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Modifications to training data composition, quality, and filtering that affect what the model learns.
Also in Model
Most of these methods aim to remove sensitive information at the data processing stage. Traditional methods like deidentification (Meystre et al., 2014) and anonymization (Majeed & Lee, 2020) are widely used to achieve this goal.
For instance, names, addresses, and other PII can be generalized or replaced with pseudonyms or placeholders, making it hard to identify individuals while still preserving the dataset’s structure and inner dependencies. Additionally, aggregation techniques can be applied to reduce the granularity of data, such as grouping inference queries by day or week, instead of storing individual query details. This reduces the risk of re-identification and limits the potential privacy exposure. In addition to de-indentification and anonymization, Lee et al. (2021) find that removing duplicate data from pre-training corpora can effectively reduce LLMs’ memorization of training data. Although filtering or reformulating private data is a direct way to eliminate privacy risks, it is still difficult to completely remove private or sensitive data.
Reasoning
Filters or processes training data to protect privacy before model learning occurs.
Privacy protection
Value Misalignment
99.9 OtherValue Misalignment > Mitigating social bias
1 AI SystemValue Misalignment > Privacy protection
1 AI SystemValue Misalignment > Methods for mitigating toxicity
1 AI SystemValue Misalignment > Methods for mitigating LLM amorality
1 AI SystemRobustness to attack
1 AI SystemLarge Language Model Safety: A Holistic Survey
Shi, Dan; Shen, Tianhao; Huang, Yufei; Li, Zhigen; Leng, Yongqi; Jin, Renren; Liu, Chuang; Wu, Xinwei; Guo, Zishan; Yu, Linhao; Shi, Ling; Jiang, Bojian; Xiong, Deyi (2024)
The rapid development and deployment of large language models (LLMs) have introduced a new frontier in artificial intelligence, marked by unprecedented capabilities in natural language understanding and generation. However, the increasing integration of these models into critical applications raises substantial safety concerns, necessitating a thorough examination of their potential risks and associated mitigation strategies. This survey provides a comprehensive overview of the current landscape of LLM safety, covering four major categories: value misalignment, robustness to adversarial attacks, misuse, and autonomous AI risks. In addition to the comprehensive review of the mitigation methodologies and evaluation resources on these four aspects, we further explore four topics related to LLM safety: the safety implications of LLM agents, the role of interpretability in enhancing LLM safety, the technology roadmaps proposed and abided by a list of AI companies and institutes for LLM safety, and AI governance aimed at LLM safety with discussions on international cooperation, policy proposals, and prospective regulatory directions. Our findings underscore the necessity for a proactive, multifaceted approach to LLM safety, emphasizing the integration of technical solutions, ethical considerations, and robust governance frameworks. This survey is intended to serve as a foundational resource for academy researchers, industry practitioners, and policymakers, offering insights into the challenges and opportunities associated with the safe integration of LLMs into society. Ultimately, it seeks to contribute to the safe and beneficial development of LLMs, aligning with the overarching goal of harnessing AI for societal advancement and well-being. A curated list of related papers has been publicly available at https://github.com/tjunlp-lab/Awesome-LLM-Safety-Papers.
Collect and Process Data
Gathering, curating, labelling, and preprocessing training data
Developer
Entity that creates, trains, or modifies the AI system
Manage
Prioritising, responding to, and mitigating AI risks
