Adaptive Modeling and Risk Strategies for Cross-Border Real Estate Investments
DOI:
https://doi.org/10.53469/wjimt.2024.07(06).08Keywords:
Cross-Border Real Estate Analytics, Market-Specific Predictive Modeling, Polynomial and Linear Model Comparison, Dynamic Hedging and Tail Risk Assessment, ESG Integration in Investment StrategyAbstract
In this study, we examine predictive modeling and risk management approaches tailored for cross-border real estate investments, with a focus on adapting models to stable and volatile market conditions. Drawing on an extensive dataset spanning diverse economic environments, we evaluate the performance of linear, polynomial, and logarithmic models in capturing real estate price dynamics. Findings indicate that the linear model provides reliable accuracy in stable markets (R2=0.98), aligning well with predictable, incremental trends typical of such environments. However, in markets marked by high volatility, the polynomial model outperforms, effectively capturing non-linear fluctuations with R² values of 0.89, thus providing a more robust framework for regions subject to economic and political shifts. To address currency risk and extreme loss potential, we integrate Conditional Value-at-Risk (CVaR) and Dynamic Optimal Hedge Ratio (DOHR) methodologies. These approaches collectively reduce return volatility by approximately 15% in volatile markets, enhancing stability in high-risk environments. Furthermore, the analysis underscores the strategic value of Environmental, Social, and Governance (ESG) alignment, particularly in fostering regulatory support and community acceptance, which are vital for long-term investment sustainability. Our findings suggest a tailored strategy: linear models with simplified risk management are well-suited for stable markets, while volatile markets benefit from polynomial models paired with advanced risk measures. Prioritizing ESG-compliant projects further mitigates regulatory and reputational risks. These insights provide a foundation for optimizing investment strategies across varied economic landscapes, with future work recommended to explore adaptive machine learning techniques for real-time model adjustments.
References
Singhal, N., Goyal, S., & Singhal, T. (2024). Regulatory, Economic, and Political Challenges for Decentralized Insurance: A Global Perspective. In Potential, Risks, and Ethical Implications of Decentralized Insurance (pp. 165-210). Singapore: Springer Nature Singapore.
Deb, S. (2016). Perceptions and Anticipations towards AI-Enhanced Risk Management in Agile Project Management: A Comparative Survey-Based Analysis of PMBOK and PRINCE2 Methodologies. Global journal of Business and Integral Security.
Liu, Z., Costa, C., & Wu, Y. (2024). Data-Driven Optimization of Production Efficiency and Resilience in Global Supply Chains. Journal of Theory and Practice of Engineering Science, 4(08), 23-33.
Liu, Z., Costa, C., & Wu, Y. (2024). Quantitative Assessment of Sustainable Supply Chain Practices Using Life Cycle and Economic Impact Analysis.
Liu, Z., Costa, C., & Wu, Y. (2024). Leveraging Data-Driven Insights to Enhance Supplier Performance and Supply Chain Resilience.
Sobieraj, J., & Metelski, D. (2024). Machine Learning Insights: Exploring Key Factors Influencing Sale-to-List Ratio—Insights from SVM Classification and Recursive Feature Selection in the US Real Estate Market. Buildings, 14(5), 1471.
Mathotaarachchi, K. V., Hasan, R., & Mahmood, S. (2024). Advanced Machine Learning Techniques for Predictive Modeling of Property Prices. Information, 15(6), 295.
Zhu, J., Xu, T., Zhang, Y., & Fan, Z. (2024). Scalable Edge Computing Framework for Real-Time Data Processing in Fintech Applications. International Journal of Advance in Applied Science Research, 3, 85-92.
Patel, V. C. (2024). Valuation of profitability and risk of real estate investments (Doctoral dissertation, Vilniaus universitetas.).
Li, W. (2022, April). Rural-to-Urban Migration and Overweight Status in Low-and Middle-Income Countries: Evidence From Longitudinal Data in Indonesia. In PAA 2022 Annual Meeting. PAA.
Masarova, L., Verstovsek, S., Liu, T., Rao, S., Sajeev, G., Fillbrunn, M., ... & Signorovitch, J. (2024). Transfusion-related cost offsets and time burden in patients with myelofibrosis on momelotinib vs. danazol from MOMENTUM. Future Oncology, 1-12.
Settembre-Blundo, D., González-Sánchez, R., Medina-Salgado, S., & García-Muiña, F. E. (2021). Flexibility and resilience in corporate decision making: a new sustainability-based risk management system in uncertain times. Global Journal of Flexible Systems Management, 22(Suppl 2), 107-132.
Calomiris, C. W., & Mamaysky, H. (2019). Monetary policy and exchange rate returns: Time-varying risk regimes (No. w25714). National Bureau of Economic Research.
Li, W. (2022). How Urban Life Exposure Shapes Risk Factors of Non-Communicable Diseases (NCDs): An Analysis of Older Rural-to-Urban Migrants in China. Population Research and Policy Review, 41(1), 363-385.
Angorani, S. (2024). The Global Perspectives on Sustainable Finance: Evaluating the Influence of Environmental, Social, and Governance (ESG) Criteria on Investment Portfolios. Indonesian Journal of Economics, Business, Accounting, and Management (IJEBAM), 2(5), 59-76.
Zhang, J., Zhao, Y., Chen, D., Tian, X., Zheng, H., & Zhu, W. (2024). MiLoRA: Efficient mixture of low-rank adaptation for large language models fine-tuning. arXiv. https://arxiv.org/abs/2410.18035
Song, B., & Zhao, Y. (2022, May). A comparative research of innovative comparators. In Journal of Physics: Conference Series (Vol. 2221, No. 1, p. 012021). IOP Publishing.
Sun, Y., & Ortiz, J. (2024). Rapid Review of Generative AI in Smart Medical Applications. arXiv preprint arXiv:2406.06627.
Sun, Y., & Ortiz, J. (2024). An AI-Based System Utilizing IoT-Enabled Ambient Sensors and LLMs for Complex Activity Tracking. arXiv preprint arXiv:2407.02606.
Liu, J., Li, K., Zhu, A., Hong, B., Zhao, P., Dai, S., ... & Su, H. (2024). Application of Deep Learning-Based Natural Language Processing in Multilingual Sentiment Analysis. Mediterranean Journal of Basic and Applied Sciences (MJBAS), 8(2), 243-260.
Xu, Q., Feng, Z., Gong, C., Wu, X., Zhao, H., Ye, Z., ... & Wei, C. (2024). Applications of explainable AI in natural language processing. Global Academic Frontiers, 2(3), 51-64.
Zhang, Y., & Fan, Z. (2024). Memory and Attention in Deep Learning. Academic Journal of Science and Technology, 10(2), 109-113.
Zhang, Y., & Fan, Z. (2024). Research on Zero knowledge with machine learning. Journal of Computing and Electronic Information Management, 12(2), 105-108.
Xu, T. (2024). Comparative Analysis of Machine Learning Algorithms for Consumer Credit Risk Assessment. Transactions on Computer Science and Intelligent Systems Research, 4, 60-67.
Xu, T. (2024). Leveraging Blockchain Empowered Machine Learning Architectures for Advanced Financial Risk Mitigation and Anomaly Detection. Yang, J. (2024). Data-Driven Investment Strategies in International Real Estate Markets: A Predictive Analytics Approach. International Journal of Computer Science and Information Technology, 3(1), 247-258.
Yang, J. (2024). Comparative Analysis of the Impact of Advanced Information Technologies on the International Real Estate Market. Transactions on Economics, Business and Management Research, 7, 102-108.
Yang, J. (2024). Application of Business Information Management in Cross-border Real Estate Project Management. International Journal of Social Sciences and Public Administration, 3(2), 204-213.
Yang, J. (2024). Application of Blockchain Technology in Real Estate Transactions Enhancing Security and Efficiency. International Journal of Global Economics and Management, 3(3), 113-122.
Lin, Y. (2023). Optimization and Use of Cloud Computing in Big Data Science. Computing, Performance and Communication Systems, 7(1), 119-124.
Lin, Y. (2024). Design of urban road fault detection system based on artificial neural network and deep learning. Frontiers in neuroscience, 18, 1369832.
Lin, Y. (2024). Enhanced Detection of Anomalous Network Behavior in Cloud-Driven Big Data Systems Using Deep Learning Models. Journal of Theory and Practice of Engineering Science, 4(08), 1-11.
Xie, T., Li, T., Zhu, W., Han, W., & Zhao, Y. (2024). PEDRO: Parameter-Efficient Fine-tuning with Prompt DEpenDent Representation MOdification. arXiv preprint arXiv:2409.17834.
Yao, Y., Weng, J., He, C., Gong, C., & Xiao, P. (2024). AI-powered Strategies for Optimizing Waste Management in Smart Cities in Beijing.