A Survey on Waste Detection and Classification Using Deep Learning

Abdu, Haruna; Noor, Mohd Halim Mohd

doi:10.1109/access.2022.3226682

Cited by 30 publications

(8 citation statements)

References 73 publications

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“…The model architecture proposed by Blazke and Kostek also makes it possible to add new instruments [ 50 ]. Some challenges to using DNNs include the large datasets needed for training and computational costs [ 51 ].…”

Section: Discussionmentioning

confidence: 99%

Musical instrument classifier for early childhood percussion instruments

Rufino,

Khan,

Dutta

et al. 2024

PLoS ONE

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While the musical instrument classification task is well-studied, there remains a gap in identifying non-pitched percussion instruments which have greater overlaps in frequency bands and variation in sound quality and play style than pitched instruments. In this paper, we present a musical instrument classifier for detecting tambourines, maracas and castanets, instruments that are often used in early childhood music education. We generated a dataset with diverse instruments (e.g., brand, materials, construction) played in different locations with varying background noise and play styles. We conducted sensitivity analyses to optimize feature selection, windowing time, and model selection. We deployed and evaluated our best model in a mixed reality music application with 12 families in a home setting. Our dataset was comprised of over 369,000 samples recorded in-lab and 35,361 samples recorded with families in a home setting. We observed the Light Gradient Boosting Machine (LGBM) model to perform best using an approximate 93 ms window with only 12 mel-frequency cepstral coefficients (MFCCs) and signal entropy. Our best LGBM model was observed to perform with over 84% accuracy across all three instrument families in-lab and over 73% accuracy when deployed to the home. To our knowledge, the dataset compiled of 369,000 samples of non-pitched instruments is first of its kind. This work also suggests that a low feature space is sufficient for the recognition of non-pitched instruments. Lastly, real-world deployment and testing of the algorithms created with participants of diverse physical and cognitive abilities was also an important contribution towards more inclusive design practices. This paper lays the technological groundwork for a mixed reality music application that can detect children’s use of non-pitched, percussion instruments to support early childhood music education and play.

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Section: Discussionmentioning

confidence: 99%

Musical instrument classifier for early childhood percussion instruments

Rufino,

Khan,

Dutta

et al. 2024

PLoS ONE

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“…La detección de residuos mediante visión por computadora emplea algoritmos de aprendizaje automático para reconocer y clasificar diferentes tipos de residuos. Esta técnica implica el uso de cámaras y sensores para capturar imágenes de los residuos, seguido por el análisis de estas imágenes a través de software especializado que utiliza técnicas de visión por computadora y aprendizaje automático [5]. Los algoritmos, previamente entrenados con un conjunto de datos que incluye diversas imágenes de residuos, logran una detección y clasificación precisa [6].…”

Section: A Detección De Residuos Con Deep Learning (Ml)unclassified

Detection of recyclable solid waste using convolutional neural networks and PyTorch

Lapo,

Cumbicus-Pineda

2024

IEEE Latin Am. Trans.

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Waste management in the recycling business is a time-consuming and labor-intensive process. In this context, the need to improve accuracy and reduce the time associated with this process is highlighted. In order to improve the classification of recyclable solid waste and streamline the waste management process, the creation of a convolutional neural network (CNN) model using PyTorch was proposed. The MLOps methodology was implemented in the development of the proposed model. In the first phase, an interview was conducted to analyze the waste sorting process in the company GIRA. In the second phase, the Taco Trash Dataset was reclassified, a CNN architecture based on RetinaNet was designed and the model was trained with hyper parameters based on related works. The third phase, the model was evaluated by testing and A/B testing. The model demonstrated high accuracy in waste detection and classification. It successfully identified materials such as paper, cardboard, PET bottles, hard plastic containers, flexible plastics, cans, glass, Tetra Pak containers, Flex foam and PET bottle caps. The loss was minimal, reaching 0.02120%, equivalent to 97% accuracy, and 80% accuracy in a real environment based on the Technology Acceptance Model (TAM). It is concluded that the implementation of a sorting and waste detection model optimizes the time and improves the accuracy of the sorting process. Link to graphical and video abstracts, and to code: https://latamt.ieeer9.org/index.php/transactions/article/view/8764

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“…Kaya introduces a new model of waste classification for sustainable development which involves the use of a smart garbage system [3]. Abdu and Mohd Noor provide an extensive survey on waste detection and classification focusing on deep learning techniques [4]. Ruiz et al present an image based automatic waste classification approach that combines machine learning with waste management practices [5].…”

Section: Literature Surveymentioning

confidence: 99%

Classification of waste in natural environments

Kumar Kanaparthi,

Keerthi Reddy,

Sai Rama Sharma

et al. 2024

MATEC Web Conf.

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A worldwide issue affecting the world is waste disposal; hence, the need to construct a waste detection system that is based on deep learning. Ten wastes are evaluated in this article with a view of providing an integrated framework for measurement and evaluation. It also offers a comprehensive account of the wastes studied further by looking at its detail finding and the challenges they pose as well as views associated with waste detection. Recycling both has economical and ecological benefits which help to eliminate pollution. Technology can now be used to turn waste into resource materials thus recycling more than before especially through the use of deep learning among other technologies.

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A Survey on Waste Detection and Classification Using Deep Learning

Cited by 30 publications

References 73 publications

Musical instrument classifier for early childhood percussion instruments

Musical instrument classifier for early childhood percussion instruments

Detection of recyclable solid waste using convolutional neural networks and PyTorch

Classification of waste in natural environments

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