Pproaches are commonly regarded as for control applications within the production, processing, and retail stages. In contrast, optimization with meta-heuristics and prediction-classification-pattern evaluation with ML and DL are modeling perspectives which can be considered within the entire FSC process. The contributionsSensors 2021, 21,23 ofof communication and perception approaches making use of DL approaches often be more ordinarily focused around the production and retail stages. five. Conclusions This final section introduces the main reflections drawn in the analysis carried out within this paper. Section 5.1 introduces the summary and conclusions. Then, Section five.two facts a set of Resveratrol analog 2 Data Sheet challenges and investigation opportunities to encourage additional exploration and use from the probable contributions that CI may well bring to the FSC field. 5.1. Summary This paper has proposed a brand new and comprehensive taxonomy of FSC problems beneath a CI paradigm for three representative supply chains: agriculture, fish farming, and livestock. The taxonomy was built based on 3 levels in an effort to categorize FSC problems in accordance with how they could be modeled applying CI approaches. The very first and second levels are focused on identifying the chain stage (production, processing, distribution, and retail) plus the distinct FSC challenge to be addressed (e.g., vehicle routing complications inside the distribution stage). The third level Diethyl phthalate-d10 Autophagy presents the typologies of FSC issues from a CI perspective, and aims to categorize FSC troubles depending on how they’re able to be modeled and solved by CI approaches. Within the third amount of the taxonomy we’ve got defined four attributes, presented as follows, (1) dilemma solving, that is in charge of classifying FSC challenges focused on optimizing processes; (two) uncertain know-how and reasoning, which concers difficulties which have partially observable, non-deterministic, incomplete, or imprecise data; (3) know-how discovery and function approximation, which has the part of categorizing troubles that aim to make predictions of future scenarios, classification of variables, or analysis of patterns embedded in data; (4) communication and perception, groups FSC difficulties that involve computer vision systems to sensing and suggesting plausible actions to take so that you can intervene in such environments. To check the robustness on the taxonomy, we categorized FSC complications with CI solutions, particularly in the production, processing, distribution, and retail stages. Here, it is relevant to highlight that we introduced a set of unified definitions for these troubles. Because of this, we have been able to draw some interesting conclusions. In the fish and livestock circumstances of the production stage, utilizing the DL as well as the communication and perception attribute substantially influences applications (e.g., fish weight estimation, grassland monitoring, animal welfare) where the input data is determined by image and video records (nonstructured data). In contrast, we’ve got the case of classic ML, that is narrowed to FSC challenges, and for which, the objective will be to make production predictions utilizing historical information records (structured data). In the case of agriculture production systems, the scope of the CI method is broader. Specifically, we discovered that DL, ML, FL, and Meta-heuristics are techniques for modeling production troubles associated to crop protection and yield, climate prediction, and irrigation and nutrient management. Within the processing stage, ML, meta-heuristics, and probabilistic procedures will be the CI approaches comm.