Synthetic User Behavior Sequence Generation with Large Language Models for Smart Homes
January 31, 2025 Β· Declared Dead Β· π IEEE Internet of Things Magazine
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Authors
Zhiyao Xu, Dan Zhao, Qingsong Zou, Jingyu Xiao, Yong Jiang, Zhenhui Yuan, Qing Li
arXiv ID
2501.19298
Category
cs.AI: Artificial Intelligence
Cross-listed
cs.LG,
cs.NI
Citations
0
Venue
IEEE Internet of Things Magazine
Last Checked
4 months ago
Abstract
In recent years, as smart home systems have become more widespread, security concerns within these environments have become a growing threat. Currently, most smart home security solutions, such as anomaly detection and behavior prediction models, are trained using fixed datasets that are precollected. However, the process of dataset collection is time-consuming and lacks the flexibility needed to adapt to the constantly evolving smart home environment. Additionally, the collection of personal data raises significant privacy concerns for users. Lately, large language models (LLMs) have emerged as a powerful tool for a wide range of tasks across diverse application domains, thanks to their strong capabilities in natural language processing, reasoning, and problem-solving. In this paper, we propose an LLM-based synthetic dataset generation IoTGen framework to enhance the generalization of downstream smart home intelligent models. By generating new synthetic datasets that reflect changes in the environment, smart home intelligent models can be retrained to overcome the limitations of fixed and outdated data, allowing them to better align with the dynamic nature of real-world home environments. Specifically, we first propose a Structure Pattern Perception Compression (SPPC) method tailored for IoT behavior data, which preserves the most informative content in the data while significantly reducing token consumption. Then, we propose a systematic approach to create prompts and implement data generation to automatically generate IoT synthetic data with normative and reasonable properties, assisting task models in adaptive training to improve generalization and real-world performance.
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