nep-cmp New Economics Papers
on Computational Economics
Issue of 2024‒02‒19
ten papers chosen by



  1. Computing the Gerber-Shiu function with interest and a constant dividend barrier by physics-informed neural networks By Zan Yu; Lianzeng Zhang
  2. A Dynamic Agent Based Model of the Real Economy with Monopolistic Competition, Perfect Product Differentiation, Heterogeneous Agents, Increasing Returns to Scale and Trade in Disequilibrium By Subhamon Supantha; Naresh Kumar Sharma
  3. THE ARTIFICIAL INTELLIGENCE IN E-COMMERCE By Amina Badreddine
  4. Multimodal Gen-AI for Fundamental Investment Research By Lezhi Li; Ting-Yu Chang; Hai Wang
  5. Business Model Contributions to Bank Profit Performance: A Machine Learning Approach By F. Bolivar; Miguel A. Duran; A. Lozano-Vivas
  6. Text mining arXiv: a look through quantitative finance papers By Michele Leonardo Bianchi
  7. CNN-DRL for Scalable Actions in Finance By Sina Montazeri; Akram Mirzaeinia; Haseebullah Jumakhan; Amir Mirzaeinia
  8. Learning to be Homo Economicus: Can an LLM Learn Preferences from Choice By Jeongbin Kim; Matthew Kovach; Kyu-Min Lee; Euncheol Shin; Hector Tzavellas
  9. Sustainable digital marketing under big data: an AI random forest model approach By Jin, Keyan; Zhong, Ziqi; Zhao, Elena Yifei
  10. The nexus between the volatility of Bitcoin, gold, and American stock markets during the COVID-19 pandemic: evidence from VAR-DCC-EGARCH and ANN models By Virginie Terraza; Aslı Boru İpek; Mohammad Mahdi Rounaghi

  1. By: Zan Yu; Lianzeng Zhang
    Abstract: In this paper, we propose a new efficient method for calculating the Gerber-Shiu discounted penalty function. Generally, the Gerber-Shiu function usually satisfies a class of integro-differential equation. We introduce the physics-informed neural networks (PINN) which embed a differential equation into the loss of the neural network using automatic differentiation. In addition, PINN is more free to set boundary conditions and does not rely on the determination of the initial value. This gives us an idea to calculate more general Gerber-Shiu functions. Numerical examples are provided to illustrate the very good performance of our approximation.
    Date: 2024–01
    URL: http://d.repec.org/n?u=RePEc:arx:papers:2401.04378&r=cmp
  2. By: Subhamon Supantha; Naresh Kumar Sharma
    Abstract: We have used agent-based modeling as our numerical method to artificially simulate a dynamic real economy where agents are rational maximizers of an objective function of Cobb-Douglas type. The economy is characterised by heterogeneous agents, acting out of local or imperfect information, monopolistic competition, perfect product differentiation, allowance for increasing returns to scale technology and trade in disequilibrium. An algorithm for economic activity in each period is devised and a general purpose open source agent-based model is developed which allows for counterfactual inquiries, testing out treatments, analysing causality of various economic processes, outcomes and studying emergent properties. 10, 000 simulations, with 10 firms and 80 consumers are run with varying parameters and the results show that from only a few initial conditions the economy reaches equilibrium while in most of the other cases it remains in perpetual disequilibrium. It also shows that from a few initial conditions the economy reaches a disaster where all the consumer wealth falls to zero or only a single producer remains. Furthermore, from some initial conditions, an ideal economy with high wage rate, high consumer utility and no unemployment is also reached. It was also observed that starting from an equal endowment of wealth in consumers and in producers, inequality emerged in the economy. In majority of the cases most of the firms(6-7) shut down because they were not profitable enough and only a few firms remained. Our results highlight that all these varying outcomes are possible for a decentralized market economy with rational optimizing agents.
    Date: 2024–01
    URL: http://d.repec.org/n?u=RePEc:arx:papers:2401.07070&r=cmp
  3. By: Amina Badreddine (Universiy of M'Hamed Bougara Boumerdes Algeria)
    Abstract: With the rapid progress of science, technology, and our economy, we see artificial intelligence (AI) being used more and more in various areas. It has a significant impact on our work and lifestyle. Artificial intelligence (AI) is a leading technology of the current age of the Fourth Industrial Revolution (Industry 4.0 or 4IR), with the capability of incorporating human behavior and intelligence into machines or systems. In the field of e-commerce, AI is broadly applied and has shown promising results. AI has emerged as crucial driving force for the growth of E-commerce. The proposed paper will shed light on how AI is being applied in the Ecommerce industry and the impact of AI on Ecommerce portals. It examines the application of AI in areas such as AI assistants, image research, recommendation systems, and optimized pricing. This research explores how AI greatly affects and benefits the development of E-commerce.
    Keywords: Artificial Intelligence E-commerce chatbots Online shopping personalization inventory management, Artificial Intelligence, E-commerce, chatbots, Online shopping, personalization, inventory management
    Date: 2023–08–21
    URL: http://d.repec.org/n?u=RePEc:hal:journl:hal-04379642&r=cmp
  4. By: Lezhi Li; Ting-Yu Chang; Hai Wang
    Abstract: This report outlines a transformative initiative in the financial investment industry, where the conventional decision-making process, laden with labor-intensive tasks such as sifting through voluminous documents, is being reimagined. Leveraging language models, our experiments aim to automate information summarization and investment idea generation. We seek to evaluate the effectiveness of fine-tuning methods on a base model (Llama2) to achieve specific application-level goals, including providing insights into the impact of events on companies and sectors, understanding market condition relationships, generating investor-aligned investment ideas, and formatting results with stock recommendations and detailed explanations. Through state-of-the-art generative modeling techniques, the ultimate objective is to develop an AI agent prototype, liberating human investors from repetitive tasks and allowing a focus on high-level strategic thinking. The project encompasses a diverse corpus dataset, including research reports, investment memos, market news, and extensive time-series market data. We conducted three experiments applying unsupervised and supervised LoRA fine-tuning on the llama2_7b_hf_chat as the base model, as well as instruction fine-tuning on the GPT3.5 model. Statistical and human evaluations both show that the fine-tuned versions perform better in solving text modeling, summarization, reasoning, and finance domain questions, demonstrating a pivotal step towards enhancing decision-making processes in the financial domain. Code implementation for the project can be found on GitHub: https://github.com/Firenze11/finance_lm.
    Date: 2023–12
    URL: http://d.repec.org/n?u=RePEc:arx:papers:2401.06164&r=cmp
  5. By: F. Bolivar; Miguel A. Duran; A. Lozano-Vivas
    Abstract: This paper analyzes the relation between bank profit performance and business models. Using a machine learning-based approach, we propose a methodological strategy in which balance sheet components' contributions to profitability are the identification instruments of business models. We apply this strategy to the European Union banking system from 1997 to 2021. Our main findings indicate that the standard retail-oriented business model is the profile that performs best in terms of profitability, whereas adopting a non-specialized business profile is a strategic decision that leads to poor profitability. Additionally, our findings suggest that the effect of high capital ratios on profitability depends on the business profile. The contributions of business models to profitability decreased during the Great Recession. Although the situation showed signs of improvement afterward, the European Union banking system's ability to yield returns is still problematic in the post-crisis period, even for the best-performing group.
    Date: 2024–01
    URL: http://d.repec.org/n?u=RePEc:arx:papers:2401.12334&r=cmp
  6. By: Michele Leonardo Bianchi
    Abstract: This paper explores articles hosted on the arXiv preprint server with the aim to uncover valuable insights hidden in this vast collection of research. Employing text mining techniques and through the application of natural language processing methods, we examine the contents of quantitative finance papers posted in arXiv from 1997 to 2022. We extract and analyze crucial information from the entire documents, including the references, to understand the topics trends over time and to find out the most cited researchers and journals on this domain. Additionally, we compare numerous algorithms to perform topic modeling, including state-of-the-art approaches.
    Date: 2024–01
    URL: http://d.repec.org/n?u=RePEc:arx:papers:2401.01751&r=cmp
  7. By: Sina Montazeri; Akram Mirzaeinia; Haseebullah Jumakhan; Amir Mirzaeinia
    Abstract: The published MLP-based DRL in finance has difficulties in learning the dynamics of the environment when the action scale increases. If the buying and selling increase to one thousand shares, the MLP agent will not be able to effectively adapt to the environment. To address this, we designed a CNN agent that concatenates the data from the last ninety days of the daily feature vector to create the CNN input matrix. Our extensive experiments demonstrate that the MLP-based agent experiences a loss corresponding to the initial environment setup, while our designed CNN remains stable, effectively learns the environment, and leads to an increase in rewards.
    Date: 2024–01
    URL: http://d.repec.org/n?u=RePEc:arx:papers:2401.06179&r=cmp
  8. By: Jeongbin Kim; Matthew Kovach; Kyu-Min Lee; Euncheol Shin; Hector Tzavellas
    Abstract: This paper explores the use of Large Language Models (LLMs) as decision aids, with a focus on their ability to learn preferences and provide personalized recommendations. To establish a baseline, we replicate standard economic experiments on choice under risk (Choi et al., 2007) with GPT, one of the most prominent LLMs, prompted to respond as (i) a human decision maker or (ii) a recommendation system for customers. With these baselines established, GPT is provided with a sample set of choices and prompted to make recommendations based on the provided data. From the data generated by GPT, we identify its (revealed) preferences and explore its ability to learn from data. Our analysis yields three results. First, GPT's choices are consistent with (expected) utility maximization theory. Second, GPT can align its recommendations with people's risk aversion, by recommending less risky portfolios to more risk-averse decision makers, highlighting GPT's potential as a personalized decision aid. Third, however, GPT demonstrates limited alignment when it comes to disappointment aversion.
    Date: 2024–01
    URL: http://d.repec.org/n?u=RePEc:arx:papers:2401.07345&r=cmp
  9. By: Jin, Keyan; Zhong, Ziqi; Zhao, Elena Yifei
    Abstract: Digital marketing refers to the process of promoting, selling, and delivering products or services through online platforms and channels using the internet and electronic devices in a digital environment. Its aim is to attract and engage target audiences through various strategies and methods, driving brand promotion and sales growth. The primary objective of this scholarly study is to seamlessly integrate advanced big data analytics and artificial intelligence (AI) technology into the realm of digital marketing, thereby fostering the progression and optimization of sustainable digital marketing practices. First, the characteristics and applications of big data involving vast, diverse, and complex datasets are analyzed. Understanding their attributes and scope of application is essential. Subsequently, a comprehensive investigation into AI-driven learning mechanisms is conducted, culminating in the development of an AI random forest model (RFM) tailored for sustainable digital marketing. Subsequent to this, leveraging a real-world case study involving enterprise X, fundamental customer data is collected and subjected to meticulous analysis. The RFM model, ingeniously crafted in this study, is then deployed to prognosticate the anticipated count of prospective customers for said enterprise. The empirical findings spotlight a pronounced prevalence of university-affiliated individuals across diverse age cohorts. In terms of occupational distribution within the customer base, the categories of workers and educators emerge as dominant, constituting 41% and 31% of the demographic, respectively. Furthermore, the price distribution of patrons exhibits a skewed pattern, whereby the price bracket of 0–150 encompasses 17% of the population, whereas the range of 150–300 captures a notable 52%. These delineated price bands collectively constitute a substantial proportion, whereas the range exceeding 450 embodies a minority, accounting for less than 20%. Notably, the RFM model devised in this scholarly endeavor demonstrates a remarkable proficiency in accurately projecting forthcoming passenger volumes over a seven-day horizon, significantly surpassing the predictive capability of logistic regression. Evidently, the AI-driven RFM model proffered herein excels in the precise anticipation of target customer counts, thereby furnishing a pragmatic foundation for the intelligent evolution of sustainable digital marketing strategies,
    Keywords: artificial intelligence (AI); big data; random forest model (RFM); social media; sustainable digital marketing; technological innovation; AAM requested
    JEL: L81
    Date: 2024–01–01
    URL: http://d.repec.org/n?u=RePEc:ehl:lserod:121402&r=cmp
  10. By: Virginie Terraza (MRE - Montpellier Recherche en Economie - UM - Université de Montpellier); Aslı Boru İpek; Mohammad Mahdi Rounaghi
    Abstract: The spread of the coronavirus has reduced the value of stock indexes, depressed energy and metals commodities prices including oil, and caused instability in financial markets around the world. Due to this situation, investors should consider investing in more secure assets, such as real estate property, cash, gold, and crypto assets. In recent years, among secure assets, cryptoassets are gaining more attention than traditional investments. This study compares the Bitcoin market, the gold market, and American stock indexes (S&P500, Nasdaq, and Dow Jones) before and during the COVID-19 pandemic. For this purpose, the dynamic conditional correlation exponential generalized autoregressive conditional heteroskedasticity model was used to estimate the DCC coefficient and compare this model with the artificial neural network approach to predict volatility of these markets. Our empirical findings showed a substantial dynamic conditional correlation between Bitcoin, gold, and stock markets. In particular, we observed that Bitcoin offered better diversification opportunities to reduce risks in key stock markets during the COVID-19 period. This paper provides practical impacts on risk management and portfolio diversification.
    Keywords: JEL Classification: C22 C58 G17 Bitcoin market Gold market American stock markets COVID-19 pandemic VAR-DCC-EGARCH model ANN model, JEL Classification: C22, C58, G17 Bitcoin market, Gold market, American stock markets, COVID-19 pandemic, VAR-DCC-EGARCH model, ANN model
    Date: 2024–01–15
    URL: http://d.repec.org/n?u=RePEc:hal:journl:hal-04395168&r=cmp

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NEP’s infrastructure is sponsored by the School of Economics and Finance of Massey University in New Zealand.