Spatial Impulse Response Analysis and Ensemble Learning for Efficient Precision Level Sensing
In this paper, we propose an innovative method for determining the fill level of containers, such as trash cans, addressing a critical aspect of waste management. The method combines spatial impulse response analysis with machine learning (ML) techniques, offering a unique and effective approach for...
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| creator | Cetkin, Berkay Fazlic, Lejla Begic Ueding, Kristof Machhamer, Rüdiger Guldner, Achim Creutz, Lars Naumann, Stefan Dartmann, Guido |
| description | In this paper, we propose an innovative method for determining the fill level
of containers, such as trash cans, addressing a critical aspect of waste
management. The method combines spatial impulse response analysis with machine
learning (ML) techniques, offering a unique and effective approach for
sound-based classification that can be extended to various domains beyond waste
management. By employing a buzzer-generated sine sweep signal, we create a
distinctive signature specific to the fill level of the waste container. This
signature, once accurately decoded, is then interpreted by a specially
developed ensemble learning algorithm. Our approach achieves a classification
accuracy of over 90% when implemented locally on a development board,
optimizing operational efficiencies and eliminating the need to delegate
complex classification tasks to external entities. Using low-cost and
energy-efficient hardware components, our method offers a cost-effective
approach that contributes to sustainable and efficient waste management
practices, providing a reliable and locally deployable solution. |
| doi_str_mv | 10.48550/arxiv.2405.19341 |
| format | Article |
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of containers, such as trash cans, addressing a critical aspect of waste
management. The method combines spatial impulse response analysis with machine
learning (ML) techniques, offering a unique and effective approach for
sound-based classification that can be extended to various domains beyond waste
management. By employing a buzzer-generated sine sweep signal, we create a
distinctive signature specific to the fill level of the waste container. This
signature, once accurately decoded, is then interpreted by a specially
developed ensemble learning algorithm. Our approach achieves a classification
accuracy of over 90% when implemented locally on a development board,
optimizing operational efficiencies and eliminating the need to delegate
complex classification tasks to external entities. Using low-cost and
energy-efficient hardware components, our method offers a cost-effective
approach that contributes to sustainable and efficient waste management
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of containers, such as trash cans, addressing a critical aspect of waste
management. The method combines spatial impulse response analysis with machine
learning (ML) techniques, offering a unique and effective approach for
sound-based classification that can be extended to various domains beyond waste
management. By employing a buzzer-generated sine sweep signal, we create a
distinctive signature specific to the fill level of the waste container. This
signature, once accurately decoded, is then interpreted by a specially
developed ensemble learning algorithm. Our approach achieves a classification
accuracy of over 90% when implemented locally on a development board,
optimizing operational efficiencies and eliminating the need to delegate
complex classification tasks to external entities. Using low-cost and
energy-efficient hardware components, our method offers a cost-effective
approach that contributes to sustainable and efficient waste management
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of containers, such as trash cans, addressing a critical aspect of waste
management. The method combines spatial impulse response analysis with machine
learning (ML) techniques, offering a unique and effective approach for
sound-based classification that can be extended to various domains beyond waste
management. By employing a buzzer-generated sine sweep signal, we create a
distinctive signature specific to the fill level of the waste container. This
signature, once accurately decoded, is then interpreted by a specially
developed ensemble learning algorithm. Our approach achieves a classification
accuracy of over 90% when implemented locally on a development board,
optimizing operational efficiencies and eliminating the need to delegate
complex classification tasks to external entities. Using low-cost and
energy-efficient hardware components, our method offers a cost-effective
approach that contributes to sustainable and efficient waste management
practices, providing a reliable and locally deployable solution.</abstract><doi>10.48550/arxiv.2405.19341</doi><oa>free_for_read</oa></addata></record> |
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| title | Spatial Impulse Response Analysis and Ensemble Learning for Efficient Precision Level Sensing |
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