Tessa Phillips scite author profile

This paper develops a new approach to fraud detection in honey. Specifically, we examine adulterating honey with sugar and use hyperspectral imaging and machine learning techniques to detect adulteration. The main contributions of this paper are introducing a new feature smoothing technique to conform to the classification model used to detect the adulterated samples and the perpetration of an adulterated honey data set using hyperspectral imaging, which has been made available online for the first time. Above $$95\%$$ 95 % accuracy was achieved for binary adulteration detection and multi-class classification between different adulterant concentrations. The system developed in this paper can be used to prevent honey fraud as a reliable, low cost, data-driven solution.

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Genetic programming for evolving programs with recursive structures

Phillips

Zhang

Xue

2016

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Tessa Phillips

Developing a new ensemble approach with multi-class SVMs for Manuka honey quality classification

Class Embodiment Autoencoder (CEAE) for classifying the botanical origins of honey

Genetic programming for solving common and domain-independent generic recursive problems

A new honey adulteration detection approach using hyperspectral imaging and machine learning

Genetic programming for evolving programs with recursive structures

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