The Abu Dhabi Judicial Department is conducting a review of its various artificial intelligence initiatives. This assessment aims to evaluate the progress and potential of AI technologies in enhancing both judicial processes and notary services within the emirate. The department is focused on integrating AI to improve efficiency, accessibility, and overall quality within the legal system. Why it matters: This initiative highlights the UAE's strategic commitment to modernizing public services through advanced technology and positions Abu Dhabi as a leader in AI adoption within the government and legal sectors.
This paper introduces a predictive analysis of Arabic court decisions, utilizing 10,813 real commercial court cases. The study evaluates LLaMA-7b, JAIS-13b, and GPT3.5-turbo models under zero-shot, one-shot, and fine-tuned training paradigms, also experimenting with summarization and translation. GPT-3.5 models significantly outperformed others, exceeding JAIS model performance by 50%, while also demonstrating the unreliability of most automated metrics. Why it matters: This research bridges computational linguistics and Arabic legal analytics, offering insights for enhancing judicial processes and legal strategies in the Arabic-speaking world.
Researchers introduce ArabLegalEval, a multitask benchmark dataset for assessing Arabic legal knowledge in LLMs. The dataset contains tasks sourced from Saudi legal documents and synthesized questions, drawing inspiration from MMLU and LegalBench. Experiments benchmarked models including GPT-4 and Jais, exploring in-context learning and various evaluation methods. Why it matters: This resource should help accelerate AI research and evaluation in the Arabic legal domain, where datasets are lacking.
The QU-NLP team presented their approach to the QIAS 2025 shared task on Islamic Inheritance Reasoning, fine-tuning the Fanar-1-9B model using LoRA and integrating it into a RAG pipeline. Their system achieved an accuracy of 0.858 on the final test, outperforming models like GPT 4.5, LLaMA, and Mistral in zero-shot settings. The system particularly excelled in advanced reasoning, achieving 97.6% accuracy. Why it matters: This demonstrates the effectiveness of domain-specific fine-tuning and retrieval augmentation for Arabic LLMs in complex reasoning tasks, even surpassing frontier models.