Benchmarking Large Language Models' Alignment with Human Language Use Patterns

The insights gained from the psycholinguistic benchmark (HLB) can significantly inform the design and training of large language models (LLMs) by highlighting specific areas where these models diverge from human language patterns. By systematically evaluating LLMs across various linguistic levels—such as sound, word, syntax, semantics, and discourse—the benchmark identifies strengths and weaknesses in model performance. Targeted Training Data: The findings can guide the selection and curation of training data that better reflects the complexities of human language. For instance, if LLMs struggle with semantic priming, as indicated in the benchmark, training data can be enriched with examples that emphasize context-dependent meanings and ambiguous language. Model Architecture Adjustments: Insights into how LLMs perform on specific tasks can lead to architectural modifications. For example, if certain models exhibit over-priming effects, adjustments in the attention mechanisms or the incorporation of memory components could help models better mimic human-like flexibility in language processing. Incorporation of Psycholinguistic Principles: The benchmark underscores the importance of integrating psycholinguistic principles into model training. By simulating cognitive processes that humans use in language comprehension and production, such as structural priming and ambiguity resolution, LLMs can be trained to replicate these nuanced behaviors more effectively. Evaluation Metrics: The introduction of humanlikeness scores as a metric for model evaluation can shift the focus from traditional task-based accuracy to a more holistic understanding of language use. This can encourage developers to prioritize human-like qualities in future iterations of LLMs, fostering models that are not only accurate but also contextually aware and nuanced in their language generation.

Using a participant pool limited to native English speakers from the UK and US presents several limitations that could affect the generalizability of the findings: Cultural Bias: Language use is deeply influenced by cultural context. By focusing solely on participants from the UK and US, the study may overlook linguistic variations and nuances present in other English-speaking regions, such as Australia, Canada, or South Africa. This cultural bias can lead to findings that do not accurately reflect global English language use. Linguistic Diversity: English is a global language with numerous dialects and variations. The responses from participants in the UK and US may not capture the full spectrum of English language use, including idiomatic expressions, slang, and regional dialects. This limitation could skew the benchmark results, making them less applicable to LLMs intended for a broader audience. Cognitive Differences: Language processing can vary significantly across different populations due to cognitive and educational factors. By excluding non-native speakers and individuals from diverse linguistic backgrounds, the study may miss important insights into how different groups process language, which could inform the development of more inclusive LLMs. Implications for Model Training: The findings derived from a homogenous participant pool may lead to the development of LLMs that are optimized for a specific subset of English speakers, potentially alienating users from other backgrounds. This could limit the effectiveness of LLMs in real-world applications where diverse language use is prevalent.

The observed differences in humanlikeness across linguistic levels suggest several cognitive and computational mechanisms that may underlie the strengths and weaknesses of large language models (LLMs): Statistical Learning vs. Cognitive Flexibility: LLMs primarily rely on statistical learning, identifying patterns in vast datasets. While this allows them to generate coherent text, it may limit their ability to exhibit the cognitive flexibility that humans demonstrate when processing language. For instance, humans can easily navigate ambiguous contexts and adjust their interpretations based on prior knowledge, whereas LLMs may struggle with such nuances, leading to over-priming or rigid responses. Memory and Contextual Awareness: Human language processing is heavily influenced by working memory and contextual awareness. Humans can retain and utilize contextual information to inform their understanding of language, which is crucial for tasks like ambiguity resolution. LLMs, however, often lack a robust mechanism for maintaining context over longer interactions, which can hinder their performance in tasks requiring deep contextual understanding. Semantic Networks and Associations: Humans possess intricate semantic networks that allow for nuanced associations between words and meanings. This cognitive structure enables humans to access relevant meanings based on context. LLMs, while capable of generating text based on learned associations, may not replicate the depth of these semantic networks, leading to discrepancies in tasks like word meaning priming. Syntactic and Discourse Processing: The ability to process syntax and discourse is another area where LLMs may fall short. Humans utilize a combination of syntactic rules and discourse-level understanding to construct meaning. LLMs, on the other hand, may excel in syntactic generation but struggle with discourse coherence, particularly in maintaining thematic continuity across longer texts. Training Paradigms: The training paradigms used for LLMs can also influence their performance. Models trained on diverse, high-quality datasets that include varied linguistic phenomena are likely to perform better in replicating human language patterns. Conversely, models trained on less diverse data may exhibit weaknesses in specific linguistic areas, as highlighted by the benchmark results. By understanding these cognitive and computational mechanisms, researchers and developers can better address the limitations of LLMs, leading to more sophisticated models that closely align with human language use.