SMART LOGISTICS AND ARTIFICIAL INTELLIGENCE PRACTICES IN INDUSTRY 4.0 ERAijmvsc
The purpose of this paper is to analyze the factors that affect success of logistics companies adopting AI by studying the application of AI in the logistics industry. Although the application of technology and artificial intelligence has been widely studied, the factors affecting the adoption of Artificial Intelligence (AI) are still unknown in the existing literature. Therefore, the main research in this paper is to explore the influence of success factors on AI by integrating technology, organization and environment (TOE) framework. The framework is judged by case analysis of logistics companies. This study provides some suggestions on successful adoption of AI technology fortheir logistics operations.
Big data represents one of the most profound and most pervasive evolutions in the digital world. Examples of big data come from Internet of Things (IoT) devices, as well as smart cars, but also the use of social networks, industries, and so on. The sources of data are numerous and continuously increasing, and, therefore, what characterizes big data is not only the volume but also the complexity due to the heterogeneity of information that can be obtained. The fastest growth in spending on big data technologies is happening within banking, healthcare, insurance, securities and investment services, and telecommunications. Remarkably, three of those industries lie within the financial sector, which has many particularly serviceable use cases for big data analytics, such as fraud detection, risk management, and customer service optimization. In fact, the definition of big data analysis refers to the process that encompasses the gathering and analysis of big data to obtain useful information for the business. This paper focuses on delivering a short review concerning the current technologies, future perspectives, and the evaluation of some use cased associated with the analysis of big data.
Insight into IoT Applications and Common Practice Challengesijtsrd
IoT caused a revolution in the technological world. Not only is the IoT related to computers, people or cell phones but also to various sensors, actuators, vehicles, and other modern appliances. There are around 14 billion interconnected digital devices across the globe i.e. almost 2 devices per human being on earth. The IoT serves as a medium to connect non living things to the internet to transfer information from one point to another in their community network which automates processes and ultimately makes the life of human beings convenient. The subsequent result of amalgamating internet connectivity with powerful data analysis is a complete change in the way we humans work and live. The most vital characteristics of IoT include connectivity, active engagement, sensors, artificial intelligence, and small device use. All of this creates many challenges that need to be solved to keep this technology to continue expanding. In this paper, we have identified various applications of IoT based on recent technological and business trends and highlighted the existing challenges faced by IoT which need to be addressed considering the exponential acceptance of the concept globally and the way those challenges had been addressed in the past. We have also made a few comments on the way such challenges are being attempted to be resolved now. This paper presents the current status Internet of Things IoT in terms of technical details, and applications. Also, this paper opens a window for future work on the historical approach to study and address IoT challenges. Lubna Alazzawi | Jamal Alotaibi "Insight into IoT Applications and Common Practice Challenges" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-3 , April 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30286.pdf Paper Url :https://www.ijtsrd.com/engineering/computer-engineering/30286/insight-into-iot-applications-and-common-practice-challenges/lubna-alazzawi
Cloud Computing Role in Information technologyKHakash
Simply put, cloud computing is the delivery of computing services—including servers, storage, databases, networking, software, analytics, and intelligence—over the Internet (“the cloud”) to offer faster innovation, flexible resources, and economies of scale.
Information technology (IT) is part of the value chain and corporate strategy of companies (PORTER, 1998). This area has been highlighted by its rapid development being responsible for several technological innovations, which affect the strategic positioning of companies. In the 1970s the computing model based on both proprietary technology and high cost large computers, known as mainframes, contributed to the formation of oligopolies in companies providing IT services which provided data processing to consumer companies.
SMART LOGISTICS AND ARTIFICIAL INTELLIGENCE PRACTICES IN INDUSTRY 4.0 ERAijmvsc
The purpose of this paper is to analyze the factors that affect success of logistics companies adopting AI by studying the application of AI in the logistics industry. Although the application of technology and artificial intelligence has been widely studied, the factors affecting the adoption of Artificial Intelligence (AI) are still unknown in the existing literature. Therefore, the main research in this paper is to explore the influence of success factors on AI by integrating technology, organization and environment (TOE) framework. The framework is judged by case analysis of logistics companies. This study provides some suggestions on successful adoption of AI technology fortheir logistics operations.
Big data represents one of the most profound and most pervasive evolutions in the digital world. Examples of big data come from Internet of Things (IoT) devices, as well as smart cars, but also the use of social networks, industries, and so on. The sources of data are numerous and continuously increasing, and, therefore, what characterizes big data is not only the volume but also the complexity due to the heterogeneity of information that can be obtained. The fastest growth in spending on big data technologies is happening within banking, healthcare, insurance, securities and investment services, and telecommunications. Remarkably, three of those industries lie within the financial sector, which has many particularly serviceable use cases for big data analytics, such as fraud detection, risk management, and customer service optimization. In fact, the definition of big data analysis refers to the process that encompasses the gathering and analysis of big data to obtain useful information for the business. This paper focuses on delivering a short review concerning the current technologies, future perspectives, and the evaluation of some use cased associated with the analysis of big data.
Insight into IoT Applications and Common Practice Challengesijtsrd
IoT caused a revolution in the technological world. Not only is the IoT related to computers, people or cell phones but also to various sensors, actuators, vehicles, and other modern appliances. There are around 14 billion interconnected digital devices across the globe i.e. almost 2 devices per human being on earth. The IoT serves as a medium to connect non living things to the internet to transfer information from one point to another in their community network which automates processes and ultimately makes the life of human beings convenient. The subsequent result of amalgamating internet connectivity with powerful data analysis is a complete change in the way we humans work and live. The most vital characteristics of IoT include connectivity, active engagement, sensors, artificial intelligence, and small device use. All of this creates many challenges that need to be solved to keep this technology to continue expanding. In this paper, we have identified various applications of IoT based on recent technological and business trends and highlighted the existing challenges faced by IoT which need to be addressed considering the exponential acceptance of the concept globally and the way those challenges had been addressed in the past. We have also made a few comments on the way such challenges are being attempted to be resolved now. This paper presents the current status Internet of Things IoT in terms of technical details, and applications. Also, this paper opens a window for future work on the historical approach to study and address IoT challenges. Lubna Alazzawi | Jamal Alotaibi "Insight into IoT Applications and Common Practice Challenges" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-3 , April 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30286.pdf Paper Url :https://www.ijtsrd.com/engineering/computer-engineering/30286/insight-into-iot-applications-and-common-practice-challenges/lubna-alazzawi
Cloud Computing Role in Information technologyKHakash
Simply put, cloud computing is the delivery of computing services—including servers, storage, databases, networking, software, analytics, and intelligence—over the Internet (“the cloud”) to offer faster innovation, flexible resources, and economies of scale.
Information technology (IT) is part of the value chain and corporate strategy of companies (PORTER, 1998). This area has been highlighted by its rapid development being responsible for several technological innovations, which affect the strategic positioning of companies. In the 1970s the computing model based on both proprietary technology and high cost large computers, known as mainframes, contributed to the formation of oligopolies in companies providing IT services which provided data processing to consumer companies.
The Case for Developing and Introducing the M-Procurement System in Nigeria, ...inventionjournals
In this paper the author points out how in the last few years mobile technology has improved a great deal in countries like Nigeria, where individuals possess two or three SIM (Subscriber Identity Module) cards issued from different major mobile service providers. The paper opines that owing to this increased pervasiveness of mobile networks, in the enterprises mobile computing should gradually be replacing the use of desktop systems; the paper went on to highlight the need to leverage this ubiquity of mobile computing and network in improving and overhauling the Nigeria’s clumsy, very slow and oftentimes corrupt procurement system. An architectural model that will support the introduction of m-procurement (mobile procurement) systems was unraveled and examined. Ongoing related works in this regard were discussed. The paper concluded by spurring software application developers and designers to start thinking on the perspectives highlighted by the author.
Services have rapidly become a central topic of both concern and interest in research and business. Both the public and the private sector are facing increasing demand, cost, and quality challenges in their attempts to deliver services effectively and efficiently. The changing structure of the population, growing competition and mobility through globalisation, and new opportunities for services’ digitalisation are among the factors forcing us to re-knit the web of services needed for enabling a sustainable operation environment for companies, providing citizens with adequate conditions for good quality of life, and protecting our environment from overload caused by human activity.
This collection of highlights of VTT’s service research illustrates the versatility of service research. Service research has become a theme under which synthesis of traditionally separate research domains thrives. These range from industrial manufacturing to safety and security, from information and communication technologies to the building sector, and from media studies to public-sector innovations. Service research brings researchers from many disciplines together to discuss innovation, design, development, and adoption of services in diverse domains, enabled by emerging technological breakthroughs.
New business models using Artificial Intelligence BirgitObermeier
Excecutive summary of a report of Plattform Lernende Systeme - Germany's platform for Artificial Intelligence
Artificial intelligence (AI) will change our economy as much as the Internet once did. To keep pace with international competition, companies must adapt their business models. This requires a clear AI vision and cross-industry cooperation, recommend experts from the Learning Systems Platform. They provide companies with a guide and show how they can use AI systematically. Case studies illustrate this. Finally, design options are addressed to politics, science and industry in order to create the appropriate framework conditions.
Analysis the impact of Information technology on Efficient tax ManagementAI Publications
The purpose of this study was to investigate the influence of information technology on tax administration in the Kurdistan. The impact of information technology on tax productivity as well as the link between information technology on tax implementation and tax planning were especially studied in this study. In this study, a descriptive research approach was adopted, with a questionnaire being used to collect data, which was then analyzed using multiple regression and Pearson product moment correlation. The findings of the study revealed that information technology (online tax filing, online tax registration and online tax remittance) has a positive impact on efficient tax management.
Industrial revolutions are momentous events. By most reckonings, there have been only three. The first was triggered in the 1700s by the commercial steam engine and the mechanical loom. The harnessing of electricity and mass production sparked the second, around the start of the 20th century. The computer set the third in motion after World War II.
It might seem too soon to proclaim that the fourth industrial revolution, spurred by interconnected digital technology, has begun. But Henning Kagermann, the head of the German National Academy of Science and Engineering (Acatech), did exactly that in 2011, when he used the term Industrie 4.0 to describe a proposed government-sponsored industrial initiative.
When you look closely at the rapid pace of digitization in industry today, the name doesn’t seem hyperbolic at all. It is a signal of sweeping change that is rapidly transforming many companies and may catch others by surprise.
Industry 4.0: from Factory to Smactory
It is August the 18th of 2014 when a German government official press ‘post’ on an update called: "Zukunftsprojekt Industrie 4.0”, not knowing that this Industry number will complete transform the way we traditionally did business. Where business transformation in prior times mostly affected individual entities of businesses, this transformation affects the whole business eco-system. The announcement, posted on the “Bundesministerium fur Bildung und Forschung ” or, in English, the:”Federal ministry of education and Research” quoted the following key message:
“The future project Industry 4.0 aims to enable the German industry in a position to be ready for the future of production. Industrial production will be characterized by strong personalization of products under the conditions of high flexibilised (high-volume) production, the extensive integration of customers and business partners in business and value creation processes and the coupling of production and quality services.”
Industry 4.0, where disruption meets the manufacturing industry
According the Cambridge Online Dictionary is revolution something that is: ‘a very important change in the way that people do things’ or ‘one complete circular movement of something’. That Industry 4.0 is a industrial revolution is an understatement. Industry 4.0 is a big disruption in the economy & the way we (will) do business in the future. Before deep dive directly into Industry 4.0 let us have a closer look to the road towards it...
An integrating framework that reconciles the gaps of supply and demand side initiatives and fuses together numerous GOI programs is the need of the hour. Model of such a framework is proposed here.
( Tasc One members are Parasuram Balasubramanian, Padmanabhan Jayasimha, T.R. Sankaranarayanan and Hariharan Shankar. All are alumni of IIT Madras)
An abridged version of this article was published in "Report: IITMAA Sangam 2019 - Reimagining India in 2030"
Cloud Search Based Applications for Big Data - Challenges and Methodologies f...Accelerate Project
Presentation of Suciu et al. at "Workshop on Adaptive Resource Management and Scheduling for Cloud Computing", ARMS-CC 2015 ,
Donostia-San Sebastián, Spain, July 20th, 2015
The Impact of Industry 4.0 on Procurement and Supply Management: A Conceptual...inventionjournals
The ongoing discussions about a „digital revolution― and ―disruptive competitive advantages‖ have led to the creation of such a business vision as ―Industry 4.0‖. Yet, the term and even more its actual impact on businesses is still unclear.This paper addresses this gap and explores more specifically, the consequences and potentials of Industry 4.0 for the procurement, supply and distribution management functions. A blend of literature-based deductions and results from a qualitative study are used to explore the phenomenon.The findings indicate that technologies of Industry 4.0 legitimate the next level of maturity in procurement (Procurement &Supply Management 4.0). Empirical findings support these conceptual considerations, revealing the ambitious expectations.The sample comprises seven industries and the employed method is qualitative (telephone and face-to-face interviews). The empirical findings are only a basis for further quantitative investigation , however, they support the necessity and existence of the maturity level. The findings also reveal skepticism due to high investment costs but also very high expectations. As recent studies about digitalization are rather rare in the context of single company functions, this research work contributes to the understanding of digitalization and supply management
A presentation that did at UKTI briefing about market opportunity in internet of things (iot) & Machine to Machine (M2M) Communication in Indian market to UK based companies
Connected Products for the Industrial WorldCognizant
By leveraging product-centric connected ecosystems, manufacturers can create new and more effective business models, advance operational excellence, and design and develop better products and services that align with customer needs and preferences.
World Wide Web plays an important role in providing various knowledge sources to the world, which helps many applications to provide quality service to the consumers. As the years go on the web is overloaded with lot of information and it becomes very hard to extract the relevant information from the web. This gives way to the evolution of the Big Data and the volume of the data keeps increasing rapidly day by day. Data mining techniques are used to find the hidden information from the big data. In this paper we focus on the review of Big Data, its data classification methods and the way it can be mined using various mining methods.
Impact of Information and Communication Technology on Cargo Industries A Stud...ijtsrd
The modern trend towards E commerce and computerization that they give you an idea about the way cargo industries Trucking and freight services , this paper establishes an “Impact of information and communication technology on cargo industries” In terms of commerce, logistics and fleet management, and proposes invented mechanisms of influence. The authors note that the speedy increase of E commerce and freight fleet management system compose it not easy to arrive next to firm, statistics based conclusion in relation to their impact of cargo industries, however suggest that more complicated government management of transportation demand over and above freight fleet management systems could call off out the pessimistic impact of E commerce on road transportation. Dr. Nandisha H. D "Impact of Information and Communication Technology on Cargo Industries - A Study in Bengaluru" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-1 , December 2020, URL: https://www.ijtsrd.com/papers/ijtsrd35731.pdf Paper URL : https://www.ijtsrd.com/management/mis-and-retail-management/35731/impact-of-information-and-communication-technology-on-cargo-industries--a-study-in-bengaluru/dr-nandisha-h-d
Industry 4.0 (IR4.0) & Teaching New Trends in Education with HOTS.Timothy Wooi
Objectives
The main objective of the seminar is to understand how Educational sector can respond to and prepare for educating the 4th Industrial Revolution;
using technological strategies of CHANGE in skills & work,
To prepare Students to be competitive & current to fit in the emerging 4th Industrial Revolution Workforce.
The linking of computers around the world is going to have far reaching effects, and the spread of knowledge, the interchange of ideas and the dissemination of information are going to produce a revolution in our society. Digital business use technology to create new value in business models, customer experiences and the internal capabilities that support its core operations. The term includes both digital only brands and traditional players that are transforming their businesses with digital technologies. the more important benefits derived from developing a digital business include the ability of your organization to rapidly develop and move into new markets uncover and form partnerships reach new customers and expand your brand with new and existing customers as an innovator, among many others. Digital business is about the creation of new business designs by blurring the physical and digital world. It is about the interaction and negotiations between, business, and things. A. Karthik | M. Karthikeyan | P. H. Gopikannan "Digital Business" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-6 , October 2020, URL: https://www.ijtsrd.com/papers/ijtsrd33644.pdf Paper Url: https://www.ijtsrd.com/management/marketing/33644/digital-business/a-karthik
SMART LOGISTICS AND ARTIFICIAL INTELLIGENCE PRACTICES IN INDUSTRY 4.0 ERAijmvsc
The purpose of this paper is to analyze the factors that affect success of logistics companies adopting AI by
studying the application of AI in the logistics industry. Although the application of technology and artificial
intelligence has been widely studied, the factors affecting the adoption of Artificial Intelligence (AI) are
still unknown in the existing literature. Therefore, the main research in this paper is to explore the
influence of success factors on AI by integrating technology, organization and environment (TOE)
framework. The framework is judged by case analysis of logistics companies. This study provides some
suggestions on successful adoption of AI technology fortheir logistics operations.
The Case for Developing and Introducing the M-Procurement System in Nigeria, ...inventionjournals
In this paper the author points out how in the last few years mobile technology has improved a great deal in countries like Nigeria, where individuals possess two or three SIM (Subscriber Identity Module) cards issued from different major mobile service providers. The paper opines that owing to this increased pervasiveness of mobile networks, in the enterprises mobile computing should gradually be replacing the use of desktop systems; the paper went on to highlight the need to leverage this ubiquity of mobile computing and network in improving and overhauling the Nigeria’s clumsy, very slow and oftentimes corrupt procurement system. An architectural model that will support the introduction of m-procurement (mobile procurement) systems was unraveled and examined. Ongoing related works in this regard were discussed. The paper concluded by spurring software application developers and designers to start thinking on the perspectives highlighted by the author.
Services have rapidly become a central topic of both concern and interest in research and business. Both the public and the private sector are facing increasing demand, cost, and quality challenges in their attempts to deliver services effectively and efficiently. The changing structure of the population, growing competition and mobility through globalisation, and new opportunities for services’ digitalisation are among the factors forcing us to re-knit the web of services needed for enabling a sustainable operation environment for companies, providing citizens with adequate conditions for good quality of life, and protecting our environment from overload caused by human activity.
This collection of highlights of VTT’s service research illustrates the versatility of service research. Service research has become a theme under which synthesis of traditionally separate research domains thrives. These range from industrial manufacturing to safety and security, from information and communication technologies to the building sector, and from media studies to public-sector innovations. Service research brings researchers from many disciplines together to discuss innovation, design, development, and adoption of services in diverse domains, enabled by emerging technological breakthroughs.
New business models using Artificial Intelligence BirgitObermeier
Excecutive summary of a report of Plattform Lernende Systeme - Germany's platform for Artificial Intelligence
Artificial intelligence (AI) will change our economy as much as the Internet once did. To keep pace with international competition, companies must adapt their business models. This requires a clear AI vision and cross-industry cooperation, recommend experts from the Learning Systems Platform. They provide companies with a guide and show how they can use AI systematically. Case studies illustrate this. Finally, design options are addressed to politics, science and industry in order to create the appropriate framework conditions.
Analysis the impact of Information technology on Efficient tax ManagementAI Publications
The purpose of this study was to investigate the influence of information technology on tax administration in the Kurdistan. The impact of information technology on tax productivity as well as the link between information technology on tax implementation and tax planning were especially studied in this study. In this study, a descriptive research approach was adopted, with a questionnaire being used to collect data, which was then analyzed using multiple regression and Pearson product moment correlation. The findings of the study revealed that information technology (online tax filing, online tax registration and online tax remittance) has a positive impact on efficient tax management.
Industrial revolutions are momentous events. By most reckonings, there have been only three. The first was triggered in the 1700s by the commercial steam engine and the mechanical loom. The harnessing of electricity and mass production sparked the second, around the start of the 20th century. The computer set the third in motion after World War II.
It might seem too soon to proclaim that the fourth industrial revolution, spurred by interconnected digital technology, has begun. But Henning Kagermann, the head of the German National Academy of Science and Engineering (Acatech), did exactly that in 2011, when he used the term Industrie 4.0 to describe a proposed government-sponsored industrial initiative.
When you look closely at the rapid pace of digitization in industry today, the name doesn’t seem hyperbolic at all. It is a signal of sweeping change that is rapidly transforming many companies and may catch others by surprise.
Industry 4.0: from Factory to Smactory
It is August the 18th of 2014 when a German government official press ‘post’ on an update called: "Zukunftsprojekt Industrie 4.0”, not knowing that this Industry number will complete transform the way we traditionally did business. Where business transformation in prior times mostly affected individual entities of businesses, this transformation affects the whole business eco-system. The announcement, posted on the “Bundesministerium fur Bildung und Forschung ” or, in English, the:”Federal ministry of education and Research” quoted the following key message:
“The future project Industry 4.0 aims to enable the German industry in a position to be ready for the future of production. Industrial production will be characterized by strong personalization of products under the conditions of high flexibilised (high-volume) production, the extensive integration of customers and business partners in business and value creation processes and the coupling of production and quality services.”
Industry 4.0, where disruption meets the manufacturing industry
According the Cambridge Online Dictionary is revolution something that is: ‘a very important change in the way that people do things’ or ‘one complete circular movement of something’. That Industry 4.0 is a industrial revolution is an understatement. Industry 4.0 is a big disruption in the economy & the way we (will) do business in the future. Before deep dive directly into Industry 4.0 let us have a closer look to the road towards it...
An integrating framework that reconciles the gaps of supply and demand side initiatives and fuses together numerous GOI programs is the need of the hour. Model of such a framework is proposed here.
( Tasc One members are Parasuram Balasubramanian, Padmanabhan Jayasimha, T.R. Sankaranarayanan and Hariharan Shankar. All are alumni of IIT Madras)
An abridged version of this article was published in "Report: IITMAA Sangam 2019 - Reimagining India in 2030"
Cloud Search Based Applications for Big Data - Challenges and Methodologies f...Accelerate Project
Presentation of Suciu et al. at "Workshop on Adaptive Resource Management and Scheduling for Cloud Computing", ARMS-CC 2015 ,
Donostia-San Sebastián, Spain, July 20th, 2015
The Impact of Industry 4.0 on Procurement and Supply Management: A Conceptual...inventionjournals
The ongoing discussions about a „digital revolution― and ―disruptive competitive advantages‖ have led to the creation of such a business vision as ―Industry 4.0‖. Yet, the term and even more its actual impact on businesses is still unclear.This paper addresses this gap and explores more specifically, the consequences and potentials of Industry 4.0 for the procurement, supply and distribution management functions. A blend of literature-based deductions and results from a qualitative study are used to explore the phenomenon.The findings indicate that technologies of Industry 4.0 legitimate the next level of maturity in procurement (Procurement &Supply Management 4.0). Empirical findings support these conceptual considerations, revealing the ambitious expectations.The sample comprises seven industries and the employed method is qualitative (telephone and face-to-face interviews). The empirical findings are only a basis for further quantitative investigation , however, they support the necessity and existence of the maturity level. The findings also reveal skepticism due to high investment costs but also very high expectations. As recent studies about digitalization are rather rare in the context of single company functions, this research work contributes to the understanding of digitalization and supply management
A presentation that did at UKTI briefing about market opportunity in internet of things (iot) & Machine to Machine (M2M) Communication in Indian market to UK based companies
Connected Products for the Industrial WorldCognizant
By leveraging product-centric connected ecosystems, manufacturers can create new and more effective business models, advance operational excellence, and design and develop better products and services that align with customer needs and preferences.
World Wide Web plays an important role in providing various knowledge sources to the world, which helps many applications to provide quality service to the consumers. As the years go on the web is overloaded with lot of information and it becomes very hard to extract the relevant information from the web. This gives way to the evolution of the Big Data and the volume of the data keeps increasing rapidly day by day. Data mining techniques are used to find the hidden information from the big data. In this paper we focus on the review of Big Data, its data classification methods and the way it can be mined using various mining methods.
Impact of Information and Communication Technology on Cargo Industries A Stud...ijtsrd
The modern trend towards E commerce and computerization that they give you an idea about the way cargo industries Trucking and freight services , this paper establishes an “Impact of information and communication technology on cargo industries” In terms of commerce, logistics and fleet management, and proposes invented mechanisms of influence. The authors note that the speedy increase of E commerce and freight fleet management system compose it not easy to arrive next to firm, statistics based conclusion in relation to their impact of cargo industries, however suggest that more complicated government management of transportation demand over and above freight fleet management systems could call off out the pessimistic impact of E commerce on road transportation. Dr. Nandisha H. D "Impact of Information and Communication Technology on Cargo Industries - A Study in Bengaluru" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-1 , December 2020, URL: https://www.ijtsrd.com/papers/ijtsrd35731.pdf Paper URL : https://www.ijtsrd.com/management/mis-and-retail-management/35731/impact-of-information-and-communication-technology-on-cargo-industries--a-study-in-bengaluru/dr-nandisha-h-d
Industry 4.0 (IR4.0) & Teaching New Trends in Education with HOTS.Timothy Wooi
Objectives
The main objective of the seminar is to understand how Educational sector can respond to and prepare for educating the 4th Industrial Revolution;
using technological strategies of CHANGE in skills & work,
To prepare Students to be competitive & current to fit in the emerging 4th Industrial Revolution Workforce.
The linking of computers around the world is going to have far reaching effects, and the spread of knowledge, the interchange of ideas and the dissemination of information are going to produce a revolution in our society. Digital business use technology to create new value in business models, customer experiences and the internal capabilities that support its core operations. The term includes both digital only brands and traditional players that are transforming their businesses with digital technologies. the more important benefits derived from developing a digital business include the ability of your organization to rapidly develop and move into new markets uncover and form partnerships reach new customers and expand your brand with new and existing customers as an innovator, among many others. Digital business is about the creation of new business designs by blurring the physical and digital world. It is about the interaction and negotiations between, business, and things. A. Karthik | M. Karthikeyan | P. H. Gopikannan "Digital Business" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-6 , October 2020, URL: https://www.ijtsrd.com/papers/ijtsrd33644.pdf Paper Url: https://www.ijtsrd.com/management/marketing/33644/digital-business/a-karthik
SMART LOGISTICS AND ARTIFICIAL INTELLIGENCE PRACTICES IN INDUSTRY 4.0 ERAijmvsc
The purpose of this paper is to analyze the factors that affect success of logistics companies adopting AI by
studying the application of AI in the logistics industry. Although the application of technology and artificial
intelligence has been widely studied, the factors affecting the adoption of Artificial Intelligence (AI) are
still unknown in the existing literature. Therefore, the main research in this paper is to explore the
influence of success factors on AI by integrating technology, organization and environment (TOE)
framework. The framework is judged by case analysis of logistics companies. This study provides some
suggestions on successful adoption of AI technology fortheir logistics operations.
This Presentation describes about the definition of Industry 4.0, how can industry 4.0 be occured in this era and what are steps?, relation between Energy Distribution and Industry 4.0, Smart Grid including AMI (Advanced Metering Infrastructure) summerized from all resources. Thankyou and i am sorry if there are many theory, statements and pictures which its sources are not included.
Leveraging IoT Testing to manage Supply Chain Risks.pdfMindfire LLC
IoT is a game-changing technology that has had a significant impact on sectors like retail, transportation, banking, healthcare, and energy. When it comes to supply chain management, the Internet of Things can be extremely handy. Applications for management, forecasting, and supervision assist fleet managers in increasing operational distribution efficiency and adding transparency to decision-making.
Cyber risk at the edge: current and future trends on cyber risk analytics and...Petar Radanliev
Digital technologies have changed the way supply chain operations are structured. In this article, we conduct systematic syntheses of literature on the impact of new technologies on supply chains and the related cyber risks. A taxonomic/cladistic approach is used for the evaluations of progress in the area of supply chain integration in the Industrial Internet of Things and Industry 4.0, with a specific focus on the mitigation of cyber risks. An analytical framework is presented, based on a critical assessment with respect to issues related to new types of cyber risk and the integration of supply chains with new technologies. This paper identifies a dynamic and self-adapting supply chain system supported with Artificial Intelligence and Machine Learning (AI/ML) and real-time intelligence for predictive cyber risk analytics. The system is integrated into a cognition engine that enables predictive cyber risk analytics with real-time intelligence from IoT networks at the edge. This enhances capacities and assist in the creation of a comprehensive understanding of the opportunities and threats that arise when edge computing nodes are deployed, and when AI/ML technologies are migrated to the periphery of IoT networks.
Privacy and security policies in supply chainVanya Vladeva
Nowadays, Industry 4.0 era and the progress of technologies are moving on the society. Business solutions are aiming to perform cross functional and cross border services. In the years where the e-trade and supply are growing digitally and reaching every spot in the world via technologies, the problem for the security solutions are more than important and contemporary topic
Artificial Intelligence and the Internet of Things in Industry 4.0Petar Radanliev
This paper presents a new design for artificial intelligence in cyber-physical systems. We present a survey of principles, policies, design actions and key technologies for CPS, and discusses the state of art of the technology in a qualitative perspec- tive. First, literature published between 2010 and 2021 is reviewed, and compared with the results of a qualitative empirical study that correlates world leading Industry 4.0 frameworks. Second, the study establishes the present and future techniques for increased automation in cyber-physical systems. We present the cybersecurity requirements as they are changing with the integration of artificial intelligence and internet of things in cyber-physical systems. The grounded theory methodology is applied for analysis and modelling the connections and interdependencies between edge components and automation in cyber-physical systems. In addition, the hierarchical cascading methodology is used in combination with the taxonomic clas- sifications, to design a new integrated framework for future cyber-physical systems. The study looks at increased automation in cyber-physical systems from a technical and social level.
Mediating and moderating factors affecting readiness to io t applications the...IJMIT JOURNAL
Although IOT seems to be the upcoming trend, it is still in its infancy; especially in the banking industry. There is a clear gap in literature, as only few studies identify factors affecting readiness to IOT applications in banks in general, and almost negligible investigations on mediating and moderating factors. Accordingly, this research aims to investigate the main factors that affect employees’ readiness to IOT applications, while highlighting the mediating and moderating factors in the Egyptian banking sector. The importance of Egypt stems from its high population and steady steps taken towards technology adoption. 479 valid questionnaires were distributed over HR employees in banks. Data collected was statistically analysed using Regression and SEM. Results showed a significant impact of ‘Security’, ‘Networking’, ‘Software Development’ and ‘Regulations’ on ‘readiness to IOT applications. Thus, the readiness acceptance level is high‘Security’ and ‘User Intention’ were proven to mediate the relationship between research variables and readiness to IOT applications, and only a partial moderation role was proven for ‘Efficiency’. The study contributes to increasing literature on IOT applications in general, and fills a gap on the Egyptian banking context in particular. Finally, it provides decision makers at banks with useful guidelines on how to optimally promote IOT applications among employees.
MEDIATING AND MODERATING FACTORS AFFECTING READINESS TO IOT APPLICATIONS: THE...IJMIT JOURNAL
Although IOT seems to be the upcoming trend, it is still in its infancy; especially in the banking industry.
There is a clear gap in literature, as only few studies identify factors affecting readiness to IOT
applications in banks in general, and almost negligible investigations on mediating and moderating
factors. Accordingly, this research aims to investigate the main factors that affect employees’ readiness to
IOT applications, while highlighting the mediating and moderating factors in the Egyptian banking sector.
The importance of Egypt stems from its high population and steady steps taken towards technology
adoption. 479 valid questionnaires were distributed over HR employees in banks. Data collected was
statistically analysed using Regression and SEM. Results showed a significant impact of ‘Security’,
‘Networking’, ‘Software Development’ and ‘Regulations’ on ‘readiness to IOT applications. Thus, the
readiness acceptance level is high‘Security’ and ‘User Intention’ were proven to mediate the relationship
between research variables and readiness to IOT applications, and only a partial moderation role was
proven for ‘Efficiency’. The study contributes to increasing literature on IOT applications in general, and
fills a gap on the Egyptian banking context in particular. Finally, it provides decision makers at banks with
useful guidelines on how to optimally promote IOT applications among employees.
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Rapid advancements in information communication technologies have significantly affected supply chains
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organization or supply chain system, or unit. This paper proposes that the implementation of smart
logistics is not enough for companies to derive any significant value from it. The paper proposes a threetiered solution centered on the application of blockchain technologies, including leanness and agility,
digitization, connectivity, network, culture, people, and implementation as crucial toward quality and value
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𝘼𝙣𝙩𝙞𝙦𝙪𝙚 𝙋𝙡𝙖𝙨𝙩𝙞𝙘 𝙏𝙧𝙖𝙙𝙚𝙧𝙨 𝙞𝙨 𝙫𝙚𝙧𝙮 𝙛𝙖𝙢𝙤𝙪𝙨 𝙛𝙤𝙧 𝙢𝙖𝙣𝙪𝙛𝙖𝙘𝙩𝙪𝙧𝙞𝙣𝙜 𝙩𝙝𝙚𝙞𝙧 𝙥𝙧𝙤𝙙𝙪𝙘𝙩𝙨. 𝙒𝙚 𝙝𝙖𝙫𝙚 𝙖𝙡𝙡 𝙩𝙝𝙚 𝙥𝙡𝙖𝙨𝙩𝙞𝙘 𝙜𝙧𝙖𝙣𝙪𝙡𝙚𝙨 𝙪𝙨𝙚𝙙 𝙞𝙣 𝙖𝙪𝙩𝙤𝙢𝙤𝙩𝙞𝙫𝙚 𝙖𝙣𝙙 𝙖𝙪𝙩𝙤 𝙥𝙖𝙧𝙩𝙨 𝙖𝙣𝙙 𝙖𝙡𝙡 𝙩𝙝𝙚 𝙛𝙖𝙢𝙤𝙪𝙨 𝙘𝙤𝙢𝙥𝙖𝙣𝙞𝙚𝙨 𝙗𝙪𝙮 𝙩𝙝𝙚 𝙜𝙧𝙖𝙣𝙪𝙡𝙚𝙨 𝙛𝙧𝙤𝙢 𝙪𝙨.
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Impacts of internet of things on supply chains
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social sciences
Article
Impacts of Internet of Things on Supply Chains:
A Framework for Warehousing
Noha Mostafa * , Walaa Hamdy and Hisham Alawady
Department of Industrial Engineering, Zagazig University, Sharkia 44519, Egypt;
walaahamdy2311@yahoo.com (W.H.); h_elawady2002@yahoo.com (H.A.)
* Correspondence: namostafa@eng.zu.edu.eg; Tel.: +20-100-424-2672
Received: 29 January 2019; Accepted: 28 February 2019; Published: 6 March 2019
Abstract: The emergence of new digital industrial technology, known as Industry 4.0, has a positive
impact on the performance of the supply chain. Warehouses are a basic part of the supply chain; they
are used to store products and manage the inventory level. A sound warehouse management system
can lead to cost reduction and also can improve customer satisfaction. Traditional warehouse
management models have become less efficient and unsuitable for today’s increasing market
requirements. For the past decades, information and communication technology has been used
for warehouse management. This paper presents a new approach for warehouse management
by utilizing one of the main pillars of Industry 4.0, the Internet of Things. This new technology
enables the connection of several objects through collecting real-time data and sharing them; the
resulting information can then be used to support automated decision-making. The architecture of
this application is illustrated and its potential benefits are overviewed. A framework is proposed
to implement this approach in warehousing management, which can help in providing real-time
visibility of everything in the warehouse, increasing speed and efficiency, and preventing inventory
shortage and counterfeiting. This proposal gives an effective roadmap for enterprises to improve
their warehouses by using the Internet of Things.
Keywords: Industry 4.0; Internet of Things; warehouse management system; supply chain
1. Introduction
The fourth industrial revolution can be described as “a shift in the manufacturing logic towards
an increasingly decentralized, self-regulating approach of value creation, enabled by concepts and
technologies such as cyber-physical system (CPS), Internet of Things (IoT), Internet of Services
(IoS), cloud computing and additive manufacturing and smart factories” (Hofmann and Rüsch 2017).
Applying the concepts of IoT and CPS to the manufacturing environment has led to the definition
of Industry 4.0 that helps in developing smart production, smart products and smart services
(Wollschlaeger et al. 2017). By shifting towards automation and computerized innovations,
organizations can achieve more profit (Imran et al. 2018). One of the common definitions of the supply
chain is, “A supply chain consists of all parties involved, directly or indirectly, in fulfilling a customer
request. The supply chain includes not only the manufacturer and suppliers, but also transporters,
warehouses, retailers, and even customers themselves” (Chopra and Meindl 2013). It describes a
collection of processes and resources needed to produce and deliver a product or a service to the
customer from the start to the end. “Supply chain management (SCM) is the management of the
interconnection of organizations that relate to each other through upstream and downstream linkages
between the process that produces value to the ultimate consumer in the form of products and services.
The main key of the success of any supply chain is to understand and satisfy customers’ needs with the
highest quality of products on time, that can be obtainable by eliminating non value-added activities,
Soc. Sci. 2019, 8, 84; doi:10.3390/socsci8030084 www.mdpi.com/journal/socsci
2. Soc. Sci. 2019, 8, 84 2 of 10
improving processes and making the supply chain more agile” (Kovács and Kot 2016). In most of
the modern enterprises, regular supply chain processes are managed by software packages such as
enterprise resource planning (ERP) and advanced planning and scheduling (APS). However, these
systems are not enough to face the increasing challenges of today’s supply chains; such as flexibility,
responsiveness and agility (Reaidy et al. 2015). Hence, new approaches have been introduced to meet
these challenges. With the imminent global shift towards Industry 4.0 and smart organizations, IoT
technology is playing a vital role in this transition. The core concept of IoT is that “everyday objects
can be equipped with identifying, sensing, networking and processing capabilities that will allow them
to communicate with one another and with other devices and services over the Internet to achieve
some useful objective” (Cortés et al. 2015). IoT infrastructure is based on many technologies such as
radio frequency identification (RFID), Wi-Fi, Bluetooth, sensors, and cloud computing. IoT can be
useful in improving the performance of the whole supply chain and transforming it to be a smart one;
for example, it can be used for monitoring, tracking products, creating an intelligent transportation
system, and demand forecasting. Inventory is a one of the significant areas where cost reduction can
be achieved in a supply chain (Ibrahim et al. 2011). Specifically, IoT can reduce inventory costs as well
as the bullwhip effect across the supply chain.
The main objective of this research is to study the economic and social impact of adapting Industry
4.0 and IoT technology in a warehouse, to show how it can help in saving money for any industrial
organization and to show how it improves its performance by proposing in detail a theoretical
framework of implementing IoT in a warehouse. The sub-objectives are to study the impact of Industry
4.0 on the supply chain and how it affects SCM functions, and to study the main components of the
IoT application.
This paper is organized as follows. Section 2 gives a literature review about Industry 4.0,
information sharing in supply chains and the previous research that integrates Industry 4.0 and
IoT technology in supply chains. Section 3 illustrates the components of IoT infrastructure. Section 4
discusses the potential of implementing IoT in the supply chain, a conceptual framework for this
implementation, and the expected challenges. Finally, conclusions are given in Section 5.
2. Literature Review
2.1. Industry 4.0 Key Technologies
The industrial sector acts as a key driver for the economic growth of most countries; for example,
it accounts for about 80% of innovations and 75% of exports in Europe (Hofmann and Rüsch 2017).
Industry 4.0 helps companies achieve massive gains in productivity, reliability, and efficiency in order
to satisfy customer needs and hence gain more profit (Degryse 2016).
Industry 4.0 is based on four key technologies; the first one is CPS, an integrated system of
communication, computing and control used for bringing together the physical and virtual worlds in
many fields such as motor vehicle manufacturing, transportation, and logistics. The second technology
is mobile internet and IoT technologies which help in making interactions between human and
machines, and between machines to machines (make things able to talk), and can easily implement
intelligent identification, location, monitoring, tracking and control. The third technology is cloud
computing technology which deals with a computing a service over the internet with low cost and high
performance and provides several internet services such as software, platforms, hardware and other
information technology (IT) infrastructures. The fourth technology is big data and advanced analysis
techniques which are used for processing different data types by using new processing methods
to produce reliable information quickly, hence helping companies in decision making, improving
processes, improving operational efficiencies and reducing costs (Zhou et al. 2015).
3. Soc. Sci. 2019, 8, 84 3 of 10
2.2. Information Sharing in Supply Chains
Information sharing has played an important role in supply chain management.
Baihaqia and Sohal (2013) presented an empirical study to show the impact of information sharing on
the supply chain. They found that sharing information between partners is necessary but not enough
to achieve a significant improvement. The core is to focus on making supply chain partners more
cooperative and to strengthen the internal integration between them by achieving tasks together so
that the relationship between them is built on trust. Managers should identify the information to be
shared and the best mechanism to share it, with the objective of improving the total supply chain
performance. Choy et al. (2014) developed a hypothetical model with seven hypotheses to study the
impact of adopting Information Technology (IT) applications in supply chain, such as information and
communication technology (ICT), logistics information system (LIS) and business intelligence (BI).
Two dimensions of service performance were taken into consideration; service quality for market-based
view and competitive advantage for resource-based view. The results showed that most of the logistics
service providers (LSPs) do not implement many techniques although recommended by several
researchers, e.g., radio frequency identification (RFID). The proposed hypothetical model can be
considered as a roadmap for LSPs to improve their competitiveness.
Grabara et al. (2014) illustrated the role and impact of information systems on transportation
activities in the enterprise, such as improving the efficiency of the transportation process, better drivers’
utilization, more efficient information exchange, and better financial results. They argued that without
good information systems management, organizations will not be able to make sound decisions in
transportation and hence will face risks in meeting market requirements. Jonsson and Mattsson (2013)
used a simulation model to understand the value and impact of sharing four types of planning
information (point-of-sales data, stock-on-hand data, customer forecasts and planned orders) on
the inventory capital by using re-order point methods. It was found that the value of the shared
information depends on whether the demand is stationary or not; when demand is stationary the
stock-on-hand data has high value, while when the demand is not stationary the demand forecast
and planned order data have high value. Sharing point-of sales has no value whether the demand is
stationary or not, thus it is very important to decide how and when to share planning information.
Vanpoucke et al. (2017) have developed an analytical framework to test how to take advantage of the
integration between supply chain and IT for the operational decisions. Using IT has a stronger impact
on the operational performance when used for upstream integration rather than the integration
with customers. This can increase speed and accuracy and can improve delivery performance.
However, according to Azab et al. (2016), many supply chains still suffer from miscommunication
between different stakeholders and inefficient exchange of information. Hence, new approaches and
techniques should be adopted to provide more efficient information sharing.
2.3. The Implementation of Industry 4.0 and IoT Technology in Supply Chains
With the emergence of IoT, researchers started to explore the potential of using this technology in
several fields. Few studies addressed this implementation in the field of supply chain management
(SCM). Imran et al. (2018) took a quantitative research approach with cross-sectional research design
to study the impact of Industry 4.0’s five factors (big data, smart factory, CPS, IoT, and interoperability)
on the production and service sectors in Pakistan. They found that the five factors have a significant
positive relationship with production and service sectors which means they have a great role in
improving the overall performance. Jia et al. (2012) discussed the definition of IoT, its challenges
and how it could be applied in different areas such as logistics and supply chain for tracking, tracing,
monitoring and supervising. According to them, these applications enable real-time management
of the whole system and hence make the supply chain more flexible and agile to adapt to any new
conditions. Dhumale et al. (2017) studied the impact of implementing IoT across the supply chain,
and argued that IoT contributes to the growth of the company and in facing today’s challenges, it also
had a positive impact on the company’s future economy. Szewczyk (2016) studied the impact of IoT on
4. Soc. Sci. 2019, 8, 84 4 of 10
the economy and society, and concluded that cloud computing and big data were the main elements
that would act as powerful drivers for business innovation through developing a hyper-connected
society. This will contribute to the growth of the worldwide IoT ecosystem and will be measured in
billions of Euros in Europe alone. Manyika et al. (2015) analyzed more than 150 different use cases,
such as health applications and industrial applications, to get a broader view of the impact of IoT on
the economy. They estimated that IoT will have a potential impact ranging between $3.9 trillion and
$11.1 trillion a year by 2025, which is equivalent to about 11% of the world economy.
Ng et al. (2015) addressed the impact of using IoT in SCM by developing a simple analytical
framework. They illustrated how to translate the data collected by IoT into meaningful information
to help the supplier/producer in managing the supply chain by choosing between two strategies.
The first, tailoring strategy, stated that it is necessary to produce multiple product varieties in order
to meet customers’ demand. The second, platform strategy, stated that the supplier has the ability to
produce standardized but flexible products that can be modified according to customers’ demand.
These two strategies can be more profitable through maximizing the customers’ added value. In the
field of agricultural supply chains, Yan et al. (2016) introduced an IoT-based model that used RFID to
solve the problem of imperfect sharing of information. They also proposed two methods of information
inquiry for static and dynamic information. These methods help the operators to easily track, trace and
inspect products anytime and at any stage, which improves the authenticity and quality of the products
and hence increases the supply chain efficiency. Cortés et al. (2015) reviewed some applications of
implementing IoT in supply chains such as applying it to the agricultural sector, and emphasized its
role in managing product information, reducing supply chain related costs, and improving the supply
chain efficiency.
Reaidy et al. (2015) proposed an IoT infrastructure for collaborative warehouse order fulfillment
based on RFID and a negotiation protocol which exploits competition and cooperation concepts
between agents. An example of a collaborative warehouse was constructed to validate the proposed
system and to analyze its impact on demand responsiveness with minimizing the fuel and labor costs.
For decentralized warehouse management systems (WMS), this platform can improve warehouse
visibility, traceability and transparency, thus it can improve the performance of the overall distribution
processes. Li and Li (2017) provided a framework to show how IoT cloud could improve the SCM
performance, especially supply chain innovation (SCI) by providing integrated data on activities,
resources and processes which improves the overall performance of all the supply chain partners.
Qin et al. (2017) proposed an assessment model that showed the impact of using RFID on
the problem of inaccurate inventory which occurred due to the bullwhip effect that results from
information distortion through the supply chain. This loss in inventory leads to an increase in shortage
and holding costs. The authors argued that utilizing RFID in the downstream transfer is more efficient
than using it in the upstream stages. Tejesh and Roy (2017) developed an inventory management
system based on IoT and open source hardware; it can be used for monitoring and tracking all the
information about products, e.g., the location of an item in the stockroom.
3. Components of IoT Infrastructure
IoT is considered one of the main pillars of Industry 4.0 that helps organizations build and
strengthen their competitiveness in the market and has a great impact on the modern economy
transformation (Wielki 2017). Generally, the architecture of IoT has four basic layers: the perception
layer, the transmission layer, the computation layer and the application layer. Each layer has inherent
security issues connected with it. Figure 1 illustrates the components and function of each layer.
The perception layer, also known as the sensors layer, has a main function to identify, track and
collect data from objects by using many technologies such as RFID tags, that are used to identify
and track objects, wireless sensor networks (WSNs), and actuators that are used for monitoring and
tracking the status of objects, then transmitting the collected data to the transmission layer.
5. Soc. Sci. 2019, 8, 84 5 of 10
The transmission layer acts as a link between the objects and the cloud; it provides data routing
transmission through the network. Many protocols are used in this layer such as low-power wireless
personal area networks (LoWPAN), which provide great connectivity with low energy consumption
and self-organization, Zigbee, which is a wireless network technology that has the advantages of
low cost, low energy consumption, low complexity, reliability and security, Wi-Fi, and 3G also can
be used. The computation layer provides efficient and secure services to the transmission layer and
the application layer. An interface technology is used in this layer to ensure security and efficiency
of the exchanged data. Service management is also use, it is responsible for services like collection,
exchanging and the storage of data (Lin et al. 2017). The last one is the application layer in which data
is managed. It is very important to select the suitable protocol for managing the network. There are
many protocols that can be used such as message queue telemetry transport (MQTT), advance message
queuing protocol (AMQP), constrained application protocol (CoAP) and extensible messaging and
presence protocol (XMPP) (Swamy et al. 2017).
Soc. Sci. 2019, 8, x 5 of 10
cost, low energy consumption, low complexity, reliability and security, Wi-Fi, and 3G also can be
used. The computation layer provides efficient and secure services to the transmission layer and the
application layer. An interface technology is used in this layer to ensure security and efficiency of the
exchanged data. Service management is also use, it is responsible for services like collection,
exchanging and the storage of data (Lin et al. 2017). The last one is the application layer in which data
is managed. It is very important to select the suitable protocol for managing the network. There are
many protocols that can be used such as message queue telemetry transport (MQTT), advance
message queuing protocol (AMQP), constrained application protocol (CoAP) and extensible
messaging and presence protocol (XMPP) (Swamy et al. 2017).
Figure 1. Architecture of IoT application.
4. Implementation of IoT in Warehousing
4.1. Conceptual Framework of IoT Implementation in a Warehouse
SCM has several functions such as purchasing, production, inventory, distribution, routing,
location and marketing (Mostafa and Eltawil 2016). From the literature, IoT can have a significant
role in improving various functions of SCM. Figure 2 summarizes some potential benefits of this
implementation. In today’s business world, warehouses have a significant role in meeting customers’
expectations. They serve as key sources of competitiveness measured by who can deliver the
products faster with better cost efficiency and flexibility. In that sense, managers need to have a good
understanding of everything related to warehousing and how it affects the whole supply chain
(Richards 2017). Trappey et al. (2017) explained that the improvement of warehouses can be
measured by speed and accuracy of meeting demands, effective management and decreased non-
value-added functions. Another concern is the information integration that consists of key functions
for inventory status updates, product tracking and order management.
Warehouses can contain thousands of products, that is why it should be optimally utilized to
ensure accurate and fast performance in all functions to meet customers’ demands. Applying IoT to
warehousing promises a significant impact as it can be used to monitor several processes in the
warehouse in real-time and can eliminate manual interferences. It can make everything connected to
Figure 1. Architecture of IoT application.
4. Implementation of IoT in Warehousing
4.1. Conceptual Framework of IoT Implementation in a Warehouse
SCM has several functions such as purchasing, production, inventory, distribution, routing,
location and marketing (Mostafa and Eltawil 2016). From the literature, IoT can have a significant
role in improving various functions of SCM. Figure 2 summarizes some potential benefits of this
implementation. In today’s business world, warehouses have a significant role in meeting customers’
expectations. They serve as key sources of competitiveness measured by who can deliver the
products faster with better cost efficiency and flexibility. In that sense, managers need to have a
good understanding of everything related to warehousing and how it affects the whole supply chain
(Richards 2017). Trappey et al. (2017) explained that the improvement of warehouses can be measured
by speed and accuracy of meeting demands, effective management and decreased non-value-added
6. Soc. Sci. 2019, 8, 84 6 of 10
functions. Another concern is the information integration that consists of key functions for inventory
status updates, product tracking and order management.
Warehouses can contain thousands of products, that is why it should be optimally utilized to
ensure accurate and fast performance in all functions to meet customers’ demands. Applying IoT
to warehousing promises a significant impact as it can be used to monitor several processes in the
warehouse in real-time and can eliminate manual interferences. It can make everything connected to
each other and hence enable the analysis of the vast amount of data captured from these connections
and turns them into insights to support decisions and improve the total performance.
Soc. Sci. 2019, 8, x 6 of 10
each other and hence enable the analysis of the vast amount of data captured from these connections
and turns them into insights to support decisions and improve the total performance.
Figure 2. Benefits of using IoT in SCM functions (Yerpude and Singhal (2017), Anita and Abhinav
(2017), Qin et al. (2017), Schoen et al. (2016), Ives et al. (2016) and Richards (2017).
In this work, a framework is proposed to implement IoT in warehousing operations. Figure 3
shows this framework. As soon as products pass through the in/out gateway, the reader attached on
the gate captures data about products recorded on tags attached to them. This provides real-time
visibility of inventory levels and prevents stock-outs. Readers attached to forklifts read data that
includes the product’s location, product type and expiry date, and share this data with the driver on
an attached screen. Once the products are put on shelves, attached sensors give confirmation to the
driver on the screen. Sensors are also used to monitor the Heating, Ventilation and Air Conditioning
(HVAC) system in order to optimize energy consumption and assure product quality and warehouse
safety. All the data captured from readers and sensors are transferred to the warehouse management
system (WMS) that processes the data and converts it into useful information and actions. The same
functions occur for order picking, when an order arrives, the driver goes to the location of the product
that appears on the attached screen and makes a confirmation that it is the correct order via the
readers attached to the forklift. As soon as the order leaves the warehouse, the inventory level is
updated immediately. This makes order fulfilment more efficient, easier and accurate, and prevents
counterfeiting.
Figure 2. Benefits of using IoT in SCM functions (Yerpude and Singhal (2017),
Anita and Abhinav (2017), Qin et al. (2017), Schoen et al. (2016), Ives et al. (2016) and Richards (2017).
In this work, a framework is proposed to implement IoT in warehousing operations. Figure 3
shows this framework. As soon as products pass through the in/out gateway, the reader attached on the
gate captures data about products recorded on tags attached to them. This provides real-time visibility
of inventory levels and prevents stock-outs. Readers attached to forklifts read data that includes the
product’s location, product type and expiry date, and share this data with the driver on an attached
screen. Once the products are put on shelves, attached sensors give confirmation to the driver on the
screen. Sensors are also used to monitor the Heating, Ventilation and Air Conditioning (HVAC) system
in order to optimize energy consumption and assure product quality and warehouse safety. All the
data captured from readers and sensors are transferred to the warehouse management system (WMS)
that processes the data and converts it into useful information and actions. The same functions occur
for order picking, when an order arrives, the driver goes to the location of the product that appears on
the attached screen and makes a confirmation that it is the correct order via the readers attached to
the forklift. As soon as the order leaves the warehouse, the inventory level is updated immediately.
This makes order fulfilment more efficient, easier and accurate, and prevents counterfeiting.
7. Soc. Sci. 2019, 8, 84 7 of 10Soc. Sci. 2019, 8, x 7 of 10
Figure 3. Proposed framework of implementing IoT in a warehouse.
4.2. Economic and Social Impact of the Proposed Framework
Reducing human intervention and making everything connected increase the efficiency and
saves time, hence saves money. Implementing IoT in industry can lead to economic and social
transformation; a 10% rise in the number of connected machines and objects can lead to an annual
increase of 0.7% in GDP (gross dynamic product), 0.3% in services GVA (gross value added) and 0.9
in industry GVA (Rodríguez and Stammati 2018). Real-time data and information sharing through the
cloud create massive values for companies and consumers, and help in making processes and services
more efficient, reducing costs, improving quality, creating new sources of revenue, optimizing
Figure 3. Proposed framework of implementing IoT in a warehouse.
4.2. Economic and Social Impact of the Proposed Framework
Reducing human intervention and making everything connected increase the efficiency and saves
time, hence saves money. Implementing IoT in industry can lead to economic and social transformation;
a 10% rise in the number of connected machines and objects can lead to an annual increase of 0.7%
in GDP (gross dynamic product), 0.3% in services GVA (gross value added) and 0.9 in industry
GVA (Rodríguez and Stammati 2018). Real-time data and information sharing through the cloud
create massive values for companies and consumers, and help in making processes and services more
8. Soc. Sci. 2019, 8, 84 8 of 10
efficient, reducing costs, improving quality, creating new sources of revenue, optimizing inventories,
and improving equipment utilization (Szewczyk 2016). IoT also has a great impact on society; it offers
great opportunities in everyday life and work. The massive amount of data generated can be used
for developing more efficient systems as it reduces human intervention (BCS 2013). The proposed
framework is expected to provide significant benefits for warehouses and supply chains through
decreasing human intervention. Expected benefits include:
• Increasing efficiency.
• Ensuring safety of labor and goods.
• Reducing operational time.
• Reducing accidents.
• Minimizing the number of workers.
• Increasing reliability and accuracy of packing and picking processes.
• Decreasing counterfeiting, fraud and theft.
• Helping companies improve forecasts due to the availability of accurate data.
• Real-time data helps in accurate decision making.
• Enhancing the overall performance of companies.
All these benefits will improve the profit and the reputation of the organization.
However, enterprises face multiple challenges in adopting IoT, with large number of devices connected
and vast amounts of data generated, enterprises have to be concerned about security and privacy as
the data could be hacked and stolen. Additionally, lack of technology standards can lead to negative
consequences as manufacturers can design products that operate in any of the disruptive ways online.
Adaption of IoT needs very high energy so energy demand is considered a big challenge of IoT, also
waste disposal that adversely effects the environment and therefore, affecting the human lifespan.
5. Conclusions
IoT is a key technology of the fourth industrial revolution Industry 4.0. IoT is considered
one of the most promising technologies to control and improve the performance of supply chains;
warehouses are key parts of supply chain that contribute to the success of any industrial organization,
so new technologies are gaining vast attention from a wide range of enterprises to improve
performance, reputation and hence gain more customers and profit. In this paper, a review of Industry
4.0 technologies is provided (CPS, IoT and cloud computing), as well as information sharing in
supply chains, and the previous research on implementing IoT in supply chains. Components of
IoT infrastructure are categorized in four layers; the perception layer, the transmission layer,
the computation layer and the application layer. In addition, the potential impacts of using IoT
in different supply chain functions have been illustrated. Also, a framework of implementing IoT
in warehousing operations was proposed with illustrating how it will bring more benefits to the
warehouse and improve overall performance. Potential impacts on the economy and society have been
illustrated. It was also discussed that the proposed framework can help in improving the performance
of the warehouse, increase efficiency, prevent inventory shortage and counterfeiting, and make order
delivering faster and easier, and hence increase the profit.
Future research should implement this framework on a real warehouse and compare the benefits
expected from this proposal with the actual results; a simulation model can be developed to show the
benefits of applying this framework.
Author Contributions: Conceptualization, N.M.; methodology, N.M. and W.H.; formal analysis, W.H.;
writing—original draft preparation, W.H.; writing—review and editing, N.M.; supervision, H.E. and N.M.
Funding: This research received no external funding.
Conflicts of Interest: The authors declare no conflict of interest.
9. Soc. Sci. 2019, 8, 84 9 of 10
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