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Se2: Sequential Example Selection for In-Context Learning


Conceitos Básicos
In this paper, the authors introduce Se2, a sequential-aware method that enhances in-context learning by selecting ideal example sequences. Through extensive experiments, Se2 outperforms competitive baselines and demonstrates significant improvements in performance.
Resumo

Se2 introduces a novel approach to sequential example selection for in-context learning, leveraging feedback from large language models. The method significantly improves performance across various NLP tasks by capturing relationships between examples and utilizing beam search for prompt construction.

The paper highlights the importance of selecting appropriate examples for in-context learning and showcases the effectiveness of Se2 in enhancing model performance. By focusing on sequential selection and leveraging LLM feedback, Se2 demonstrates stability and adaptability across different scenarios.

The study provides valuable insights into the impact of example selection strategies on downstream task performance and emphasizes the benefits of modeling sequential information for generating effective prompts.

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Estatísticas
Se2 achieves a 42% relative improvement over random selection. Extensive experiments cover 23 NLP tasks from 8 categories. Se2 shows stability and adaptability across various scenarios. The method utilizes beam search to enhance prompt quality and diversity.
Citações
"In this paper, we formulate the problem as a sequential selection problem and introduce Se2, a sequential-aware method that significantly enriches the contextuality and relevance of ICL prompts." "Se2 outperformed competitive baselines and achieved a 42% relative improvement over random selection." "Our quantitative evaluations demonstrate the advantages of Se2, showing a significant performance boost with little variance from the sequential training pattern."

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by Haoyu Liu,Ji... às arxiv.org 03-07-2024

https://arxiv.org/pdf/2402.13874.pdf
$Se^2$

Perguntas Mais Profundas

How can the concept of sequential example selection be applied to other domains beyond natural language processing?

In domains outside of natural language processing, the concept of sequential example selection can be applied in various ways. For instance, in computer vision tasks such as image classification or object detection, a similar approach could be used to select a sequence of training examples that provide relevant context for the model. This could involve selecting images with specific features or characteristics in a particular order to enhance the learning process. In healthcare, sequential example selection could help optimize patient treatment plans by identifying and prioritizing relevant medical cases based on their impact on decision-making processes. Additionally, in financial forecasting, selecting a sequence of historical data points based on their relevance and interrelationships could improve predictive models' accuracy.

What potential biases or limitations could arise from relying on feedback from large language models like GPT-Neo?

Relying on feedback from large language models like GPT-Neo may introduce several potential biases and limitations. One significant concern is the inherent biases present in the training data used to pretrain these models, which can lead to biased outputs and reinforce existing societal prejudices. Additionally, there is a risk of confirmation bias where the model's responses are influenced by its previous predictions rather than objective analysis of new information. Another limitation is overfitting to specific patterns present in the training data, which may not generalize well to unseen examples or real-world scenarios. Moreover, complex interactions within the model architecture itself can result in unintended consequences or unexpected behaviors that are challenging to interpret or control.

How might advancements in model architectures impact the effectiveness of methods like Se2 in future research?

Advancements in model architectures have the potential to significantly impact methods like Se2 by enhancing their effectiveness and scalability. For instance, incorporating transformer-based architectures with larger capacities and more sophisticated attention mechanisms could improve Se2's ability to capture intricate relationships between examples and context sequences accurately. Furthermore, leveraging techniques such as self-supervised learning or meta-learning within advanced architectures can enable Se2-like methods to adapt more efficiently across diverse tasks and datasets without extensive fine-tuning requirements. Additionally, innovations in model architectures, such as incorporating memory-augmented networks or hierarchical structures, could enhance Se2's capacity for long-range dependencies and contextual understanding. Moreover, the integration of multimodal capabilities into model designs would allow Se2-like approaches to leverage both textual and visual information for more comprehensive context-aware learning. Overall, advancements in model architectures offer exciting opportunities to elevate methodologies like Se2 towards achieving higher performance levels across various applications while addressing current challenges effectively.
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