de file d’attente, Propriétés ergodiques, Carnet d’ordres

Abstract

This thesis aims at understanding the interactions between the market participants and the order book. It consists of six connected chapters which can however be read independently.In the first chapter, we tackle the control problem of an agent who wish to exploit the order book liquidity to optimise the placement of a unit limit order. We show that our optimal tactic reduces the adverse selection risk. Nonetheless, the added value of taking into account order book liquidity is eroded by latency: being able to predict future price moves is less profitable if agents reaction time is large.In the next chapter, we extend our study to more general execution problems where agents handle non-unit quantities to mitigate their price impact. We show that our optimal tactic enables us to outperform significantly standard execution strategies.The third chapter adapts our previous approach to solve market making issues. This enables us to propose relevant strategies which are consistent with typical market makers behaviours. After that, we model the behaviours of directional high frequency traders and institutional brokers in order to simulate an order book driven market with our three classes of agents interacting optimally with each others.We introduce in the fourth chapter an agent-based model where the dynamics of the flow depend not only on the order book state but also on the history of the market. For this, we use generalisations of non-linear Hawkes processes. In this setting, we are able to compute several relevant microstructural indicators in terms of the individual flows. It is notably possible to rank market makers according to their own contribution to volatility.To solve the control problems appearing in the first part of the thesis, we develop numerical schemes. This is possible when the dynamic of the model is known. To tackle control problems in an unknown environment, it is common to use stochastic iterative algorithms. In the fifth chapter, we propose a method that accelerates the convergence of such algorithms.The approaches built in the previous chapters are appropriate for liquid markets that use an order book mechanism. However our methodologies may not be suitable for exchanges with very specific operating rules. To investigate this issue, as a first step, we study the price behaviour of the very particular intra-day electricity market., L'objectif principal de cette thèse est de comprendre les interactions entre les agents financiers et le carnet d'ordres. Elle se compose de six chapitres inter-connectés qui peuvent toutefois être lus indépendamment.Nous considérons dans le premier chapitre le problème de contrôle d'un agent cherchant à prendre en compte la liquidité disponible dans le carnet d'ordres afin d'optimiser le placement d'un ordre unitaire. Notre stratégie permet de réduire le risque de sélection adverse. Néanmoins, la valeur ajoutée de cette approche est affaiblie en présence de temps de latence: prédire les mouvements futurs des prix est peu utile si le temps de réaction des agents est lent.Dans le chapitre suivant, nous étendons notre étude à un problème d'exécution plus général où les agents traitent des quantités non unitaires afin de limiter leur impact sur le prix. Notre tactique permet d'obtenir de meilleurs résultats que les stratégies d'exécution classiques.Dans le troisième chapitre, on s'inspire de l'approche précédente pour résoudre cette fois des problèmes de market making plutôt que des problèmes d'exécution. Ceci nous permet de proposer des stratégies pertinentes compatibles avec les actions typiques des market makers. Ensuite, nous modélisons les comportements des traders haute fréquence directionnels et des brokers institutionnels dans le but de simuler un marché où nos trois types d'agents interagissent de manière optimale les uns avec les autres.Nous proposons dans le quatrième chapitre un modèle d'agents où la dynamique des flux dépend non seulement de l'état du carnet d'ordres mais aussi de l'historique du marché. Pour ce faire, nous utilisons des généralisations des processus de Hawkes non linéaires. Dans ce cadre, nous sommes en mesure de calculer en fonction de flux individuels plusieurs indicateurs pertinents. Il est notamment possible de classer les market makers en fonction de leur contribution à la volatilité.Pour résoudre les problèmes de contrôle soulevés dans la première partie de la thèse, nous avons développé des schémas numériques. Une telle approche est possible lorsque la dynamique du modèle est connue. Lorsque l'environnement est inconnu, on utilise généralement les algorithmes itératifs stochastiques. Dans le cinquième chapitre, nous proposons une méthode permettant d'accélérer la convergence de tels algorithmes.Les approches considérées dans les chapitres précédents sont adaptées pour des marchés liquides utilisant le mécanisme du carnet d'ordres. Cependant, cette méthodologie n'est plus nécessairement pertinente pour des marchés régis par des règles de fonctionnement spécifiques. Pour répondre à cette problématique, nous proposons, dans un premier temps, d'étudier le comportement des prix sur le marché très particulier de l'électricité.

Published

2019

42. A design framework for prediction models based on the order book

Author

Gantar, Klemen and Kononenko, Igor

Subjects

prediction model, machine learning, globoko učenje, napovedni model, finančni trgi, deep learning, financial markets, nevronske mreže, knjiga naročil, neural networks, limit order book, strojno učenje

Abstract

This master's thesis deals with the implementation and evaluation of the framework for order book based prediction model design. First, the field of financial markets is described along with the processes, that govern it. Here the focus is on the order book dynamics as it is the main topic of the thesis. Next, the field of machine learning and its relationship with the financial markets are described, followed by the findings of the related work which serve as a motivation for the implementation of the universal framework for order book data collection and analysis. The developed framework and its functionalities are then described. First, the data acquisition and data manipulation modules take care of the data which is then used to design and train prediction models, which are in turn applied to the market along with the trading strategy of choice. Finally, the framework and its functionalities are experimentally demonstrated. Real order book data is collected and used to produce a prediction model which is then evaluated and backtested in connection with a corresponding trading strategy. The thesis is concluded by the overall evaluation of the framework and its results. Magistrsko delo obravnava razvoj in testiranje ogrodja za grajenje napovednih modelov na podlagi knjige naročil. Najprej je predstavljeno širše področje finančnih trgov in procesi, ki jih upravljajo. Pri tem je poudarek na dinamiki knjige naročil, ki je osnova za formacijo cen in zato osrednja tema magistrskega dela. V nadaljevanju je predstavljeno področje strojnega učenja v povezavi s finančnimi trgi in dognanja iz sorodnih del, ki predstavljajo motivacijo za izdelavo splošnega ogrodja za zbiranje in analizo podatkov knjige naročil. Nato je skozi module predstavljeno ogrodje, ki smo ga razvili v okviru magistrske naloge, in njegove funkcionalnosti. Te sestojijo iz zbiranja, obdelave, analize in uporabe podatkov knjige naročil za namen izdelave napovednega modela, ki je lahko v povezavi s trgovalno strategijo na koncu uporabljen na trgu. Zadnji del magistrskega dela demonstrira uporabnost ogrodja in njegovih funkcionalnosti z izdelavo in evalvacijo napovednega modela in preproste trgovalne strategije. Rezultati evalvacije so nato predstavljeni in ovrednoteni v zaključku dela.

Published

2019

43. Limit order books, uninformed traders and commodity derivatives: Insights from the European carbon futures

Author

Yves Rannou, Clermont Recherche Management (CleRMa), École Supérieure de Commerce (ESC) - Clermont-Ferrand (ESC Clermont-Ferrand)-Université Clermont Auvergne [2017-2020] (UCA [2017-2020]), Groupe ESC Clermont-Ferrand, and Clermont Université

Subjects

Economics and Econometrics, JEL: C - Mathematical and Quantitative Methods/C.C3 - Multiple or Simultaneous Equation Models • Multiple Variables/C.C3.C30 - General, 050208 finance, Market microstructure, [QFIN]Quantitative Finance [q-fin], Risk aversion, 05 social sciences, Uninformed traders, Adverse selection, European carbon futures, [SHS]Humanities and Social Sciences, Microeconomics, JEL: G - Financial Economics/G.G1 - General Financial Markets/G.G1.G14 - Information and Market Efficiency • Event Studies • Insider Trading, Bid–ask spread, Limit order book, Order (exchange), 0502 economics and business, Economics, JEL: G - Financial Economics/G.G1 - General Financial Markets/G.G1.G11 - Portfolio Choice • Investment Decisions, Asset (economics), Bid-ask spread, 050207 economics, Commodity (Marxism), Futures contract

Abstract

International audience; This paper provides a suitable model for studying the strategic behavior of uninformed investors that trade commodity derivatives via limit order books. Two main testable implications are obtained after solving for the model equilibrium. The adverse selection costs of uninformed traders depend on the inflow of market orders and their risk aversion. Next, the adverse selection costs of uninformed buyers and sellers and the difference of their asset valuations determine the size of their bid-ask spread. An analysis of European carbon futures data confirms the relevance of these implications. Moreover, we detect a diagonal effect that results in a positive correlation of market orders, which is driven by adverse selection, then by order splitting strategies and by imitative strategies of uninformed traders to a lesser extent.

Published

2019

44. High-frequency trading : statistical analysis, modelling and regulation

Author

Saliba, Pamela, Centre de Mathématiques Appliquées - Ecole Polytechnique (CMAP), École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), Université Paris Saclay (COmUE), Mathieu Rosenbaum, and STAR, ABES

Subjects

Tick size, Modèle multi-agents, Agent-based model, Market microstructure, Régulation financière, Queue position valuation, Volatilité, Pas de cotation, [QFIN.CP]Quantitative Finance [q-fin]/Computational Finance [q-fin.CP], Microstructure de marché, Sélection adverse, Limit order book, [MATH.MATH-ST]Mathematics [math]/Statistics [math.ST], High frequency trading, Bid-ask spread, Financial regulation, [QFIN.TR]Quantitative Finance [q-fin]/Trading and Market Microstructure [q-fin.TR], [MATH.MATH-ST] Mathematics [math]/Statistics [math.ST], Market making, Carnet d’ordres, Adverse selection, [QFIN.CP] Quantitative Finance [q-fin]/Computational Finance [q-fin.CP], [QFIN.TR] Quantitative Finance [q-fin]/Trading and Market Microstructure [q-fin.TR], Tenue de marché, Volatility, Trading haute fréquence

Abstract

This thesis is made of two related parts. In the first one, we study the empirical behaviour of high-frequency traders on European financial markets. We use the obtained results to build in the second part new agent-based models for market dynamics. The main purpose of these models is to provide innovative tools for regulators and exchanges allowing them to design suitable rules at the microstructure level and to assess the impact of the various participants on market quality.In the first part, we conduct two empirical studies on unique data sets provided by the French regulator. It covers the trades and orders of the CAC 40 securities, with microseconds accuracy and labelled by the market participants identities. We begin by investigating the behaviour of high-frequency traders compared to the rest of the market, notably during periods of stress, in terms of liquidity provision and trading activity. We work both at the day-to-day scale and at the intra-day level. We then deepen our analysis by focusing on liquidity consuming orders. We give some evidence concerning their impact on the price formation process and their information content according to the different order flow categories: high-frequency traders, agency participants and proprietary participants.In the second part, we propose three different agent-based models. Using a Glosten-Milgrom type approach, the first model enables us to deduce the whole limit order book (bid-ask spread and volume available at each price) from the interactions between three kinds of agents: an informed trader, a noise trader and several market makers. It also allows us to build a spread forecasting methodology in case of a tick size change and to quantify the queue priority value. To work at the individual agent level, we propose a second approach where market participants specific dynamics are modelled by non-linear and state dependent Hawkes type processes. In this setting, we are able to compute several relevant microstructural indicators in terms of the individual flows. It is notably possible to rank market makers according to their own contribution to volatility. Finally, we introduce a model where market makers optimise their best bid and ask according to the profit they can generate from them and the inventory risk they face. We then establish theoretically and empirically a new important relationship between inventory and volatility., Cette thèse est constituée de deux parties liées l’une à l’autre. Dans la première, nous étudions empiriquement le comportement des traders haute fréquence sur les marchés financiers européens. Nous utilisons les résultats obtenus afin de construire dans la seconde partie de nouveaux modèles multi-agents. L’objectif principal de ces modèles est de fournir aux régulateurs et plateformes de négociation des outils innovants leur permettant de mettre en place des règles pertinentes pour la microstructure et de quantifier l’impact des divers participants sur la qualité du marché.Dans la première partie, nous effectuons deux études empiriques sur des données uniques fournies par le régulateur français. Nous avons accès à l’ensemble des ordres et transactions des actifs du CAC 40, à l’échelle de la microseconde, avec par ailleurs les identités des acteurs impliqués. Nous commençons par comparer le comportement des traders haute fréquence à celui des autres intervenants, notamment pendant les périodes de stress, en termes de provision de liquidité et d’activité de négociation. Nous approfondissons ensuite notre analyse en nous focalisant sur les ordres consommant la liquidité. Nous étudions leur impact sur le processus de formation des prix et leur contenu informationnel selon les différentes catégories de flux : traders haute fréquence, participants agissant pour compte client et participants agissant pour compte propre.Dans la seconde partie, nous proposons trois modèles multi-agents. À l’aide d’une approche à la Glosten-Milgrom, nous parvenons avec notre premier modèle à construire l’ensemble du carnet d’ordres (spread et volume disponible à chaque prix) à partir des interactions entre trois types d’agents : un agent informé, un agent non informé et des teneurs de marché. Ce modèle nous permet par ailleurs de développer une méthodologie de prédiction du spread en cas de modification du pas de cotation et de quantifier la valeur de la priorité dans la file d’attente. Afin de se concentrer sur une échelle individuelle, nous proposons une deuxième approche où les dynamiques spécifiques des agents sont modélisées par des processus de type Hawkes non linéaires et dépendants de l’état du carnet d’ordres. Dans ce cadre, nous sommes en mesure de calculer en fonction des flux individuels plusieurs indicateurs pertinents relatifs à la microstructure. Il est notamment possible de classer les teneurs de marché selon leur contribution propre à la volatilité. Enfin, nous introduisons un modèle où les fournisseurs de liquidité optimisent leurs meilleurs prix à l’achat et à la vente en fonction du profit qu’ils peuvent générer et du risque d’inventaire auquel ils sont confrontés. Nous mettons alors en évidence théoriquement et empiriquement une nouvelle relation importante entre inventaire et volatilité.

Published

2019

45. Méthodes numériques et réseaux de neurones pour le contrôle stochastique et les équations aux dérivées partielles

Author

Huré, Come, Laboratoire de Probabilités, Statistiques et Modélisations (LPSM (UMR_8001)), Université Paris Diderot - Paris 7 (UPD7)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Université Paris Diderot (Paris 7), Sorbonne Paris Cité, Frédéric Abergel, Huyên Pham, and Université Sorbonne Paris Cité

Subjects

Régression locale, QVIs, algorithmic-trading, value iteration, Régression globale, trading algorithmique, EDPRs réfléchies, contrôle de type McKean-Vlasov, [MATH.MATH-GM]Mathematics [math]/General Mathematics [math.GM], EDPRs, McKean-Vlasov control, RBSDEs, régression globale, market-making, Réseaux de neurones, Algorithmic-trading, non-linear PDEs, [MATH]Mathematics [math], contrôle stochastique, regress-later, regression locale, optimal stopping problem BSDEs, carnet d’ordres, Deep learning, neural networks, performance iteration, quantification, grande-dimension, [MATH.MATH-PR]Mathematics [math]/Probability [math.PR], hybrid iteration, local regression, high-dimension, Stochastic control, global regression, MDPs, EDPs, quantization, IQVs, pure-jump controlled process, Markov Decision Process, Temps d’arrêt optimaux, limit order book

Abstract

The present thesis deals with numerical schemes to solve Markov Decision Problems (MDPs), partial differential equations (PDEs), quasi-variational inequalities (QVIs), backward stochastic differential equations (BSDEs) and reflected backward stochastic differential equations (RBSDEs). The thesis is divided into three parts.The first part focuses on methods based on quantization, local regression and global regression to solve MDPs. Firstly, we present a new algorithm, named Qknn, and study its consistency. A time-continuous control problem of market-making is then presented, which is theoretically solved by reducing the problem to a MDP, and whose optimal control is accurately approximated by Qknn. Then, a method based on Markovian embedding is presented to reduce McKean-Vlasov control prob- lem with partial information to standard MDP. This method is applied to three different McKean- Vlasov control problems with partial information. The method and high accuracy of Qknn is validated by comparing the performance of the latter with some finite difference-based algorithms and some global regression-based algorithm such as regress-now and regress-later.In the second part of the thesis, we propose new algorithms to solve MDPs in high-dimension. Neural networks, combined with gradient-descent methods, have been empirically proved to be the best at learning complex functions in high-dimension, thus, leading us to base our new algorithms on them. We derived the theoretical rates of convergence of the proposed new algorithms, and tested them on several relevant applications.In the third part of the thesis, we propose a numerical scheme for PDEs, QVIs, BSDEs, and RBSDEs. We analyze the performance of our new algorithms, and compare them to other ones available in the literature (including the recent one proposed in [EHJ17]) on several tests, which illustrates the efficiency of our methods to estimate complex solutions in high-dimension.Keywords: Deep learning, neural networks, Stochastic control, Markov Decision Process, non- linear PDEs, QVIs, optimal stopping problem BSDEs, RBSDEs, McKean-Vlasov control, perfor- mance iteration, value iteration, hybrid iteration, global regression, local regression, regress-later, quantization, limit order book, pure-jump controlled process, algorithmic-trading, market-making, high-dimension.; La thèse porte sur les schémas numériques pour les problèmes de décisions Markoviennes (MDPs), les équations aux dérivées partielles (EDPs), les équations différentielles stochastiques rétrogrades (ED- SRs), ainsi que les équations différentielles stochastiques rétrogrades réfléchies (EDSRs réfléchies). La thèse se divise en trois parties.La première partie porte sur des méthodes numériques pour résoudre les MDPs, à base de quan- tification et de régression locale ou globale. Un problème de market-making est proposé: il est résolu théoriquement en le réécrivant comme un MDP; et numériquement en utilisant le nouvel algorithme. Dans un second temps, une méthode de Markovian embedding est proposée pour réduire des prob- lèmes de type McKean-Vlasov avec information partielle à des MDPs. Cette méthode est mise en œuvre sur trois différents problèmes de type McKean-Vlasov avec information partielle, qui sont par la suite numériquement résolus en utilisant des méthodes numériques à base de régression et de quantification.Dans la seconde partie, on propose de nouveaux algorithmes pour résoudre les MDPs en grande dimension. Ces derniers reposent sur les réseaux de neurones, qui ont prouvé en pratique être les meilleurs pour apprendre des fonctions en grande dimension. La consistance des algorithmes proposés est prouvée, et ces derniers sont testés sur de nombreux problèmes de contrôle stochastique, ce qui permet d’illustrer leurs performances.Dans la troisième partie, on s’intéresse à des méthodes basées sur les réseaux de neurones pour résoudre les EDPs, EDSRs et EDSRs réfléchies. La convergence des algorithmes proposés est prouvée; et ces derniers sont comparés à d’autres algorithmes récents de la littérature sur quelques exemples, ce qui permet d’illustrer leurs très bonnes performances.

Published

2019

46. Deep Temporal Logistic Bag-of-features for Forecasting High Frequency Limit Order Book Time Series

Author

Anastasios Tefas, Nikolaos Passalis, Alexandros Iosifidis, Moncef Gabbouj, and Juho Kanniainen

Subjects

Series (mathematics), Computer science, business.industry, Deep learning, Feature extraction, Temporal Bag-of-Features, 02 engineering and technology, Machine learning, computer.software_genre, Variety (cybernetics), Limit Order Book, 020204 information systems, Time series forecasting, 0202 electrical engineering, electronic engineering, information engineering, Feature (machine learning), 020201 artificial intelligence & image processing, Limit (mathematics), Artificial intelligence, Time series, business, computer

Abstract

Forecasting time series has several applications in various domains. The vast amount of data that are available nowadays provide the opportunity to use powerful deep learning approaches, but at the same time pose significant challenges of high-dimensionality, velocity and variety. In this paper, a novel logistic formulation of the well-known Bag-of-Features model is proposed to tackle these challenges. The proposed method is combined with deep convolutional feature extractors and is capable of accurately modeling the temporal behavior of time series, forming powerful forecasting models that can be trained in an end-to-end fashion. The proposed method was extensively evaluated using a large-scale financial time series dataset, that consists of more than 4 million limit orders, outperforming other competitive methods.

Published

2019

47. A stochastic partial differential equation model for limit order book dynamics

Author

Rama Cont and Marvin S. Mueller

Subjects

Class (set theory), Computation, Markov process, Computational Finance (q-fin.CP), 01 natural sciences, Multiplicative noise, FOS: Economics and business, symbols.namesake, 010104 statistics & probability, Quantitative Finance - Computational Finance, Order (exchange), Order book, FOS: Mathematics, Astrophysics::Solar and Stellar Astrophysics, Applied mathematics, 35R60, 60H15, 91B26, 91G80, 0101 mathematics, Mathematics, Numerical Analysis, Quantitative Finance - Trading and Market Microstructure, Applied Mathematics, 010102 general mathematics, Dynamics (mechanics), Probability (math.PR), 16. Peace & justice, limit order book, market microstructure, stochastic PDE, moving boundary problem, volatility liquidity, Trading and Market Microstructure (q-fin.TR), Stochastic partial differential equation, Market depth, Flow (mathematics), symbols, Realization (probability), Finance, Mathematics - Probability

Abstract

We propose an analytically tractable class of models for the dynamics of a limit order book, described through a stochastic partial differential equation (SPDE) with multiplicative noise for the order book centered at the mid-price, along with stochastic dynamics for the mid-price which is consistent with the order flow dynamics. We provide conditions under which the model admits a finite dimensional realization driven by a (low-dimensional) Markov process, leading to efficient estimation and computation methods. We study two examples of parsimonious models in this class: a two-factor model and a model with mean-reverting order book depth. For each model we analyze in detail the role of different parameters, the dynamics of the price, order book depth, volume and order imbalance, provide an intuitive financial interpretation of the variables involved and show how the model reproduces statistical properties of price changes, market depth and order flow in limit order markets., 40 pages, 9 figures

Published

2019

48. Testing Stylized Facts of Bitcoin Limit Order Books

Author

Schnaubelt, Matthias, Rende, Jonas, and Krauss, Christopher

Subjects

stylized fact, high-frequency finance, liquidity costs, lcsh:Risk in industry. Risk management, lcsh:Finance, lcsh:HG1-9999, ddc:330, Rechts- und Wirtschaftswissenschaftliche Fakultät, limit order book, cryptocurrency, transaction costs, lcsh:HD61

Abstract

The majority of electronic markets worldwide employ limit order books, and the recently emerging exchanges for cryptocurrencies pose no exception. With this work, we empirically analyze whether commonly observed empirical properties from established limit order exchanges transfer to the cryptocurrency domain. Based on the literature, we establish a structured methodological framework to conduct analyses in a systematic and comprehensive way. We then present results from a unique and extensive limit order data set acquired from major cryptocurrency exchanges for the currency pair Bitcoin to US Dollar. We recover many observations from mature markets, such as a symmetry between the average ask and the average bid side of the order book, autocorrelation in returns on the smallest time scales only, volatility clustering and the timing of large trades. We also observe some idiosyncrasies: The distributions of trade size and limit order prices deviate from commonly observed patterns. Also, we find limit order books to be relatively shallow and liquidity costs to be relatively high when compared to established markets.

Published

2019

49. Intraday volatility forecasting in high-frequency data using order book information

Author

Grübe, Maximilian and Rodrigues, Paulo Manuel Marques

Subjects

Garch, Limit order book, High-frequency data, Volatility forecasting, Ciências Sociais::Economia e Gestão [Domínio/Área Científica]

Abstract

This research conducts high-frequency intraday volatility forecasts on the Euro Stoxx 50 Future considering a multiplicative component GARCH framework, where the conditional volatility of high-frequency returns is decomposed into a daily, diurnal and stochastic intraday component. In contrast to extant research, in this work project a relatively long period of 423 trading days is covered corresponding to about 345.000 1-minute observations. To opt for a more practitioner-oriented approach we perform fixed window as well as rolling window forecasts. There is evidence that incorporating Limit Order Book information into the return series leads to superior forecasting results compared to the usage of simple trade returns. Nonetheless, the forecasting performance is time-varying and is often deteriorated by the seasonality of liquidity provision

Published

2019

50. Intraday volatility estimation in high-frequency data using order book information

Author

Netze, Jules and Rodrigues, Paulo Manuel Marques

Subjects

GARCH, Limit order book, Volatility estimation, High-frequency data, Ciências Sociais::Economia e Gestão [Domínio/Área Científica]

Abstract

This research conducts high-frequency intraday volatility estimations on the Euro Stoxx 50 Future under the multiplicative component GARCH framework, where the conditional volatility of high-frequency returns is decomposed into a daily, diurnal and stochastic intraday component. In contrast to existent research, this research covers a relatively long period of 423 trading days corresponding to about 345,000 1-minute observations. This study reveals that return series derived from the Limit Order Book have superior model features compared to simple trade returns. We find that these returns overcome the shortcomings of the welldocumented microstructure noise. Standardized residuals follow a white noise process and follow more closely a normal distribution compared to simple trade returns. However, this comes at the cost of larger coefficient instability and larger outliers in the estimated residuals.

Published

2019