AiGAS-dEVL-RC: An Adaptive Growing Neural Gas Model for Recurrently Drifting  Unsupervised Data Streams

María Arostegi Perez; Javier Del Ser Lorente; Jesús López Lobo; Miren Nekane Bilbao

doi:10.1109/IJCNN64981.2025.11229019

AiGAS-dEVL-RC: An Adaptive Growing Neural Gas Model for Recurrently Drifting Unsupervised Data Streams

María Arostegi Perez
, Javier Del Ser Lorente^*
, Jesús López Lobo^*
, Miren Nekane Bilbao^*

^*Corresponding author for this work

AI

Research output: Contribution to conference › Paper › peer-review

Abstract

Abstract—Concept drift and extreme verification latency pose significant challenges in data stream learning, particularly when dealing with recurring concept changes in dynamic environments. This work introduces a novel method based on the Growing Neural Gas (GNG) algorithm, designed to effectively handle abrupt recurrent drifts while adapting to incrementally evolving data distributions (incremental drifts). Leveraging the self-organizing and topological adaptability of GNG, the proposed approach maintains a compact yet informative memory structure, allowing it to efficiently store and retrieve knowledge of past or recurring concepts, even under conditions of delayed or sparse stream supervision. Our experiments highlight the superiority of our approach over existing data stream learning methods designed to cope with incremental non-stationarities and verification latency, demonstrating its ability to quickly adapt to new drifts, robustly manage recurring patterns, and maintain high predictive accuracy with a minimal memory footprint. Unlike other techniques that fail to leverage recurring knowledge, our proposed approach is proven to be a robust and efficient online learning solution for unsupervised drifting data flows.
Index Terms—Data stream learning, extreme verification latency, concept drift, Growing Neural Gas.

Original language	English
DOIs	https://doi.org/10.1109/IJCNN64981.2025.11229019
Publication status	Published - 14 Nov 2025
Event	International Joint Conference on Neural Networks.2025 - Italy, Rome, Italy Duration: 30 Jun 2025 → 5 Jul 2025 https://2025.ijcnn.org/

Conference

Conference	International Joint Conference on Neural Networks.2025
Abbreviated title	IJCNN 2025
Country/Territory	Italy
City	Rome
Period	30/06/25 → 5/07/25
Internet address	https://2025.ijcnn.org/

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title = "AiGAS-dEVL-RC: An Adaptive Growing Neural Gas Model for Recurrently Drifting Unsupervised Data Streams",

abstract = "Abstract—Concept drift and extreme verification latency pose significant challenges in data stream learning, particularly when dealing with recurring concept changes in dynamic environments. This work introduces a novel method based on the Growing Neural Gas (GNG) algorithm, designed to effectively handle abrupt recurrent drifts while adapting to incrementally evolving data distributions (incremental drifts). Leveraging the self-organizing and topological adaptability of GNG, the proposed approach maintains a compact yet informative memory structure, allowing it to efficiently store and retrieve knowledge of past or recurring concepts, even under conditions of delayed or sparse stream supervision. Our experiments highlight the superiority of our approach over existing data stream learning methods designed to cope with incremental non-stationarities and verification latency, demonstrating its ability to quickly adapt to new drifts, robustly manage recurring patterns, and maintain high predictive accuracy with a minimal memory footprint. Unlike other techniques that fail to leverage recurring knowledge, our proposed approach is proven to be a robust and efficient online learning solution for unsupervised drifting data flows. Index Terms—Data stream learning, extreme verification latency, concept drift, Growing Neural Gas.",

author = "\{Arostegi Perez\}, Mar{\'i}a and \{Del Ser Lorente\}, Javier and \{L{\'o}pez Lobo\}, Jes{\'u}s and \{Nekane Bilbao\}, Miren",

year = "2025",

month = nov,

day = "14",

doi = "10.1109/IJCNN64981.2025.11229019",

language = "English",

note = "International Joint Conference on Neural Networks.2025, IJCNN 2025 ; Conference date: 30-06-2025 Through 05-07-2025",

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T1 - AiGAS-dEVL-RC: An Adaptive Growing Neural Gas Model for Recurrently Drifting Unsupervised Data Streams

AU - Arostegi Perez, María

AU - Del Ser Lorente, Javier

AU - López Lobo, Jesús

AU - Nekane Bilbao, Miren

PY - 2025/11/14

Y1 - 2025/11/14

N2 - Abstract—Concept drift and extreme verification latency pose significant challenges in data stream learning, particularly when dealing with recurring concept changes in dynamic environments. This work introduces a novel method based on the Growing Neural Gas (GNG) algorithm, designed to effectively handle abrupt recurrent drifts while adapting to incrementally evolving data distributions (incremental drifts). Leveraging the self-organizing and topological adaptability of GNG, the proposed approach maintains a compact yet informative memory structure, allowing it to efficiently store and retrieve knowledge of past or recurring concepts, even under conditions of delayed or sparse stream supervision. Our experiments highlight the superiority of our approach over existing data stream learning methods designed to cope with incremental non-stationarities and verification latency, demonstrating its ability to quickly adapt to new drifts, robustly manage recurring patterns, and maintain high predictive accuracy with a minimal memory footprint. Unlike other techniques that fail to leverage recurring knowledge, our proposed approach is proven to be a robust and efficient online learning solution for unsupervised drifting data flows. Index Terms—Data stream learning, extreme verification latency, concept drift, Growing Neural Gas.

AB - Abstract—Concept drift and extreme verification latency pose significant challenges in data stream learning, particularly when dealing with recurring concept changes in dynamic environments. This work introduces a novel method based on the Growing Neural Gas (GNG) algorithm, designed to effectively handle abrupt recurrent drifts while adapting to incrementally evolving data distributions (incremental drifts). Leveraging the self-organizing and topological adaptability of GNG, the proposed approach maintains a compact yet informative memory structure, allowing it to efficiently store and retrieve knowledge of past or recurring concepts, even under conditions of delayed or sparse stream supervision. Our experiments highlight the superiority of our approach over existing data stream learning methods designed to cope with incremental non-stationarities and verification latency, demonstrating its ability to quickly adapt to new drifts, robustly manage recurring patterns, and maintain high predictive accuracy with a minimal memory footprint. Unlike other techniques that fail to leverage recurring knowledge, our proposed approach is proven to be a robust and efficient online learning solution for unsupervised drifting data flows. Index Terms—Data stream learning, extreme verification latency, concept drift, Growing Neural Gas.

U2 - 10.1109/IJCNN64981.2025.11229019

DO - 10.1109/IJCNN64981.2025.11229019

M3 - Paper

T2 - International Joint Conference on Neural Networks.2025

Y2 - 30 June 2025 through 5 July 2025

ER -

AiGAS-dEVL-RC: An Adaptive Growing Neural Gas Model for Recurrently Drifting Unsupervised Data Streams

Abstract

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