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Cross-Covariate Gait Recognition: A Comprehensive Analysis and Benchmark


Kernkonzepte
The author highlights the challenges of cross-covariate gait recognition and introduces the CCGR dataset to address these challenges. The proposed ParsingGait framework shows promising results for advancing gait recognition.
Zusammenfassung

The content discusses the creation of the Cross-Covariate Gait Recognition (CCGR) dataset, emphasizing its population and individual-level diversity. It introduces ParsingGait as a novel approach to address cross-covariate challenges in gait recognition. The analysis includes evaluations of different covariates, views, and the impact of parsing on recognition accuracy.

The CCGR dataset comprises 970 subjects with 1.6 million sequences, offering diverse walking conditions and filming views. ParsingGait demonstrates significant potential for improving gait recognition accuracy. Covariates like carrying items, road types, speed, clothing, and walking styles impact recognition performance.

The study evaluates single-covariate and mixed-covariate scenarios using both "easy" and "hard" metrics to assess their influence on gait recognition accuracy. Results show that individual-level diversity poses significant challenges in gait recognition tasks.

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Statistiken
CCGR dataset has 970 subjects with about 1.6 million sequences. Existing SOTA methods achieve less than 43% accuracy on CCGR. ParsingGait demonstrates remarkable potential for further advancement.
Zitate
"The CCGR dataset provides comprehensive resources for exploring cross-covariate gait recognition." "Parsing-based gait recognition shows promising results for addressing complex covariate challenges."

Wichtige Erkenntnisse aus

by Shinan Zou,C... um arxiv.org 03-05-2024

https://arxiv.org/pdf/2312.14404.pdf
Cross-Covariate Gait Recognition

Tiefere Fragen

How can individual-level diversity be effectively incorporated into existing gait recognition algorithms

Individual-level diversity can be effectively incorporated into existing gait recognition algorithms by diversifying the dataset with a wide range of covariates for each subject. This means collecting data that captures various factors such as different walking conditions, carrying items, road types, walking speeds, and styles. By ensuring that each subject contributes multiple variants or sequences under different covariates, the algorithm can learn to recognize individuals in diverse real-world scenarios. Additionally, incorporating individual-level diversity may involve training the algorithm on subsets of data specific to each subject's unique characteristics to improve recognition accuracy.

What are the implications of the lack of fine annotations in outdoor gait datasets on real-world applications

The lack of fine annotations in outdoor gait datasets has significant implications for real-world applications as it hinders the ability of algorithms to accurately identify individuals in complex environments. Without detailed annotations that capture nuances like different walking conditions, carrying items, and environmental factors, algorithms trained on these datasets may struggle when faced with diverse and uncontrolled scenarios. This limitation could result in lower accuracy rates and reduced performance when deployed in practical security applications where precise identification is crucial.

How can insights from human parsing be applied to other biometric modalities beyond gait recognition

Insights from human parsing can be applied to other biometric modalities beyond gait recognition by leveraging semantic information extracted from images or videos to enhance identification processes. For example: In facial recognition systems: Human parsing techniques can help extract detailed facial features such as eyes, nose, mouth shapes which can improve face matching accuracy. In iris recognition: Parsing data could assist in segmenting and analyzing intricate patterns within the iris structure for more robust identification. In fingerprint analysis: Semantic information from parsing could aid in identifying unique ridge patterns and minutiae points on fingerprints for better authentication. By integrating human parsing insights into other biometric modalities, researchers can potentially enhance the precision and reliability of various biometric identification systems across different domains.
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