Smart Asset Management for Electric Utilities: Big Data and Future

This paper discusses about future challenges in terms of big data and new technologies. Utilities have been collecting data in large amounts but they are hardly utilized because they are huge in amount and also there is uncertainty associated with it. Condition monitoring of assets collects large amounts of data during daily operations. The question arises "How to extract information from large chunk of data?" The concept of "rich data and poor information" is being challenged by big data analytics with advent of machine learning techniques. Along with technological advancements like Internet of Things (IoT), big data analytics will play an important role for electric utilities. In this paper, challenges are answered by pathways and guidelines to make the current asset management practices smarter for the future.Comment: 13 pages, 3 figures, Proceedings of 12th World Congress on Engineering Asset Management (WCEAM) 201

The role of Industry 4.0 enabling technologies for safety management: A systematic literature review

Abstract Innovations introduced during the Industry 4.0 era consist in the integration of the so called "nine pillars of technologies" in manufacturing, transforming the conventional factory in a smart factory. The aim of this study is to investigate enabling technologies of Industry 4.0, focusing on technologies that have a greater impact on safety management. Main characteristics of such technologies will be identified and described according to their use in an industrial environment. In order to do this, we chose a systematic literature review (SLR) to answer the research question in a comprehensively way. Results show that articles can be grouped according to different criteria. Moreover, we found that Industry 4.0 can increase safety levels in warehouse and logistic, as well as several solutions are available for building sector

An Approach to the Application of the Internet of Things in Logistics

The Internet of Things (IoT) is a technology of the future that is being widely applied in business environment. Companies around the world are starting to apply IoT technologies to ensure the most efficient business possible. The importance of the application of this technology has been particularly evident in improving logistics processes. This paper describes IoT applications in processes such as supply chain management, i.e. control of transport and storage of goods and materials. Examples of smart solutions offered by IoT technology are presented. Various technologies and standards are used in the implementation of the IoT. The scientific community is increasingly researching new technologies such as NB-IoT and 5G, which provide an even greater potential for IoT development. Therefore, this paper shows a comparison of these technologies and explains how IoT devices work with them

Supply Chain 4.0: Autonomous Vehicles and Equipment to Meet Demand

The term Supply chain 4.0 refers to the application of industry 4.0 technologies to the supply chain, aiming to plan with greater efficiency and better to meet the demand. Considering this reality, the study aims to verify which equipment and vehicles are being applied and which one presents the best benefits to each stage of the supply chain demand. To define the vehicles and equipment to be analyzed, were presented a supply chain process model, divided among industry, warehouses and customer. Thus, each ones were characterized and the best equipment could be adopted more precisely. The vehicles and equipment were analyzed, considering as the main aspects the maintenance cost, security, operation, product handling, delivery time and sustainability. The results show that the main vehicles to be applied are automated guided vehicles, autonomous trains and drones, each one being applied in different processes of the supply chain

The role of Industry 4.0 enabling technologies for safety management: A systematic literature review

Innovations introduced during the Industry 4.0 era consist in the integration of the so called "nine pillars of technologies" in manufacturing, transforming the conventional factory in a smart factory. The aim of this study is to investigate enabling technologies of Industry 4.0, focusing on technologies that have a greater impact on safety management. Main characteristics of such technologies will be identified and described according to their use in an industrial environment. In order to do this, we chose a systematic literature review (SLR) to answer the research question in a comprehensively way. Results show that articles can be grouped according to different criteria. Moreover, we found that Industry 4.0 can increase safety levels in warehouse and logistic, as well as several solutions are available for building sector

Increasing the effectiveness of food supply chain logistics through digital transformation

During the COVID-19 crisis, there were many restrictions to transportation. Due to that, a significant disruption in the food supply chain has emerged. The transportation of the fresh food and maintaining the quality, from farm to the table or distributing and then collecting from the warehouses and delivering to the consumer, has become crucial. Technologies and especially IoT, have become the primary tool to fight it. The research objective is to analyze and create new knowledge about digital technologies used to improve and make more effective the food supply chain processes. An exploratory case study methodology helps to investigate a large consortium based on IoT technologies, implemented in pilot cases on farm level and measuring their performance over the period of four years. This is an interpretative study, and the method of semi-structured interviews and document review for collecting the data was used. The results show IoT-connected sensors and systems in food and beverage supply chain logistics offer real-time visibility and data-driven analytics, allowing stakeholders to improve performance, cut operating costs, conduct predictive maintenance to avoid downtime, and even decrease energy usage or reduce negative environmental impacts

Warehouse monitoring, data logging and interface implementation based on internet of things application

Mestrado em ESTG-IPBDue to the high demand for wood around the world, wood warehouses are becoming increasingly popular. As a result, the large amount of stored wood requires special attention to maintain its quality, as well as, the protection of wood warehouses, which can now be accomplished thanks to the Internet of Things platforms and applications, therefore, this project aims to develop a system capable of real-time monitoring of the wood warehouse, based on the ATMEGA328P microcontroller, LoRa technology for data transmission, as well as, flame, gas, humidity, and temperature sensors, in order to prevent any disaster that could affect the warehouse operators, as well as, it can due to a significant losses of stored wood and its quality, Finally, to preserve the environment from the fire ignitions.Devido à grande procura de madeira em todo o mundo, os armazéns de madeira estão a tornar-se cada vez mais populares. Como resultado, a grande quantidade de madeira armazenada requer uma atenção especial para manter a sua qualidade, bem como a protecção dos armazéns de madeira, o que agora pode ser conseguido graças às plataformas e aplicações da Internet das Coisas, portanto, Este projecto visa desenvolver um sistema capaz de monitorização em tempo real do armazém de madeira, baseado no microcontrolador ATMEGA328P, tecnologia LoRa para transmissão de dados, bem como sensores de chama, gás, humidade e temperatura, a fim de evitar qualquer catástrofe que possa afectar os operadores do armazém, bem como perdas significativas de madeira armazenada e da sua qualidade, finalmente, para preservar o ambiente do risco de incêndio

Smart supply chain management in Industry 4.0

The emerging information and communication technologies (ICT) related to Industry 4.0 play a critical role to enhance supply chain performance. Employing the smart technologies has led to so-called smart supply chains. Understanding how Industry 4.0 and related ICT affect smart supply chains and how smart supply chains evolve with the support of the advanced technologies are vital to practical and academic communities. Existing review works on smart supply chains with ICT mainly rely on the academic literature alone. This paper presents an integrated approach to explore the effects of Industry 4.0 and related ICT on smart supply chains, by combining introduction of the current national strategies in North America, the research status analysis on ICT assisted supply chains from the major North American national research councils, and a systematic literature review of the subject. Besides, we introduce a smart supply chain hierarchical framework with multi-level intelligence. Furthermore, the challenges faced by supply chains under Industry 4.0 and future research directions are discussed as well

Logistics 4.0 in warehousing: a conceptual framework of influencing factors, benefits and barriers

Purpose: In the last decade, the Industry 4.0 paradigm had started to rapidly expand to the logistics domain. However, Logistics 4.0 is still in an early adoption stage: some areas such as warehousing are still exploring its applicability, and the technological implementation of this paradigm can become fuzzy. This paper addresses this gap by examining the relationship among influencing factors, barriers, and benefits of Logistics 4.0 technologies in warehousing contexts. Design/methodology/approach: Starting from a Systematic Literature Review (SLR) approach with 56 examined documents published in scientific journals or conference proceedings, a conceptual framework for Logistics 4.0 in warehousing is proposed. The framework encompasses multiple aspects related to the potential adopter’s decision-making process. Findings: Influencing factors toward adoption, achievable benefits, and possible hurdles or criticalities have been extensively analyzed and structured into a consistent picture. Company’s digital awareness and readiness result in a major influencing factor, whereas barriers and criticalities are mostly technological, safety and security, and economic in nature. Warehousing process optimization is the key benefit identified. Originality/value: This paper addresses a major gap since most of the research has focused on specific facets, or adopted the technology providers’ perspective, whereas little has been explored in warehousing from the adopters’ view. The main novelty and value lie in providing both academics and practitioners with a thorough view of multiple facets to be considered when approaching Logistics 4.0 in logistics facilities