Related papers: ConSense: Continually Sensing Human Activity with WiFi via Growing and Picking

ConSense: Continually Sensing Human Activity with WiFi via Growing and Picking

URL: http://arxiv.org/abs/2502.17483v1
Date: Tue, 18 Feb 2025 11:20:33 GMT
Title: ConSense: Continually Sensing Human Activity with WiFi via Growing and Picking
Authors: Rong Li, Tao Deng, Siwei Feng, Mingjie Sun, Juncheng Jia,
Abstract summary: WiFi-based human activity recognition (HAR) holds significant application potential across various fields.<n>To handle dynamic environments where new activities are continuously introduced, WiFi-based HAR systems must adapt by learning new concepts without forgetting previously learned ones.<n>We propose ConSense, a lightweight and fast-adapted exemplar-free class incremental learning framework for WiFi-based HAR.
Score: 19.09127252818096
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: WiFi-based human activity recognition (HAR) holds significant application potential across various fields. To handle dynamic environments where new activities are continuously introduced, WiFi-based HAR systems must adapt by learning new concepts without forgetting previously learned ones. Furthermore, retaining knowledge from old activities by storing historical exemplar is impractical for WiFi-based HAR due to privacy concerns and limited storage capacity of edge devices. In this work, we propose ConSense, a lightweight and fast-adapted exemplar-free class incremental learning framework for WiFi-based HAR. The framework leverages the transformer architecture and involves dynamic model expansion and selective retraining to preserve previously learned knowledge while integrating new information. Specifically, during incremental sessions, small-scale trainable parameters that are trained specifically on the data of each task are added in the multi-head self-attention layer. In addition, a selective retraining strategy that dynamically adjusts the weights in multilayer perceptron based on the performance stability of neurons across tasks is used. Rather than training the entire model, the proposed strategies of dynamic model expansion and selective retraining reduce the overall computational load while balancing stability on previous tasks and plasticity on new tasks. Evaluation results on three public WiFi datasets demonstrate that ConSense not only outperforms several competitive approaches but also requires fewer parameters, highlighting its practical utility in class-incremental scenarios for HAR.

Related papers

WECAR: An End-Edge Collaborative Inference and Training Framework for WiFi-Based Continuous Human Activity Recognition [23.374051991346633]
We propose WECAR, an end-edge collaborative inference and training framework for WiFi-based continuous HAR. We implement WECAR based on heterogeneous hardware using Jetson Nano as edge devices and the ESP32 as end devices. Our experiments across three public WiFi datasets reveal that WECAR not only outperforms several state-of-the-art methods in performance and parameter efficiency, but also achieves a substantial reduction in the model's parameter count post-optimization.
arXiv Detail & Related papers (2025-03-09T03:40:27Z)
NetFlowGen: Leveraging Generative Pre-training for Network Traffic Dynamics [72.95483148058378]
We propose to pre-train a general-purpose machine learning model to capture traffic dynamics with only traffic data from NetFlow records.<n>We address challenges such as unifying network feature representations, learning from large unlabeled traffic data volume, and testing on real downstream tasks in DDoS attack detection.
arXiv Detail & Related papers (2024-12-30T00:47:49Z)
Continual Diffuser (CoD): Mastering Continual Offline Reinforcement Learning with Experience Rehearsal [54.93261535899478]
In real-world applications, such as robotic control of reinforcement learning, the tasks are changing, and new tasks arise in a sequential order.<n>This situation poses the new challenge of plasticity-stability trade-off for training an agent who can adapt to task changes and retain acquired knowledge.<n>We propose a rehearsal-based continual diffusion model, called Continual diffuser (CoD), to endow the diffuser with the capabilities of quick adaptation (plasticity) and lasting retention (stability)
arXiv Detail & Related papers (2024-09-04T08:21:47Z)
Beyond Prompt Learning: Continual Adapter for Efficient Rehearsal-Free Continual Learning [22.13331870720021]
We propose a beyond prompt learning approach to the RFCL task, called Continual Adapter (C-ADA) C-ADA flexibly extends specific weights in CAL to learn new knowledge for each task and freezes old weights to preserve prior knowledge. Our approach achieves significantly improved performance and training speed, outperforming the current state-of-the-art (SOTA) method.
arXiv Detail & Related papers (2024-07-14T17:40:40Z)
Complementary Learning Subnetworks for Parameter-Efficient Class-Incremental Learning [40.13416912075668]
We propose a rehearsal-free CIL approach that learns continually via the synergy between two Complementary Learning Subnetworks. Our method achieves competitive results against state-of-the-art methods, especially in accuracy gain, memory cost, training efficiency, and task-order.
arXiv Detail & Related papers (2023-06-21T01:43:25Z)
Contextual Squeeze-and-Excitation for Efficient Few-Shot Image Classification [57.36281142038042]
We present a new adaptive block called Contextual Squeeze-and-Excitation (CaSE) that adjusts a pretrained neural network on a new task to significantly improve performance. We also present a new training protocol based on Coordinate-Descent called UpperCaSE that exploits meta-trained CaSE blocks and fine-tuning routines for efficient adaptation.
arXiv Detail & Related papers (2022-06-20T15:25:08Z)
Learning to Continuously Optimize Wireless Resource in a Dynamic Environment: A Bilevel Optimization Perspective [52.497514255040514]
This work develops a new approach that enables data-driven methods to continuously learn and optimize resource allocation strategies in a dynamic environment. We propose to build the notion of continual learning into wireless system design, so that the learning model can incrementally adapt to the new episodes. Our design is based on a novel bilevel optimization formulation which ensures certain fairness" across different data samples.
arXiv Detail & Related papers (2021-05-03T07:23:39Z)
Efficient Feature Transformations for Discriminative and Generative Continual Learning [98.10425163678082]
We propose a simple task-specific feature map transformation strategy for continual learning. Theses provide powerful flexibility for learning new tasks, achieved with minimal parameters added to the base architecture. We demonstrate the efficacy and efficiency of our method with an extensive set of experiments in discriminative (CIFAR-100 and ImageNet-1K) and generative sequences of tasks.
arXiv Detail & Related papers (2021-03-25T01:48:14Z)
Learning to Continuously Optimize Wireless Resource In Episodically Dynamic Environment [55.91291559442884]
This work develops a methodology that enables data-driven methods to continuously learn and optimize in a dynamic environment. We propose to build the notion of continual learning into the modeling process of learning wireless systems. Our design is based on a novel min-max formulation which ensures certain fairness" across different data samples.
arXiv Detail & Related papers (2020-11-16T08:24:34Z)
Enabling Continual Learning with Differentiable Hebbian Plasticity [18.12749708143404]
Continual learning is the problem of sequentially learning new tasks or knowledge while protecting previously acquired knowledge. catastrophic forgetting poses a grand challenge for neural networks performing such learning process. We propose a Differentiable Hebbian Consolidation model which is composed of a Differentiable Hebbian Plasticity.
arXiv Detail & Related papers (2020-06-30T06:42:19Z)

This list is automatically generated from the titles and abstracts of the papers in this site.