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Yf Logistics Tracking

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By Sandeep Jagtap 1, *, Farah Bader 2, Guillermo Garcia-Garcia 3, Hana Trollman 2, Tobi Fadiji 4 and Konstantinos Salonitis 1

African Institute of Postharvest Technology, South African Research Chair in Postharvest Technology, Postharvest Technology Research Laboratory, Faculty of Agricultural Sciences, University of Stellenbosch, Stellenbosch 7602, South Africa

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Received: 23 November 2020 / Revised: 19 December 2020 / Accepted: 22 December 2020 / Published: 30 December 2020

Food Logistics 4.0 is a term derived from Industry 4.0 that focuses on all aspects of food supply management based on cyber-physical systems. It states that real-time information and the interconnectedness of things, supplemented with new technologies, will revolutionize and improve the way of catering. It has huge potential in terms of bringing transparency, fast delivery of food at low cost, flexibility and ability to deliver the right quality product to the right place and right time. This article discusses the basic technologies in Food Supply 4.0 and the opportunities and challenges in this regard. It primarily focuses on logistics, including resource planning, warehouse management, transportation management, predictive maintenance and data security. Internet of Things, Blockchain, Robotics and Automation and Artificial Intelligence are some of the technologies discussed.

Additive manufacturing (3D printing); artificial intelligence; augmented reality; big data; blockchain; cyber security; food supplies; Industry 4.0; Internet of Things; Robotics and Automation

Industry 4.0 is a term derived from the German word Industry 4.0 which originated at the Hannover trade fair in 2011 [1]. This is a high-tech strategy of the German government to promote digitization/computerization of production and increase automation compared to the third industrial revolution. Industry 4.0 was originally based on nine pillars [2]: robotics and automation, big data, simulation, system integration, Internet of Things, cyber security, cloud, additive manufacturing (3D printing) and augmented reality. The main objective of Industry 4.0 technologies is to make production more cost-effective, provide agility and flexibility with faster production and improved quality.

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An essential part of the food supply chain [3]. Because the majority of food products have a very short shelf life, delivering the right product and quantity at low cost and on time with minimal or no food waste is an important aspect of meeting customer demands. It includes both cold and ambient logistics, including precise planning, execution and effective monitoring to effectively manage the transportation of food products from farm to fork with minimum resources and waste but at the same time satisfying consumer needs. In the UK, 89% of all goods are transported by road, and this percentage increases to 98% for the transport of agri-food products [4]. Catering has always been a service-based business with significantly higher competition and lower margins, but at the same time responding to inconsistent customer demands. Food delivery businesses have embraced information technology in their day-to-day operations to improve route and food safety compliance, road conditions including congestion, service level (full on-time delivery) and environmental performance. In addition, the food supply market has become more saturated in the last decade, and new customer demands add more pressure and create more complex systems. Other contributing factors such as shelf life, globalization, demographic trends, fluctuating consumer demand for customized food products (eg gluten-free, low sugar and salt, low calorie, etc.) and ethical sustainability standards also add to the pressure. However, more needs to be done to modernize food supplies by developing innovative solutions to improve overall sustainability, ie environmental, social and economic performance.

Although food supplies have become more efficient over the years, Industry 4.0 technologies have only recently begun to be used. With the current trend towards Industry 4.0 technologies, new approaches to food supply are needed to reduce supply costs and carbon emissions to improve overall sustainability. Therefore, it has become crucial to address these issues while identifying the opportunities and challenges of Food Supply 4.0 and increase awareness and understanding in the food sector of the importance of Industry 4.0. Therefore, this article focuses on the role of Industry 4.0 technologies in the context of food supply, known as 'Food Logistics 4.0'. In addition to discussing the nine technologies mentioned earlier, we will also consider Blockchain technologies and artificial intelligence in this article. Finally, we conclude this article with comments on the impact of Food Logistics 4.0.

Robotics and automation are two components of the first pillar of Industry 4.0 [5]. While robotics refers to the process of designing and using a robot to perform specific tasks, automation refers to the use of other types of automated mechanical technology. The use of robotics and automation in any business is driven by the company's desire to reduce costs, increase production volume and increase operational speed. Processes led by robotics and automation also provide higher efficiency and an improved work environment [6]. Robotics, considered a form of automation, gives businesses product flexibility, which is especially important when sudden change is required to meet customer demands [7].

Robots, in their various configurations, can be programmed to manipulate objects and perform continuous and continuous tasks. The implementation of robotics in food supplies works in all industries. Initially, robots were mostly used for packaging and palletizing, but other applications have increased in recent years [8]. Integrating robotics and automation into food supply operations allows for end-to-end tracking and tracing throughout the supply chain. This is especially important for food products that are perishable and subject to severe handling conditions [9]. Optimizing cargo handling and transportation is the biggest benefit of robotics in logistics. Robotic applications offer optimal flow and material tracking throughout the logistics process. Robotics is often combined with sensing and imaging technologies [7].

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The introduction of automation and robotics enables companies to remove workers from hazardous work environments; In general, human labor must be used to load and unload heavy goods, and forklifts must be operated in physically demanding or uncomfortable positions. Automating such processes can lead to redistribution of workers and better work arrangements [7]. Pall and Kant [9] envision greater implementation of automation in logistics for primary processing such as material handling, sorting, quality monitoring and packaging and palletizing after arrival. In general, the goods handled are standardized and run through a single predefined process. The handling of non-standard goods requires a high level of automation, i.e. robotics [7].

Automation of operations increases productivity mainly by reducing the time required to perform tasks, thereby increasing production and profits. Product quality also increases with the precision associated with automation, thus reducing errors, meeting production requirements, resulting in less waste and greater profits. The more efficient a system is, the more competitive the market. Moreover, the implementation of automation and robotics in a company increases innovative, competitive advantage [7].

When it comes to warehouse logistics, simple basic automation can help the movement of products immensely; Examples include the use of automated guided vehicles (AGVs). The use of AGVs allows for increased productivity as well as reduced labor and operating costs. Perhaps the greatest benefit of using AGVs to transport products is the flexibility in controlling their trajectory, meaning the facility can be reconfigured as needed [10]. Robotics can also be used in such settings where swarm robots move around products on mounted rails [11]. Furthermore, robotics can be seen in the transportation, sorting, packaging and distribution of products [10]. The mobile robots are equipped with proximity sensors and alarm systems to ensure the safety of their surroundings.

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