Abstract
Climacteric fruit such as peaches are stored in cold chambers after harvest and usually are maintained there until the desired ripening is reached to direct these fruit to market. Producers, food industries and or traders have difficulties in defining the period when fruit are at the highest level of quality desired by consumers in terms of the physical-chemical parameters (hardness –H–, soluble solids content –SSC–, and acidity –Ac–). The evolution of peach quality in terms of these parameters depends directly on storage temperature –T– and relative humidity –RH–, as well on the storage duration –t–. This paper describes an Artificial Intelligence (AI) Decision Support System (DSS) designed to predict the evolution of the quality of peaches, namely the storage time required before commercialization as well as the late commercialization time. The peaches quality is stated in terms of the values of SSC, H and Ac that consumers most like for the storage T and RH. An Artificial neuronal network (ANN) is proposed to provide this prediction. The training and validation of the ANN were conducted with experimental data acquired in three different farmers’ cold storage facilities. A user interface was developed to provide an expedited and simple prediction of the marketable time of peaches, considering the storage temperature, relative humidity, and initial physical and chemical parameters. This AI DSS may help the vegetable sector (logistics and retailers), especially smaller neighborhood grocery stores, define the marketable period of fruit. It will contribute with advantages and benefits for all parties—producers, traders, retailers, and consumers—by being able to provide fruit at the highest quality and reducing waste in the process. In this sense, the ANN DSS proposed in this study contributes to new AI-based solutions for smart cities.
Highlights
The number of people worldwide has been increasing and the demand for fruit and vegetables that promote health has increased steadily
The current study aims to extend this type of research, through the development of an artificial intelligence (AI) decision support system (DSS) that predicts the number of days to reach the peach’s optimal quality as well as the number of days afterwards until it deteriorates
It is important to highlight that the results of this Artificial Intelligence (AI) Decision Support System (DSS) are directly related to the environmental conditions, namely air temperature and relative humidity, that must be measured in real-time to be able to predict the variation of the physical-chemical parameters and determine the upper limits of these values that are considered by consumers to be at the highest quality
Summary
The number of people worldwide has been increasing and the demand for fruit and vegetables that promote health has increased steadily. The latter because storage in a lowtemperature storage range (2.2 ◦ C to 7.6 ◦ C) may lead to a decrease in quality through dry texture, floury pulp, and flavor loss (known as chilling injury) [14,15,16,17,18,19,20,21] To overcome these difficulties, several studies have been carried out to predict the evolution of some parameters, which are mainly influenced by duration (time), temperature, and relative humidity of the conservation environment. This DSS uses the values range of hardness, soluble solids content, and acidity for the highest perceived quality by consumers as thresholds Knowing how these parameters change during the conservation time at some temperature and relative humidity, the initial parameters (post-harvest) are used to predict the time frame for optimum quality.
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