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<edm:dataProvider>University for Continuing Education Krems</edm:dataProvider>

  
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<dc:title xml:lang="en">Beyond linear models: Explainable AI for merger &amp; acquisition outcome prediction</dc:title>

  
<dc:description xml:lang="en">This study investigates the effi cacy of the Tabular Prior-informed Bayesian Neural Network (TabPFN) for predicting Merger and Acquisition (M&amp;A) outcomes, positioning it as a transparent alternative to opaque &quot;black-box&quot; models within regulated fi nancial domains. The performance of TabPFN is benchmarked against fi ve established models: Logistic Regression (LR), Random Forest (RF), Gradient Boosting (GB), Support Vector Machine (SVM), and Multilayer Perceptron (MLP) on a curated dataset of 4,400 historical U.S. M&amp;A transactions. The central evaluation assesses predictive discrimination (AUC-ROC) and probability calibration (Expected Calibration Error). Results demonstrate that TabPFN achieves superior discriminative performance (AUC-ROC: 0.9168) and strong calibration (ECE: 0.0676). Furthermore, SHAP-based explainability analysis of the TabPFN model reveals crucial non-linear feature eff ects, such as the interplay between deal attitude and completion time, that are not apparent in linear models. The fi ndings establish TabPFN as a robust and interpretable framework for M&amp;A risk assessment, aligning with the principles of trustworthy AI for high-stakes fi nancial applications.
The primary aim was to assess diff erences in predictive discrimination (AUC-ROC), probability calibration (ECE), and explanatory insights. Empirical fi ndings revealed TabPFN achieved the highest discriminative performance (AUC-ROC: 0.9168), outperforming LR (0.7171) and other baselines. TabPFN also demonstrated strong probability calibration (ECE: 0.0676), signifi cantly better than LR (ECE: 0.1372), although RF exhibited the best ECE (0.0299). SHAP analysis of TabPFN identifi ed &#39;realized_return&#39; as a key predictor for the tested instances and elucidated crucial non-linear feature eff ects not apparent from linear models; the initial feature pruning, guided by Random Forest, highlighted the general importance of factors including &#39;attitude_Friendly&#39; and &#39;completion_time&#39; for the prediction task.
This study concludes that TabPFN&#39;s superior discriminative performance and strong calibration, synergistically combined with XAI techniques, provide a more valuable and actionable tool for M&amp;A strategic decision-making. The enhanced probabilistic reliability and transparent, granular feature-level explanations off er a robust foundation for risk assessment within the TISE framework, aligning with demands for trustworthy AI in high-stakes fi nancial applications</dc:description>

  
<dc:identifier rdf:resource="https://door.donau-uni.ac.at/o:5729"></dc:identifier>

  
<dc:language>en</dc:language>

  
<edm:type>TEXT</edm:type>

  
<dc:type>Master theses</dc:type>

  
<dc:type>Masterarbeit</dc:type>

  
<dc:type>Tesi di master</dc:type>

  
<dc:type xml:lang="en">Text</dc:type>

  
<dc:type xml:lang="en">Master theses</dc:type>

  
<dc:type xml:lang="de">Text</dc:type>

  
<dc:type xml:lang="de">Masterarbeit</dc:type>

  
<dc:type xml:lang="it">Testo</dc:type>

  
<dc:type xml:lang="it">Tesi di master</dc:type>

  
<dc:subject xml:lang="en">Mergers and Acquisitions (M&amp;A) Outcome Prediction</dc:subject>

  
<dc:subject xml:lang="en">Explainable Artifi cial Intelligence (XAI)</dc:subject>

  
<dc:subject xml:lang="en">Tabular Prior-informed Bayesian Neural Network (TabPFN)</dc:subject>

  
<dc:subject xml:lang="en">Probability Calibration</dc:subject>

  
<dc:subject xml:lang="en">SHapley Additive exPlanations (SHAP)</dc:subject>

  
<dcterms:created>2025</dcterms:created>

  
<dc:date>2025</dc:date>

  
<dc:creator>Alexander Ryusandi Pratama</dc:creator>

  
<dc:contributor>Adam Zaremba</dc:contributor>

  
<dc:contributor>Ruihai Dong</dc:contributor>

  
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