AI Article Synopsis
- - Fish-cutting products are popular among consumers for their unique nutrients and flavors but face labor shortages due to tough working conditions, leading to a need for automated cutting technologies.
- - The integration of Industry 4.0 technologies like IoT, AI, and big data is enhancing the fish-cutting process by improving production monitoring and ensuring product safety.
- - Advanced cutting techniques, including sensors and machine vision, are moving fish-cutting from manual labor to automation, resulting in greater efficiency, consistent quality, and revolutionizing the manufacturing approach in the industry.
Article Abstract
Fish-cutting products are widely loved by consumers due to the unique nutrient composition and flavor in different cuts. However, fish-cutting faces the issue of labor shortage due to the harsh working environment, huge workload, and seasonal work. Hence, some automatic, efficient, and large-scale cutting technologies are needed to overcome these challenges. Accompanied by the development of Industry 4.0, the Internet of Things (IoT), artificial intelligence, big data, and blockchain technologies are progressively applied in the cutting process, which plays pivotal roles in digital production monitoring and product safety enhancement. This review focuses on the main fish-cutting schemes and delves into advanced automatic cutting techniques, showing the latest technological advancements and how they are revolutionizing fish cutting. Additionally, the production monitoring architecture based on IoT in the fish-cutting process is discussed. Fish cutting involves a variety of schemes tailored to the specific characteristics of each fish cut. The cutting process includes deheading and tail removal, filleting, boning, skinning, trimming, and bone inspection. By incorporating sensors, machine vision, deep learning, and advanced cutting tools, these technologies are transforming fish cutting from a manual to an automated process. This transformation has significant practical implications for the industry, offering improved efficiency, consistent product quality, and enhanced safety, ultimately providing a modernized manufacturing approach to fish-cutting automation within the context of Industry 4.0.
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| http://dx.doi.org/10.1111/1541-4337.70039 | DOI Listing |
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